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Home My WebLink About3466; OLIVENHAIN RD WIDENING & REALIGNMENT; DRAINAGE STUDY FOR ENCINITAS CREEK; 1991-05-01DRAINAGE STUDY FOR ENCINITAS CREEK Prepared for Fieldstone/La Costa Associates P.O. Box 9000-266 Carlsbad, CA 92009 Prepared by Howard H. Chang Ph.D., P.E. May, 1991 EXECUTIVE SUMMARY (1) INTRODUCTION (5) INPUT DATA FOR HEC-1 STUDY (7) ifi. SITE SELECTION AND HYDROLOGIC DESIGN FOR DETENTION BASIN D (9) IV. RESULTS OF HYDROLOGY STUDY (10) V. COMPARISON OF THIS HYDROLOGY STUDY WITH PREVIOUS STUDIES (12) VI. EVALUATION OF DRAINAGE FACILITIES Method of Evaluation Results of Evaluation - VII. RECOMMENDATIONS FOR DRAINAGE IMPROVEMENTS (18) VIII. REFERENCES LIST OF FIGURES FIGURES APPENDIX A. COMPUTATION OF LAG TIME AND BASIN D OUTFLOW APPENDIX B. INPUT/OUTPUT LISTINGS FOR HEC-1 STUDY APPENDIX C. IN[UT/OUTPUT LISTINGS FOR HEC-2 STUDY ATTACHMENTS Pocket #1 - Encinitas Creek Drainage Exhibit Prepared by Project Design Consultants, November 16, 1990 Pocket #2 A. Conceptual Plan of Detention Basin 'D' - y 1991 - I I I 111 ~ I II I I I I El El El I I I El DRAINAGE STUDY FOR ENCINITAS CREEK EXECUTWE SUMMARY A drainage study for the drainage basin of Encinitas Creek has been made. The purpose of the study is to obtain the 100-year flood discharges of the creek and its major tributaries. Existing. drainage facilities along the main streams have been evaluated. Recommendations have also been made in order to solve the drainage inadequacies within the stream system. The drainage study considers the ultimate development under the established development constraints, so that the results are also valid in the long term. Under the existing conditions of Encinitas Creek prior to the construction of new floodwater detention basins, two existing facilities have been found to be inadequate in passing the design flow, these are The box culverts at La Costa Avenue, and the El Camino Real bridge near Olivenhain. Because of the insufficient sizes of such facilities, the 100-yr flood will overtop the roads and flood adjacent areas. The design flows of the creek, however, may be reduced by floodwater detention basins. Such basins also enhance ground-water recharge and wildlife habitats. Two such basins are already in place and a additional one will be constructed in the near future. There also exists another suitable site for a fourth detention basin. A total of four floodwater detention basins are in the picture, these are: (iiiAT. This existing basin as shown in Fig. 1 is located in subbasin 6A just above the Calle Barcelona Road crossing. The basin is created by the road embankment of Calle Barcelona; the double 60-inch RCP under the road controls the outflow of the basin. (BfnTB- This existing basin as shown in Fig. 1 is located in subbasin 6 near the corner of 1 I Olivenhain Road and Rancho Santa Fe Road. It was constructed as a part of the nearby subdivision development. I Basin C - This basin which should soon be constructed is located in La Costa Southwest II; its location is within subbasin 11 in Fig. L. The 100-yr inflow discharge of 602 cfs to the basin is attenuated to 170 cfs by the basin. I CTTEhe selected site of this potential basin is in subbasin 7 as shown in Fig. 1. It is south of Olivenhain Road, just west of Rancho Santa Fe Road and east of the subdivision I Bridgewater. The dam and spillway of the basin is located at the downstream outlet. The extent of the basin coincides with the existing floodway boundary. This open space area is selected in consideration of the following factors: (1) It may provide adequate flood attenuation such that the reduced discharge may pass through the bridge at El Camino Real, the basin does not take additional usable land since it is in the existing floodway, and other sites are less effective for floodwater storage. The flood discharges of the drainage system have been computed for different basin status. For each case, the drainage conditions are assessed. The specific problem areas and their solutions are described in the following. Box culverts at La Costa Avenue - Drainage under La Costa Avenue is provided by the triple 12 by 8 concrete box culverts. These culverts are basically free of siltation. The study results pertaining to these culverts indicate the following: The box culverts have inadequate capacity under the natural conditions of Encinitas Creek without detention basins. The box culverts will be adequate with detention basins A, B and C in place, subject to recommended minor improvements described later. Floodwater detention basin D will enhance the drainage condition at the box culverts. The road surface of La Costa Avenue is not even in elevation in the vicinity of the 01 culverts. The surface area directly above the culverts is higher and the elevation drops in both east and west directions. Under this situation, even though floodwater may not overtop the roadway directly above the culverts, it may still overtop the roadway on both sides. Overtopping of the roadway should be prevented; it may be accomplished by one of the following measures: construction of a earth berm on the upstream side of La Costa Avenue to contain the 100-year flood with a freeboard of at least one foot. a raise of the adjacent roadway elevation. Channel reach west of El Camino Real and south of Olivenhain - This short channel reach is along the south branch of Encinitas Creek upstream of the east branch, with a length of about 1,000 feet. Since the publication of the floodplain map in 1982, the floodway area near the confluence has been filled, to an average elevation slightly above the roadway elevation of El Camino Real. This landfill has some definite effects on the drainage through this channel reach and the 1982 floodway. I Cross sections used in the 1982 County study have been revised to reflect recent I siltation of the stream bed and the landfill. Computed results along this reach show that the roadway is not subject to inundation under the 100-year flood of Encinitas Creek. I However, the landfill has invalidated the 1982 floodplain study; it pushes the floodplain boundary toward the agricultural field on the west side of the channel. A new floodplain I study is recommended. The new study will delineate the floodplain and floodway boundaries under the actual channel configuration. El Camino Real Bridge near Olivenhain L This bridge which drains the east branch of Encinitas Creek is located near the intersection of El Camino Real and Olivenhain. The stream bed at the bridge crossing is now silted to the elevation of 75 feet. Siltation has significantly reduced the drainage capacity through the bridge opening. The existing floodplain map also shows that this part of El Camino Real is within the floodway. Drainage through the El Camino Real bridge has been evaluated for different 0 I .. conditions. For each case, the computed water-surface elevation at the upstream face of the bridge is compared with the roadway elevation. It may be concluded from this comparison that the bridge does not have adequate capacity under the existing conditions with floodwater detention basins A and B in place, but it will have sufficient capacity after detention basin D is constructed. The drainage capacity of the bridge may also be improved to the 100-year flood standard without the construction of detention basin D. The alternative is of the stream channel in the vicinity of the bridge The floodplain map of this area should be ' updated after the improvements are made. Accelerated siltation of the stream channel for Encinitas Creek can be attributed to cultivation and construction grading. Sediment control measures during the grading period are recommended to mitigate the siltation problem., Dredging of the stream channel, perhaps outside the coastal zone (west of El Camino Real), will also alleviate the siltation problem. Detention Basin D will require little or no maintenance. A detention basin requires maintenance dredging if siltation reduces its storage capacity. In the case of detention basin D, there exist two upstream detention basins (A and B) which will detain most of the sediment inflow supplied by the drainage basin. For this reason, siltation of detention basin D is expected to be very slow and it should not present a maintenance problem. I I I DRAINAGE STUDY FOR ENCINITAS CREEK I. INTRODUCTION This hydrology study has been made for the drainage basin of Encinitas Creek in the City of Carlsbad and City of Encinitas, as shown in Fig. 1. The purpose of the study is to obtain the 100-year flood discharges of the creek and its major tributaries. Existing drainage facilities along these streams will be evaluated. Recommendations will be made in order to solve inadequate drainage situations of the stream system. The hydrology study considers the ultimate development under the established development constraints, so that the results obtained at this time are also valid in the long term. The drainage of Encinitas Creek has already been modified by the use of floodwater detention basins which attenuate the flood discharge. Such basins also enhance ground- water recharge and wildlife habitats. A total of four floodwater detention basins are described in this report, these are: Basin A - This existing basin as shown in Fig. 1 is located in the east branch of Encinitas Creek (subbasin 6A) just above the Calle Barcelona Road crossing. The basin is created by the road embankment of Calle Barcelona; the double 60-inch RCP under the road controls the outflow of the basin. - Basin B - This existing basin as shown in Fig. 1 is located in subbasin 6 near the corner of Olivenhain Road and Rancho Santa Fe Road. It was constructed as a part of the nearby subdivision development. Fig. 2 shows the dam and spillway at the basin outlet. Basin C - This basin which should soon be constructed is located in La Costa Southwest II; its location is also marked in subbasin 11 of Fig. 1. The hydrologic 5. design of the basin is described in the report Hydrology Design of Floodwater Detention Basin for La Costa Southwest, 1989, by Chang. Design drawings of the basin have been prepared by Hunsaker and Associates of San Diego. The inflow peak discharge to the basin is 602 cfs for the 100-year event; it is attenuated by the basin to 170 cfs. Basin D - The site of this basin as selected is in subbasin 7, south of Olivenhain Road and just east of Rancho Santa Fe Road as shown in Fig. 3. The dam and spillway of the basin is to be located at the downstream outlet. Site selection and hydrologic design of this floodwater detention basin are described in a later section. Because of the existing and future floodwater detention basins, this drainage study covers the following cases: Case 1 - This case is for the baseline conditions of Encinitas Creek prior to the construction of any floodwater detention basin. The ultimate development condition of the drainage basin is assumed for hydrological computation. Case 2 - This case is for the stream system with floodwater detention basins A, B, and C in place but without Basin D. This case reflects the existing condition with the additional approved Basin C. Case 3 - This case is for the stream system with all floodwater detention basins in place. This study is guided by the Hydrology Manual of the County of San Diego, updated in 1985. As specified in the manual, the SCS method for hydrology shall be applied to drainage basins that are larger than 0.5 square mile. The HEC-1 computer model developed by the U. S. Army Corps of Engineers, which employs the SCS method, is the principle tool for this study. The drainage subbasins as selected in this study are shown in Fig. 1, together with points of concentration at the respective subbasin outlets. The Hydrology Manual also specifies the use of the rational method for drainage basins that are less than 0.5 square mile in area. The rational method is a simpler method which provides the design discharge of specific drain facilities. This study does not cover the rational method since such facilities are selected with future development. An important objective of the present study is to identify drainage problems and then develop adequate countermeasures for the problem areas. The alluvial channel of Encinitas Creek has been undergoing siltation in recent years. Siltation has significantly reduced the drainage capacity for the bridge on El Camino Real near the intersection of Olivenhain Road. Suitable solutions for this problem, together with those for other problems, shall be determined. II. INPUT DATA FOR HEC-1 STUDY For the purpose of hydrologic computation, certain basin characteristics are required. Such characteristics include basin area, precipitation zone number (PZN), antecedent moisture condition, precipitation, SCS curve number (CN), lag time, etc. Methods for obtaining such characteristics are described below separately. Basin Area - The area of a drainage basin is measured directly from the drainage basin map. Precipitation Zone Number (PZN) - This value for a subbasin is obtained from Fig. I-A-3 of the County Hydrology Manual. The coastal line has the PZN value of 1 and the PZN of 1.5 line is east of the study area. Subbasins in the study area have PZN values ranging from 1.1 to 1.3. Antecedent Moisture Condition (AMC) - The AMC for the 100-year flood is computed based on the PZN value of the basin according to the following relation form the Hydrology Manual 7 I .. PZN - 1.0 AMC = 2.0 + (3.0 - 2.0) 1 2.0 -1.0 I Runoff Curve Number (CN) - In the SCS method for runoff estimation, the CN value is used. Table I-A-1 of the Hydrology Manual lists the CN values related to land use, land I treatment or practice, hydrologic condition, and soil type. The CN values for the AMC of 2 are listed in the manuaL Adjustment to. other AMCs is based on the information shown I in Table I-A-5 of the manual. I Precipitation - The 100-year 6-hour storm and 24-hour storm are used in this study. The precipitation in inches for each case is obtained from the precipitation map in the 1 Hydrology Manual. The values so obtained are, listed in Table 1. Precipitation is distributed in accordance with the Type B distribution curve. When both storms are applied in the study, the 6-hour storm normally produces higher runoff discharges in small basins, while the 24-hour storm generates higher discharges for large basins. The larger of the two I discharges so obtained is adopted. In this study, the 6-hour storm produces higher runoff discharges. Lag Time - The lag time relationship is based on criteria developed by the U. S. Army Crops of Engineers adopted in the Hydrology Manual. Lag is defined as the time in hours from the center of mass of the excess rainfall to the peak discharge, it is an empirical expression of the physical characteristics of a drainage area in terms of time. The lag time computation for this study is given in Appendix A, and the results are listed in Table 1 below. Table 1. Summary of Drainage Basin Characteristics for Encinitas Creek Subbasin Area PZN AMC Rainfall, in. CN Lag Time sq. mi. 6-hr. 24-hr. hrs. 1 0.88 1.2 2.2 2.8 4.5 89 0.117 2 0.58 1.2 2.2 2.8 4.7 87 0.107 91 4 0.74 1.1 2.1 2.7 4.5 87. 0.148 5A 0.64 1.3 2.3 2.9 5.0 89 0.274 5 0.68 1.2 2.2 2.8 4.8 89 0.212 6A 0.20 1.2 2.2 2.8 4.9 89 0.078 6B 0.37 1.3 2.3 2.9 5.0 90 0.137 6C 0.65 1.3 2.3 2.9 5.1 88 0.216 6 0.25 1.2 2.2 2.8 4.8 89 0.101 8A 0.09 1.2 2.2 2.8 4.8 82 0.105 8B 0.53 1.2 2.2 2.8 4.8 82 0.248 8(8A+8B) 0.62 1.2 2.2 2.8 4.7 82 0.347 10 0.42 1.1 2.2 2.7 4.5 82 0.189 11 0.65 1.2 2.2 2.8 4.7 88 0.102 13 0.66 1.1 2.1 2.7 4.5 82 0.262 Total area = 7.34 square miles III. SITE SELECTION AND HYDROLOGIC DESIGN FOR DETENTION BASIN D I . Site selection and hydrologic design of the new floodwater detention basin (Basin D) are described herein. The selected site of this floodwater detention basin as shown in Fig. 3 is south of Olivenhain Road, west of Rancho Santa Fe Road, and east of the new subdivision Bridgewater. The extent of the basin coincides with the existing floodway I boundary. It has an average length of 1,320 feet, an average width of 375 feet, and a surface area of about 11 acres. This open space area has been selected in consideration of the following factors: It provides adequate floodwater storage for flood discharge attenuation such that the I reduced discharge may pass through the bridge at El Camino Real. With the floodway as its boundary, the basin does not take additional usable land. I (3) Other sites are less effective for flood discharge attenuation. I 9 I The elevation-surface area relation for the basin is employed in storage routing. The U tabulation of elevation-surface area for the basin is given below. Elevation Storage volume I feet acre-feet 100 0 I . 102 3.8 104 15.2 I 106 38.4 108 61.0 110 83.6 I Hydrologic design of this basin is based on HEC-1 computations. In this process, an initial dam and spillway configuration for the basin is first assumed. This spillway is a I broad-crested weir with sloped upstream and downstream faces and rounded corners. Hydraulic computation for its stage-discharge relationship is given in Appendix A. The 100- year flood is routed through this basin using the HEC-1 computation. The results of the routing are evaluated to see if they meet the requirements for flood control. The spillway I configuration is then adjusted until the results are satisfactory. The design configuration as finalized in the study has the following features: Spillway crest elevation: 106 feet Length of spillway (dimension perpendicular to flow): 28 feet Width of spillway (dimension in flow direction): 10 feet Spillway side slope: vertical Maxima outflow discharge: 753 cfs Water surface elevation at spillway crest at maximum discharge: 108.8 feet Maximum stage in basin: 110.08 feet Maximum storage in basin: 83.6 acre-feet Size of pipe spillway: 36" RCP IV. RESULTS OF HYDROLOGY STUDY 10 Results of the hydrology study for different cases are summarized in Table 2. Other detailed output information can be found from the computer listings of HEC-1 in Appendix B. The effectiveness of the floodwater detention basins may be observed from a comparison of the tabulated peak discharges for the cases listed. Table 2. Summary of Peak Discharges for the 100-Year Flood Point Area Case 1 Conc. sq. nil. No basin Case Case Basins A+B+C Basins A+B+C+D 6C 0.65 561 561 561 6B 1.02 900 900 900 6A 1.22 1,025 1,025 1,025 6 1.47 1,215 734 734 5A 0.64 539 539 539 5 1.32 1,051 1,051 1,051 7 2.79 2,241 1,163 1,163 8 3.41 2,597 1,465 827 1 0.88 842 842 842 2 0.58 511 511 511 3 1.46 1,353 1,353 1,353 4 2.20 1,891 1,890 1,890 9 5.61 4,047 2,832 2,238 10 6.03 4,207 3,013 2,456 11 0.65 602 170 170 12 6.68 4,450 3,181 2,622 13 7.34 4,725 3,450 2,926 The difference in discharge among these cases is a direct result of floodwater detention basins, which will provide substantial attenuation of the peak discharge. The simulated inflow and outflow hydrographs for basins A, B, C, and D are shown in Figs. 4 to 7, respectively. For basin D, the inflow hydrograph has a peak discharge of 1,185 cfs, 11 whereas the outflow has 753 cfs. In addition to the reduction of the peak discharge, this detention basin also delays the time of peak for the flood. In this case, the peak time for the inflow is 3.03 hours and that for the outflow is 4.40 hours. The delay of the peak time is beneficial for the main channel of Encinitas Creek downstream of the confluence of the east and south branches. Since the south branch has an earlier peak time, the delay of the peak time for the east branch by detention basin D is an important factor for the extent of flood attenuation achieved for the main channel below the confluence. It is also apparent from the graphical results of Figs. 4 to 7 that each detention basin will generate a outflow hydrograph with a much more uniform distribution of the discharge with a longer duration. Characteristics of the storage and outflow hydrograph for basin D are summarized below: Peak storage: 83.6 acre-feet i1Oet Maximum storage duration: 6 hrs. (from 2 hrs. and 40 minutes to 8 hrs. and 40 minutes after the start of rain) Maximum storage depth: about 10 feet (110 feet - 100 feet) Average storage depth of basin at peak stage: about 6 feet Duration of maximum storage depth: somewhat less than 1 hr. Duration of storage after rainfall: 2.7 hrs. The maximum storage in the reservoir of 83.6 acre-feet corresponds to (iff0Tfff. This stage is about one foot below the roadway elevation of Rancho Santa Fe Road. V. COMPARISON OF THIS HYDROLOGY STUDY WITH PREVIOUS STUDIES I The discharges for case 1 obtained in this study are compared with those of the previous studies. Table 3 summarizes the computed peak discharge of the 100-year flood for these I cases. I 12 I Table 3. Comparison of Peak Discharges for 100-Year Flood Point Area Corps Koebig County Rick This Study Conc. sq. mi. 1971 1975 1980 1988 1990 6C 0.65 . 672 561 6B 1.02 1,047 900 6A 1.22 1,229 1,025 6 1.47 1,260 1,365 1,446 1,215 5A 0.64 604 539 5 1.32 . 1,300 1,22 1,183 1,051 7 2.79 2,750 2,621 2,629 2,241 8 3.41 2,900 2,383 2,866 2,597 1 0.88 930 850 842 2 0.58 . 600 650 513 511 3 1.46 1,500 1,633 1,362 1,353 4 2.20 1,950 1,891 9 5.61 4,300 4,294 4,817 4,047 10 6.03 4,190 3,856 5,015 4,207 11 0.65 530 602 602 12 6.68 4,313 5,572 4,450 13 7.34 4,500 - 4,698 4,556 5,920 - 4,725 It appears from this comparison that the peak discharges are generally similar although those obtained by Rick Engineering tend to be higher. This difference is primarily due to the estimation of the lag time for the subbasins. VI. EVALUATION OF DRAINAGE FACILITIES Certain Tdrainage facilities have been found to be iIadequate in previous studies. All drainage facilities along the stream channel included in the hydrology study are evaluated in this study. Those facilities that may be inadequate are listed below. 13 I (1) Box culverts at La Costa Avenue - Cross drainage under La Costa Avenue is provided 1 by the triple 12 by 8 concrete box culverts, see Fig. 8. These culverts are basically free of siltation. Floodplain map for Encinitas Creek in the vicinity of these culverts is shown in Fig. 9, which also has the cross-section locations. The cross sectional profile at the culvert outlet is shown in Fig. 10. I(2) Channel reach west of El Camino Real and south of Olivenhain - This short channel ' reach is along the south branch of Encinitas Creek upstream of the east branch, see Fig. 11. This reach has a length of about 1,000 feet, from section 1.303 to 1.520. Figure 11 is the 1982 floodplain map of this area, which shows that a part of El Camino Real is within the floodway. Since the publication of this floodplain map, the floodway area near section 1.403 1 west of El Camino Real has been filled, to an average elevation slightly above the roadway elevation of El Camino Real. Cross-sectional profiles for these sections are shown in Figs. 1 12 to 15. This landfill has some definite effects on the drainage along this channel reach and the 1982 floodway delineation to be evaluated in a following section. (3) El Camino Real Bridge near Olivenhain -. This bridge which drains the east branch of I Encinitas Creek is located near the intersection of El Cmino Real and Olivenhain, see Fig. 11. The cross sections 0.000 to 0.023 shown in Fig. 11 are along the east branch in the vicinity of the bridge; their profiles are shown in Figs. 16 and 17. The stream bed at the bridge crossing as shown in Fig. 18 is now silted to the elevation of 75 feet. The flood plain map of Fig. 11 also shows that a part of El Camino Real is within the floodway, primarily due to the insufficient drainage capacity of the bridge. Method of Evaluation - The drainage capacities of these facilities are evaluated based on the HEC-2 program developed by the U. s; Army Corps of Engineers. Input/output listings of the HEC-2 computations are included in Appendix C. Three different sets of discharges, as listed in Table 2 for cases 1, 2 and 3 respectively, are used. Cross sections used in this study follow those for the floodplain study made by the County of San Diego in 1982, except 1 the elevations are updated to reflect the recent siltation and landfill. Such cross sections near the subject facilities are shown in Figs. 10 and 16. 1• 14 I I .. I I i Results of Evaluation - Based on the HEC-2 results, the drainage conditions for the facilities are described below separately. - (1) Box culverts at La Costa Avenue - The HEC-2 results pertaining to these culverts for I three different discharges are tabulated below. The discharge of 4,725 cfs is the 100-year flood for natural conditions without any floodwater detention basin, 3,450 cfs is for the case with detention basins A, B and C in place, and the discharge of 2,926 cfs is for the case with all four detention basins in place. I . \c0 Sec. No Location Computed Water Surface Elev. in feet N o er9J . P3- 1(39 4.725 cfs 3.450 cfs 2.926 cfs 0.053 At 10' D/S of culverts 16.90 16.90 15.84 0.054 At D/S face of culverts 18.40 16.91 15.88 0.063 At U/S face of culverts 23.12 17.99 17.15 1 0.064 At 10' U/s of culverts 23.57 18.85 17.63 I The computed water-surface elevations are compared with the culvert low chord elevation of 17.8 feet and the top of roadway elevation of 18.8 feet at the upstream face. At the discharge of 4,725 cfs, the roadway surface will be overtopped. The discharge of 3,450 will pass through the culverts as pressure flow and the roadway surface is above the I water level by 0.8 foot. At the discharge of 2,926 cfs, the flow will pass through the culverts as low flow, with a freeboard well over 1 foot. Based on these results, the following may be concluded: The box culverts have inadequate capacity under the natural conditions of I Encinitas Creek without detention basins. The box culverts will be adequate with detention basins A, B and C in place, I subject to recommended improvements described later in this section. Floodwater detention basin D will enhance the drainage condition at the box I culverts. . I . ..15 It is important to point Out that the road surface of La Costa Avenue is not even in I elevation in the vicinity of the culverts. The surface area directly above the culverts is higher and the elevation drops off in both east and west directions. Under this situation, I even though the floodwater may not overtop the roadway directly above the culverts, it may still overtop the roadway on both sides. Overtopping of the roadway should be prevented; I it may be accomplished by one of the following measures: construction of a earth berm on the upstream side of La Costa Avenue to contain the I 100-year flood with a freeboard of about 3 feet. a raise of the roadway elevation. I Overtopping flow is not assumed in the HEC-2 computations. I (2) Channel reach west of El Camino Real and south of Olivenhain - Cross sections used in the 1982 County study have been revised to reflect recent siltation of the stream bed and I .landfill. Computed water-surface elevations at those cross sections along this reach are listed blow, together with the corresponding roadway elevations of El Camino Real. I Computed I Cross Section Water Surface Elev. Road Surface Elev. feet feet I 1.313 78.40 84.5 1.403 80.70 82.0 I 1.420 83.97 . 84.5 1.520 88.99 89.2 The results show that the computed 100-year flood levels are just below their I corresponding roadway elevations of El Camino Real. Therefore, the roadway is not subject to inundation under the 100-year flood of Encinitas Creek. The landfill has invalidated the 1982 flood plain study; it pushes the floodplain boundary toward the agricultural field on the west side of the channel. A new floodplain study is recommended. The new study will delineate the floodplain and floodway 16 I i boundaries under the actual channel configuration. (3) El Camino Real Bridge near Olivenhairi - The HEC-2 results pertaining to this bridge under three different discharge are tabulated below. The discharge of 2,597 cfs is for the natural conditions without any floodwater detention basin; the value of 1,465 cfs is for the existing 100-year discharge with detention basins A and B in place; and the discharge of 832 cfs is for the case when detention basin D is also constructed. I Sec. No Location Computed Water Surface Elev. in feet I I7cfs 1.465 cfs 832 cfs 0.000 At 40' D/S of bridge 7946'j 78.69 (78277) 1 . 0.006 At D/S face of bridge 81.74 79.47 78.19 0.021 At U/S face of bridge 8.01 82.03 79.61 1 -0.023 At 20' U/S of bridge 85.02 82.03 79.61 0.110 At 491' U/S of bridge 85.07 82.31 80.46 The computed water-surface elevations are compared with the bridge low chord I elevation of 79 feet and the top ofa1 1viti5iibf81Tfëët. At the discharge of 2,597 cfs, the roadway will be overtopped The samesitUãtion occurs under the discharge of 1,465 I (ëf2At the discharge of 832 cfs, however, the flow will pass through the bridge opening with a freeboard of at least 1 foot measured from the roadway elevation. It may therefore be I concluded that the bridge dOes nOt have adequate capacityiindeYtIie exitinjditioñ ithflddwatir dtentiOiFA àhd.B.. iii plàe, but it will have sufficient capacity after detention basin D is constructed. I Of course the drainage capacity of the bridge may also be improved to pass the 100- year flood without the construction of detention basin D. The alternative is dredging of the I stream channel in the vicinity of the bridge. The dredging requirements for passing the present 100-year discharge of 1,465 cfs are given in the previous study by Rick Engineering. I The floodplain map of this area should be updated after the improvements are made. 17 HI I VII. RECOMMENDATIONS FOR DRAINAGE IMPROVEMENTS Recommendations are made herein to provide countermeasures for the drainage problems at the facilities described above, including the following items. The box culverts at La Costa Avenue has been determined to be adequate for the 100- year flood after detention basin C in La Costa Southwest II is constructed. While the I culverts will have the proper capacity, floodwater may still overtop the roadway on the east and west sides of the culverts. To avoid overtopping flow, a berm is recommended at the I upstream side of La Costa Avenue. It may be a simple earth berm, similar to what has been installed at Calle Barcelona for the same purpose. The present improper drainage through the El Camino Real bridge near Olivenhain I may be resolved by dredgmgthitream bedor by biiildiñ floodwãièrdteñtioñ bam D7 This basin will attenuate the 100-year flood discharge to be within the present capacity of I the bridge crossing and it will also enhance the drainage condition at La Costa Avenue. The floodplain map for Encinitas Creek needs tö1iidated to reflect the recent landfill I west of El Camino Real and south of Olivenhain. The floodplain map should also be updated to reflect the changes in flood discharges due to the recent floodwater detention I basins. The existing floodplain and floodway on the roadway of El Camino Real may be totally eliminated after recommended improvements are implemented. I Accelerated siltation of the stream channel for Encinitas Creek can be attributed to I cultivation and construction grading. Sediment control measures during the grading period are recommended to mitigate the siltation problem Dredging of àitfëãrifchahiiel outside' I the coasta1±ê (wesfof El Camino Real) will alleviate thesi1tation probiern HI 1 i VIII. REFERENCES "La Costa Southwest II, Detention .and Desilting Basins", prepared for La Costa Ranch Company, by Hunsaker and Associates of San Diego, Inc, 1988. "Flood Plain Information for San Marcos Creek", Corps of Engineers, Los Angeles District, 1971. "Zone 1 Comprehensive Drainage Study", Prepared for San Diego County Flood Control District by Koebig and Koebig, 1975. "Hydrology Report for Encinitas Creek", YF0645, County of San Diego, 1980. "Encinitas Creek Watershed HEC-1 Model Analysis Hydrology Report", Rick Engineering Company, August 19, 1988. "Hydrology Manual", County of San Diego, January 1985. 19 LIST OF FIGURES Fig. 1. Drainage basin of Encinitas Creek Fig. 2. Dam and spillway of floodwater detention basin B Fig. 3. Map showing the selected location of floodwater detention basin D. The basin boundary coincides with the floodway boundary. Scale of map: 1 inch = 200 feet Fig. 4. Simulated inflow and outflow hydrographs and time variation of floodwater storage for floodwater detention basin A Fig. 5. Simulated inflow and outflow hydrographs and time variation of floodwater storage for floodwater detention basin B Fig. 6. Simulated inflow and outflow hydrographs and time variation of floodwater storage forfloodwater detention basin C Fig. 7. Simulated inflow and outflow hydrographs and time variation of floodwater storage for floodwater detention basin D Fig. 8. Downstream side of box culverts at La Costa Avenue Fig. 9. Floodplain map of Encinitas Creek in the vicinity of La Costa Avenue Scale of map: 1 inch = 200 feet Fig. 10. Cross-sectional profile at downstream side of box culverts Fig. 11. Flood plain map of Encinitas Creek near the confluence of east and south stream branches. Scale of map: 1 inch = 200 feet Fig. 12. Cross-sectional profile for section 1.3i3 Fig. 13. Cross-sectional profile for section 1.403 Fig. 14. Cross-sectional profile for section 1.420 Fig. 15. Cross-sectional profile for section 1.520 Fig. 16. Cross-sectional profile at downstream side of El Camino Real bridge Fig. 17. Cross-sectional profile at upstream side of El Camino Real bridge Fig. 18. Downstream side of bridge at El Camino Real and Olivenhain. I 20 I _; f - - - - .- -- -- - --- - -- - - - - .1c' •-. I •• 4. ,;'"' <w . /. - (C- tAG ON 35 . -_ -1-1 ,-36 . (/ ( . • . -.•. - "- . I!> 13 r / 01 --. ••_••.:.-.._ - i c> I . . ..-. •--=; 9 - . .. - 1 1 . . / -. ;•. Fig. 1. Drainage basin of Encinitas Creek -L-L '\. ... -- —• . . . wat point of concentration : - -) - ( ) drainagesubbaSin floodwater - - ° detention basin IF ' — -'- - IPRNT 5 PRINT CONTROL IPLOT 0 PLOT CONTROL QSCAL 0. HYDROGRAPH PLOT SCALE IT HYDROGRAPH TIME DATA WMIN 2 MINUTES IN COMPUTATION INTERVAL IDATE 12DEC89 STARTING DATE ITIME 0000 STARTING TIME NO 300 NUMBER OF HYDROGRAPH ORDINATES NDDATE 12DEC89 ENDING DATE NDTIME 0958 ENDING TIME ICENT 19 CENTURY MARK COMPUTATION INTERVAL .03 HOURS TOTAL TIME BASE 9.97 HOURS ENGLISH UNITS DRAINAGE AREA SQUARE MILES PRECIPITATION DEPTH INCHES LENGTH, ELEVATION FEET FLOW CUBIC FEET PER SECOND STORAGE VOLUME ACRE-FEET SURFACE AREA ACRES TEMPERATURE DEGREES FAHRENHEIT *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** * * 38 KK * PT.6A * FLOODWATER DETENTION BASIN A UPSTREAM OF CALLE BARCELONA * * * ******* * * *** * 39 KO OUTPUT CONTROL VARIABLES IPRNT 5 PRINT CONTROL IPLOT 2 PLOT CONTROL QSCAL 0. HYDROGRAPH PLOT SCALE STATION PT.6A * * 54 KK * PT. 6 * FLOODWATER DETENTION BASIN B AT OLIVENHAIN AND RANCHO SANTA FE RD. * * ************** 55 KO OUTPUT CONTROL VARIABLES IPRNT 5 PRINT CONTROL IPLOT 2 PLOT CONTROL OSCAL 0. HYDROGRAPH PLOT SCALE STATION PT. 6 131 LS SCS LOSS RATE STRTL .27 INITIAL ABSTRACTION CRVNBR 88.00 CURVE NUMBER RTIMP .00 PERCENT IMPERVIOUS AREA 132 UD SCS DIMENSIONLESS UNITGRAPH TLAG .10 LAG UNIT HYDROGRAPH 17 END-OF-PERIOD ORDINATES 457. 1554. 2529. 2582. 2052. 1256. 786. 510. 321. 201. 128. 81. 51. 33. 22. 13. 6. 5 - e-- --- ---- -: os— I Fig. 3. Map showing the selected location of flood- water detention basin D. The basin boundary coincides with the floodway boundary. Scale of map: 1 inch = 200 feet I .'. V : f I.,. I .., L : V. , '.: IF T!r4.L2 sh Ail ' . I -1i4 2)L lt_! (I) INFLOW, (0) OUTFLOW 0. 100. 200. 300. 400. 500. 600. 700. 800. 0. 0. 0. 0. (S) STORAGE 0. 0. 0. 0. 0. 0. 0. 20 .40. 60 0. 0 0. DAHRMN PER 120000 11-. ------------------------------------------- --s ---------. ---------------------------------------- 120202 62. . S . 120204 63. . . . . S 120206 64. . . . S 120208 65. . . . S 120210 66. . . . . . S . - 11 120212 67. . . . . S . . Co 120214 68. . . . . . S . . 120216 69. . . . . . .S 120218 70. . . . . .S . . 120220 71. ...............- . . 0 ........ 120222 72. . . . . .S 120224 73. . . . .s .... 8. 120226 74. . . . . . .S . 0 . 12022875. . . . .S . 03W 120230 76. . . . . . S 0 . CD - 120232 77. . . . S - a. 120234 78. . . - S 120236 79. . . . S 120238 80. . . . . S . - . - 120240 81 ................................ 120242 82. . . . s - . . 120244 83. . . . . . . . 120246 84. . . . S .I CD 120248 85. . . . . . . S . .-..CL 120250 86. . . . . . S. - 120252 87. . . . . 54 . 5 0 120254 88. . . . . I/S . o Fk 120256 89. . . . . - IS a - 120258 90. . . . . . - 0) 0 120300 91 .......................i.s.............n . 120302 92. . . . . .1 S . - -t 120332 107. 120336 109. 120304 93. . . . . . . S - 120306 94. . . . . . .t S . - Cff Q- 120308 95. . . . . . . I S . -, 120310 96. . . . . . S . CL 0 120312 97. . . . . . . I S 120314 98. 1 S 120316 99. S 'a 120318 100. S =r 1giR: : : : : : : : co 120326 104. . . . . . . F- S H. - 120328 105. 120330 106.: Y) : 120334 108.: : 120338 110.: :11 : : 120340 111 .......................................sqq ................... 120342 112 . I .ScD - 120344 113 - - 0, /1 .S . 120346 114 - - - OY < .S 120348 115 . .S . 120350 116 - - . A - .5 . 120352 117 - ,' - . 10 .S 120354 118 . I P - .S . 120356 119 - . 1 0 - • .5 . 120358 120 - - - - .S . 120400 121 .........................4 ..................................... 120402 122 . - - .s - 120404 123 - - . A . - • .S - 120406 124 - - . i' . 0 - • .S . 120408 125 - - . A . 0 .S . 120410 126 • .0 S . 120412 127 A 0 - S . 120414 128 f 0 - S . 120416 129 - I - S - 120418 130 - A' - S . 120420 131 .................A ........................................... 120422 132 - 0 - S - 120424 133 .7 - • S - 120426 134 J' - s . 120428 135 J - - 120430 136 I - .0' S - 120432 137 q S . 120434 138 - 11 - S . 120436 139 I' - ,O S 120438 140 I S . 120440 141 ............................................................... 120442 142. . . . . . . - S 120444143. . . /1 - 0 . . . . S . . . . 120446 144. . - I' . . . . - S 120448 145. . - - . . . - S 120450 146. . . Il - 0 . . . . S 120452 147. . . I . O . . . - S 120454 148. . . .0 . . . - S 120456 149. . . V .0 . . - . S 120458 150. . . 1 0' . . - . S - . (I) INFLOW, (0) OUTFLOW 0 200 400 600. 800 1000. 1200 0 0 0. 0. 0 0. (S) STORAGE 0 0 0 0. 0 0. 0 5 10 15. 20. 0 0. DAHRMN PER 120000 11 ----------------------------------------------------------- S---------. ---------. ---------. 120206 64.1 - . - . S . 120208 65. \I . . $ . 120210 66. °. . S . 120212 67. ft . • S . '1 120214 68. K - . . S 120216 69. K - . . S . . 120218 70. K . . S . - cju 120220 71. . - 120222 72 t . . .s . I)) Cl) 120224 73 "K . . .S . - -. 120226 74 . . S - -. 120228 75 ).... . . - S - 5 .-', 120230 76 . I.. . . S . o -. 120232 77 -..,, . - - S . a . 120234 78 'I.. . . S . a 120236 79 "?-'-.. . . S . 120238 80 . 'i— . S - -'. W. 120240 81.........................................- - 120242 82 o . S S 120244 83 . 1N,. S . a 120246 84 . . S . . 120248 85 . . S . CD . 120250 86 . . . S - a 120252 87 . . S - -. 120254 88 . . S . 0. 0 120256 89 . . S. 0. 120258 90 '4 .0 . S o 120300 91 ......................................SD) ............ 120302 92 - o . . • S Cl) 120306 93 - . - . S .-. 120306 94 '1 - . . . S CD 120308 95 - . i-' . . S CL 120310 96 ,t. 0 . S cn . 120312 97 - 1" . - . . S 0 0 120314 98 A . . S s CO 120316 99 A . .0 '.. - S ' 120318 100 . Y . - S co 120320 101 ......................................................... 120322 102 A . 0 S . . 120324 103 I . S - 120326 104 0 . S - 120328 105 Of. - 5 - 120330 106 0. . S - 120332 107 0 . . . $ . 120334 108 3 0 . . .S W . 120336 109. go . 120338 110 . I . . S - 120340 111 .........................................s . . 120342 112 . . s . 120344 113 I 0 . . S • . 120346 114 - I - . . S . 120348 115 0 - . S . 120350 116 if S 9D. 120352 117 V . . S . 120354 118 I - . . . .S . 120356 119 - .0 . . $ . 120358 120 1/ Q1 . . S. 120400 121 .. ... ...I . - 0' .......................S .......................... 120402 122 I t . . . S . 120404 123 - 11 O . . . S . 120406 124 )' ,Ø - . . . S . 120408 125 1 0 - . . . S . 120410 126 - 11 0 . . . S . 120412 127 - I 0 . . . S 120414 128 1 0 . . • S . 120416 129 1 of . . S 120418 130 . V 0 . . $ . 120420 131 .....1.0...........................S ............................ 120422 132 . . 3 .0 . . S . 120424 133 410 . . S • . 120426 134 . . - S . 120428 135 It D . . S . 120430 136 It D - . - S . 120432 137 I' . . S . 120434 138 10 - . . $ 120436 139 10 . . S . 120438 140 10 . . s . 120440 141.....,II . . . . . . . . . . . . . . . . . . . . . . . . . S ............................. 120442 142 10 . . s . . 120444 143 10 . . S . 120446 144 10 . . S . 120448 145 IO . . S . 120450 146 lb . . S . 120452 147 0 . . - S . 120454 148 . . S . 120456 149 . . - S . 120458 150 . . .S 120958 3001.........-..........- --------- S...............................---------- (I) INFLOW, (0) OUTFLOW 0. 100. 200. 300. 400. 500. 600. 700. 0. 0. 0. 0. 0. (S) STORAGE 0. 0. 0. 0. 0. 0. 0. 5.10. 15. 20. 0. 0. DAHRMN PER 120000 11 ----------------------------------------------------------- s---------. ------------------ 120156 59 1 . .s . 120158 60 1 . .S . 120202 62. 1 120200 61. ........................................... 120204 63.:ss 120230 76. 120234 78. 120236 79. 120238 80. 120242 82. 120206 64 . .S C. 120208 65 . . S 120210 66 - . S120212 67 120214 68:: : : : CL 1 : ............ 120232 77. C) .....................120216 69 s .. iIIII sS SS CL CD CD 12024483 • $ CL 120246 84 • • • 120248 85 .s o 12025086 W 120252 87: ° : : : : : : : : - 5: 120254 88 i-'. S T. 120256 89 S . -+ 120258 90 d S __ 120300 91............................................................. 120302 92. . . . 0 . . . . . S 120304 93. . . . . . . . . S . 0 0 120306 94. . . . . . . . . . $ 120308 95. . . . . . . . • . S . 120310 96. . . . . . . . . . . S . , -o 120312 97. . . . . . . . . . S . 120314 98. . . . 0 . • . . . S120316 99. S 120320 101 .............................: ..... 120322 102 S 120326 103 S 120326 104 - S - 120328 105 S 120330 106 S . 120332 107 S 120334 108 - $ 120336 109 S - 120338 110 S 120340 111 ....................................................s ........... 120342 112 S 120344 113 - S 120346 114 S 120348 115 S 120350 116 S 120352 117 S 120354 118 S 120356 119 $ 120358 120 - - - S 120400 121 ...........................................................s ............ 120402 122 S 120404 123 S 120406 124 S 120408 125 - S 120410 126 $ 120412 127 S 120414 128 S 120416 129 S - 120418 130 - S 120420 131 ................................................................. 120422 132 S 120424 133 S 120426 134 S 120428 135 .S 120430 136 .S 120432 137 .S 120434 138 S 120436 139 S 120438 140 $ 120440 141................................................................. 120442 142. . . . . . . . . S. . 120444 143. . . . . . . . . S . . 120446 144. . . . . . . . . S . . 120448 145. . . . . . . . . S . . 120450 146. . . . . . . . . S . . 120452 147. . . . . . . . . S . . - - - - - - - - - - - - - - - - - - - 0 0 ° : Fig. 7. Simulated inflow and outflow hydrographs and: time variation of floodwater storage : O : for floodwater detention basin D. (Part 1) : : o w .................................................U) U) U) Cl) Cl) U) U) ..................U) (I) U) (flu) U) U) U) U) (flU) U) C; oo (I "; U) <CO • (fl(AU) . of 'A 'A • • • • U)U)U) . . I- U) (n (flU)U) Basin storage U) U) U) • U) U) U) (I) U) U) U) U) U) U) ............................................................................ . I......... 1:; .±r1f1Owhydrbraph ..... 0 • . . I . . —'.,—,------- . 0 — o :0utf10w hydl'ographU. : ........................................................................ oy C; • — 00000000 ............................................................................ aaaaaaOQa ix Z 00('J.*'OCOO CJ.* 'OCOOflJ -.t'O CODIM..t '4CO0(S .t '0 CO0C'U -'OCOO('J ..t 'CU) OCU .t'CWC, C'J4 '0U)O CSJ..t lowOOJ -.t'OCOO CJ.t C COO ('J .4'OCOOC'J ..t'OU)O r'J-"000O(J-S 'CU)OflJ-.t X 0rUC%J OJ I\J ('J Ni NiNi NiNi - - U)IfU(%Ifl0 0000 ..-.-.-.- ('J('J J('.JNi NiNi Ni Ni-I -I.II Cli (Ii Cli 11)0 0000.-- 4.I -* Ii Cli Cli Cli 000 0l)Jl)J (il C%J 010101010101 ('1 01 010101010JNiNi P.1NiNi NiNi NiNiNi NiNiNiNiNi fl Ni Ni Ni NiNiNi Ni'.t -I -I -I -I st-I -1 -I-I It -1-1-I -It -1-1 .II It It t 1 Cli Cli hi Cli Cli 00000000000000000000000000000000000000000000000000000000000000 000000000000000000000000 <c'jr.j 01 01 01 cijnjcgoj csj e.J r.j jojojtsj jrClr.jcij jcsjcijcij oj cinsj J ol ('.1 cii csj cii cii cii cii 01i1 cii (ii 01 CM CM cii Cii Cii ('*1CM JOJOJ 01 CMOJOJ CM JC'*J Cii ('*1 I I - .. . ____ :. .';•:- ..) . . - •. _. . .. 3)• • I -:. -,.; z LIV .. • . . - .-, a - ;,::.. I 4 r - •. -' I - - - .• •- . - -. 1I - -r - --'-'-r"- --'- -. - - - .•- 40, I Fig. rI Costa Ywi,iui; Fig. 10. Cross—Sectional Profile at Downstream Side of Box Culverts I - U . I 20 1 • 10 1 - I 0 I - 1•80 200 220 240 260 260 300 La Costa Avenue . .- :. • •- • -.. •f.• •- — " c JJ - ( • b r -. \ - ' • - 'i ..• .t, • -. . . ci • . . '• •. - -- d lilt - .- . r.. - - .• - •- -. 5. - -' I. - — - - - . 18:5 • -., . - -. • 1- - - rA J.A . • ': .4 0 r / -•-;.. .i\-. , t: t V - • 'I, ..• '- -i:, - - . . - -• - V' :. - : -?- " . •' . • •\ : - f4iL • •i 4.0 • .-: •. ' _ •\ - • 1 -- - : -. 0 .•4 . . - Si 6O \L : : : .:•: \•• : : -d • • . • - •.'P . -; .I-' • - • :: •¼ • ___ -, •. :. i - - - ••: i'- • '•. 00 •.. - • -:--%- \ :. (:/- 4• -:5 • ••• .• :.. • - :it;:t.;:rD,, °A : ;,.' : • •';:. - - - . .- • . :'\ • '' •\ • • L jit 53. Fig. 9. Flood plain map of Encinitas Creek in the \ \ vicinity of La Costa Avenue -- \ •jtta - '• Scale of map: 1 inch = 200 feet JL \- . iLM 41 ;: I T L p J Al i t7 S.. • • S I £4 .Y1..! •'. p I1• S -- • - : Iø nt Sc ': '111fl I ki - l4 rh1P hL -r- • O3 I t.•- • t4 ,.... * I -.- • i..•-.. • * 11*1 rA- -w .. -a.-'... t I _,..Jf. .a4 rma t VA : I I • ?Q\ ; 1 - ' ;'.i b•13I •.• .1 ". -iJi . ' cAz - -. • :: I I. 59 I 10 AW :.. ' RIiIc - t4jtç fl' fip ____ tSf .L ' Jill ILi Fig. 12. Cross-Sectional Profile for Section 1.313 (facing upstream) E1ev. ft. 85 75 65 0 200 400 800 800 Station, feet Fig. 13. Cross-Sectional Profile for Section 1.403 (facing upstream) - Elev.. It, 100 90 80 70 L 0 200 400 800 800 Station. feet I .1 Fig. 14. Cross—Sectional Profile I for Section 1.420 (facing upstream) Elev.. ft.. 100 I I 'OO 80 I I 70 I Station. feet 0 200 400 600 Fig. 15. Cross—Sectional Profile for Section 1.520 (facing upstream) Elev., ft. - I 1 I . 1 95 I 85 I 75 I 0 200 400 800 Station, feet Fig. 16. Cross—Sectional Profile at DàstiSidë fBridje Elev.. ft. 95 85 75 65' 1 1 1 1 I 290 310 330 350 370 390 Station. feet ErCaiiio Rè 11aÜi Fig. 17. Cross—Sectional Profile at Us&èàSjdeToUBrjage Elev., ft. 95 . 65 75 65 L 0 200 400 600 800 1000 Station. feet I I I I I Cizh10/ ,/, .JTTJTII 5aimji L c ___ 014115. /oo /C77J2d/17 4 O3 ..i1fz i-A 95 2.1 O2,5 ö• 22/ c2 15 247 '7i_ C5 /c3 - c35 //d /7.3 /0 OJO 75 /4/ ci7 ///0 a .. /3 a4 6.74 262, c?B c35 c ?3 r74 O,/c ) .1.. ctZd 4J 1 i I - c f.' 7t Qi1///cw O? 84A-7 D LI - - e/C 97' LIZ at~C4:~- - d-11 L~-y -w 0/)// ce-4,~~ / 7- Q3.4 C(LcH 41) 411~ j cj5 2 27 2)4 4 27.Z d /223 z4 7(~l 1Oi?; z/2., /M 7'7'? Mic 6i/// 7LorL 76tJu 57 v 2 v 2 ee. Wiir Vic , I 'V W114 501%111'OC/.. e3 /25 /1 I APPENDIX B. INPUT/OUTPUT LISTINGS OF HEC-1 RUNS I ***************************************** * * * FLOOD HYDROGRAPH PACKAGE (HEC-1) * * FEBRUARY 1981 * * REVISED 02 AUG 88 * * * * RUN DATE 09/03/1990 TIME 20:57:53 * * * 1 ~ I *************************************** * * * U.S. ARMY CORPS OF ENGINEERS * * THE HYDROLOGIC ENGINEERING CENTER * * 609 SECOND STREET * * DAVIS, CALIFORNIA 95616 * * (916) 551-1748 * * * x x xxxxxxx xxxxx x x X X X XX x x x x XxxXxXx XxXX x xxxxx x x x x x x x x x x x x xxxxxxx xxxxx xxx THIS PROGRAM REPLACES ALL PREVIOUS VERSIONS OF HEC-1 KNOWN AS HEC1 (JAN 73), HEC1GS, HEC1DB, AND HEC1KW. THE DEFINITIONS OF VARIABLES -RTIMP- AND -RTIOR- HAVE CHANGED FROM THOSE USED WITH THE 1973-STYLE INPUT STRUCTURE. THE DEFINITION OF -AMSKK- ON RM-CARD WAS CHANGED WITH REVISIONS DATED 28 SEP 81. THIS IS THE FORTRAN77 VERSION NEW OPTIONS: DAMBREAK OUTFLOW SUBMERGENCE , SINGLE EVENT DAMAGE CALCULATION, DSS:WRITE STAGE FREQUENCY, DSS:READ TIME SERIES AT DESIRED CALCULATION INTERVAL LOSS RATE:GREEN AND AMPT INFILTRATION KINEMATIC WAVE: NEW FINITE DIFFERENCE ALGORITHM HEC-1 INPUT PAGE LINE ID .......1 .......2.......3.......4.......5 .......6.......7.......8.......9......10 2 1 I ID DRAINAGE STUDY FOR ENCINITAS CREEK, CARLSBAD FOR ULTIMATE CONDITIONS OF WATERSHED DEVELOPMENT 3 ID WITHOUT FLOODWATER DETENTION BASINS 4 ID 6-HOUR STORM, 100-YEAR EVENT 5 ID ZONES 11, 12, ETC IT 2 12DEC89 300 6 7 10 5 8 KK SUB 6C 10 9 K BA RUNOFF FROM ENCINITAS CREEK SUBBASIN 6C 0.65 ii IN 15 12 PB 2.90 13 P1 0 .0175 0175 .0225 .0225 .0275 .0275 .0475 .0475 0.185 14 P1 .185 .05 .05 .04 .04 .0275 .0275 .0225 .0225 .02 15 P1 .02 .02 .02 .02 .02 16 LS 88 17 LID 0.216 KK 6C-68 CHANNEL ROUTING 18 19 RK 3500 0.030 0.030 0 TRAP 25 2 20 KK SUB 6B 21 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 6B II 7-1 ~ I I 22 BA 0.37 23 LS 90 24 LID 0.137 25 KK PT.6B 26 KM COMBINE FLOWS OF 6C AND 68 27 HC 2 28 KK 6B-6A CHANNEL ROUTING 29 RK 2300 0.011 0.040 0 TRAP 30 KK SUB 6A 31 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 6A 32 BA 0.20 33 PB 2.8 34 LS 89 35 LID 0.078 36 KK PT.6A CONCENTRATION POINT 6A 37 MC 2 38 KK 6A-6 CHANNEL ROUTING 39 RK 2120 0.011 0.040 0 TRAP 40 KK SUB 41 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 6 42 BA 0.25 43 PB 2.80 44 LS 89 45 LID 0.101 40 2 40 2 HEC-1 INPUT PAGE 2 LINE ID.......1 .......2.......3.......4.......5 .......6.......7.......8.......9......10 46 KK PT.6 47 HC 2 48 KK SUB 5A 49 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 5A 50 BA 0.64 51 PB 2.90 52 LS 89 53 LID 0.274 54 KK 5A-5 CHANNEL ROUTING 55 RK 4000 0.006 0.035 0 TRAP 20 2 56 KK SUB 57 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 5 58 BA 0.68 59 PB 2.80 60 LS 89 61 LID 0.212 62 KK PT. 5 63 HC 2 64 KK PT. 7 65 MC 2 66 KK 7-8 CHANNEL ROUTING 67 RK 5880 0.004 0.040 0 TRAP 50 3 68 KK SUB 69 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 8 70 BA 0.62 71 PB 2.80 72 LS 85 NO 74 75 76 .77 78 79 80 81 82 83 84 85 86 87 LINE UD 0.347 KK P1.8 HC 2 KK SUB KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 1 BA 0.88 PB 2.80 IS 89 UD 0.117 KK SUB KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 2 BA 0.58 PB 2.80 LS 87 UD 0.107 HEC-1 INPUT PAGE 3 ID.......1 .......2.......3........4.......5.......6.......7.......8.......9......10 88 KK PT. 3 89 HC 2 90 KK 3-3A CHANNEL ROUTING 91 RK 2000 0.015 0.020 0 TRAP 10 2 92 KK 3A-4 CHANNEL ROUTING 93 RK 3920 0.013 0.040 0 TRAP 50 3 94 KK SUB 95 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 4 96 BA 0.74 97 PB 2.70 98 LS 87 99 UD 0.148 100 KK PT. 4 101 HC 2 102 KK PT. 9 103 HC 2 104 KK 9-10 CHANNEL ROUTING 105 RK 2920 0.007 0.040 0 TRAP 60 3 106 KK SUB 10 107 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 10 108 BA 0.42 109 P8 2.70 110 IS 82 111 UD 0.189 112 KK P1.10 113 MC 2 114 KK SUB 11 115 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 11 116 BA 0.65 117 PB 2.80 118 IS 88 119 UD 0.102 120 KK PT.12 121 HC 2 122 KK 12-13 CHANNEL ROUTING 3 123 RK 4040 0.011 0.045 0 TRAP 60 3 124 KK SUB 13 125 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 13 126 BA 0.66 127 PB 2.70 128 LS 82 129 UD 0.262 HEC-1 INPUT PAGE 4 LINE ID.......1 .......2.......3.......4.......5 .......6.......7.......8.......9......10 130 KK PT. 13 131 HC 2 132 ZZ * * * * FLOOD HYDROGRAPH PACKAGE (HEC-1) * * * FEBRUARY 1981 * * * REVISED 02 AUG 88 * * * * * * RUN DATE 12/10/1989 TIME 19:57:23 * * * * * ** ** * * **** ******* *** * * **** **** *** ** **** * * *************************************** * * U.S. ARMY CORPS OF ENGINEERS * THE HYDROLOGIC ENGINEERING CENTER * 609 SECOND STREET * DAVIS, CALIFORNIA 95616 * (916) 551-1748 * *************************************** DRAINAGE STUDY FOR ENCINITAS CREEK, CARLSBAD FOR ULTIMATE CONDITIONS OF WATERSHED DEVELOPMENT WITHOUT FLOODWATER DETENTION BASINS 6-HOUR STORM, 100-YEAR EVENT ZONES 11, 12, ETC 7 10 OUTPUT CONTROL VARIABLES IPRNT 5 PRINT CONTROL [PLOT 0 PLOT CONTROL QSCAL 0. HYDROGRAPH PLOT SCALE IT HYDROGRAPH TIME DATA NMIN 2 MINUTES IN COMPUTATION INTERVAL IDATE 12DEC89 STARTING DATE JuNE 0000 STARTING TIME NO 300 NUMBER OF HYDROGRAPH ORDINATES NDDATE 12DEC89 ENDING DATE NDTIME 0958 ENDING TIME ICENT 19 CENTURY MARK - COMPUTATION INTERVAL .03 HOURS TOTAL TIME BASE 9.97 HOURS ENGLISH UNITS DRAINAGE AREA SQUARE MILES PRECIPITATION DEPTH INCHES LENGTH, ELEVATION FEET FLOW CUBIC FEET PER SECOND STORAGE VOLUME ACRE-FEET SURFACE AREA ACRES TEMPERATURE DEGREES FAHRENHEIT 4 FLOGRD - MAXIMUM NUMBER OF DX INTERVALS REACHED. MDX= 51 THIS MAY AFFECT ACCURACY OF KW SOLUTION. TO REDUCE ERRORS SHORTEN CHANNEL ELEMENT = 3 RUNOFF SUMMARY FLOW IN CUBIC FEET PER SECOND TIME IN HOURS, AREA IN SQUARE MILES PEAK TIME OF AVERAGE FLOW FOR MAXIMUM PERIOD BASIN MAXIMUM TIME OF OPERATION STATION FLOW PEAK AREA STAGE MAX STAGE + 6-HOUR 24-HOUR 72-HOUR HYDROGRAPH AT + SUB 6C 561. 2.83 121. 73. 73. .65 ROUTED TO + 6C-6B 559. 2.90 121. 73. 73. .65 HYDROGRAPH AT + SUB 6B 381. 2.77 75. 45. 45. .37 2 COMBINED AT + PT.6B 900. 2.83 196. 118. 118, 1.02 ROUTED TO + 6B-6A 899. 2.87 196. 118. 118. 1.02 HYDROGRAPH AT + SUB 6A 197. 2.73 37. 22. 22. .20 2 COMBINED AT + PT.6A 1025. 2.83 233. 140. 140. 1.22 ROUTED TO + 6A-6 1024. 2.87 233. 140. 140. 1.22 HYDROGRAPH AT + SUB 6 242. 2.77 46. 28. 28. .25 2 COMBINED AT + PT. 6 1215. 2;83 279. 168. 168. 1.47 HYDROGRAPH AT + SUB 5A 540. 2.87 125. 75. 75. .64 ROUTED TO + 5A-5 539. 3.00 124. 75. 75. .64 HYDROGRAPH AT + SUB 5 588. 2.83 126. 76. 76. .68 2 COMBINED AT + PT. 5 1051. 2.90 250. 151. 151. 1.32 2 COMBINED AT + PT. 7 2241. 2.87 528. 319. 319. 2.79 ROUTED TO + 7-8 2240. 3.00 527. 318. 318. 2.79 HYDROGRAPH AT + SUB 8 361. 2.97 95. 57. 57. .62 2 COMBINED AT + PT. 8 2597. 3.00 621. 375. 375. 3.41 HYDROGRAPH AT + SUB 1 842. 2.77 163. 98. 98. .88 5 HYDROGRAPH AT + SUB 2 511. 2.77 98. 59. 59. .58 2 COMBINED AT + PT. 3 1353. 2.77 260. 157. 157. 1.46 ROUTED TO + 3-3A 1343. 2.77 260. 157. 157. 1.46 ROUTED TO + 3A-4 1340. 2.87 260. 157. 157. 1.46 HYDROGRAPH AT + SUB 4 589. 2.80 118. 71. 71. .74 2 COMBINED AT + PT. 4 1891. 2.83 378. 228. 228. 2.20 2 COMBINED AT + PT. 9 4047. 2.93 997. 603. 603. 5.61 ROUTED TO + 9-10 4026. 3.00 997. 602. 602. 5.61 HYDROGRAPH AT + SUB 10 238. 2.83 52. 31. 31. .42 2 COMBINED AT + P1.10 4207. 2.97 1048. 634. 634. 6.03 HYDROGRAPH AT + SUB 11 602. 2.77 115. 69. 69. .65 2 COMBINED AT + PT.12 4450. 2.97 1160. 703. 703. 6.68 ROUTED TO + 12-13 4446. 3.03 1160. 702. 702. 6.68 HYDROGRAPH AT + SUB 13 335. 2.90 81. 49. 49. .66 2 COMBINED AT + PT.13 4725. 3.03 1240. 751. 751. 7.34 NORMAL END OF HEC-1 6 1***************************************** * * * * FLOOD I4YDR0GRAPH PACKAGE (HEC-1) * * * FEBRUARY 1981 * * * REVISED 02 AUG 88 * * * * * * RUN DATE 12/17/1989 TIME 05:10:46 * * * * * * ****** ******************* * * * * U.S. ARMY CORPS OF ENGINEERS * THE HYDROLOGIC ENGINEERING CENTER * 609 SECOND STREET * DAVIS, CALIFORNIA 95616 * (916) 551-1748 * *************************************** x x xxxxxxx xxxxx x x x x x x xx x x x x xxxxxxx xxxx x xxxxx x x x x x x x x x x x x xxxxxxx xxxxx xxx THIS PROGRAM REPLACES ALL PREVIOUS VERSIONS OF HEC-1 KNOWN AS HEC1 (JAN 73), HEC1GS, HEC1DB, AND HEC1KW. THE DEFINITIONS OF VARIABLES -RTIMP- AND -RTIOR- HAVE CHANGED FROM THOSE USED WITH THE 1973-STYLE INPUT STRUCTURE. THE DEFINITION OF -AMSKK- ON RM-CARD WAS CHANGED WITH REVISIONS DATED 28 SEP 81. THIS IS THE FORTRAN77 VERSION NEW OPTIONS: DAMBREAK OUTFLOW SUBMERGENCE , SINGLE EVENT DAMAGE CALCULATION, DSS:WRITE STAGE FREQUENCY, DSS:READ TIME SERIES AT DESIRED CALCULATION INTERVAL LOSS RATE:GREEN AND AMPT INFILTRATION KINEMATIC WAVE: NEW FINITE DIFFERENCE ALGORITHM LINE ID I iHEC-1 INPUT PAGE .......1 .......2.......3.......4.......5 .......6.......7.......8.......9......10 I 1 2 ID ID DRAINAGE STUDY FOR ENCINITAS CREEK, CARLSBAD FOR ULTIMATE CONDITIONS OF WATERSHED DEVELOPMENT 3 ID WITH FLOODWATER DETENTION BASINS A, B, AND C 4 ID 6-HOUR STORM, 100-YEAR EVENT 5 ID ZONES 11, 12, ETC 6 IT 2 12DEC89 300 I 7 10 5 8 KK SUB 6C I 9 10 KM BA RUNOFF FROM ENCINITAS CREEK SUBBASIN 0.65 6C 11 IN 15 12 PB 2.90 I 13 14 P1 P1 0 .0175 .0175 .0225 .0225 .185 .05 .05 .04 .04 .0275 .0275 .0475 .0475 0.185 .0275 .0275 .0225 .0225 .02 15 P1 .02 .02 .02 .02 .02 16 IS 88 17 liD 0.216 I 18 KK 6C-6B CHANNEL ROUTING 19 RK 3500 0.030 0.030 0 TRAP 25 2 20 KK SUB 6B I 21 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 68 1 1 22 BA 0.37 23 LS 90 24 UD 0.137 25 KK PT.6B 26 KM COMBINE FLOWS OF 6C AND 68 27 HC 2 28 KK 68-6A CHANNEL ROUTING 29 RK 2300 0.011 0.040 0 TRAP 40 2 30 KK SUB 6A 31 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 6A 32 BA 0.20 33 PB 2.8 34 LS 89 35 UD 0.078 36 KK PT.6A CONCENTRATION POINT 6A 37 HC 2 38 KK PT.6A FLOODWATER DETENTION BASIN A UPSTREAM OF CALLE BARCELONA 39 KO 2 40 RS 1 STOR -1 41 SV 0 0.04 0.70 2.25 4.83 8.81 14.56 22.20 42 SQ 0 60 180 305 450 535 620 700 43 SE 123 124 126 128 130 132 134 136 HEC-1 INPUT LINE ID .......1 .......2.......3.......4.......5 .......6.......7.......8.......9......10 44 KK 6A-6 CHANNEL ROUTING 45 RK 2120 0.011 0.040 0 TRAP 40 2 46 KK SUB 47 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 6 48 BA 0.25 49 PB 2.80 50 LS 89 51 UD 0.101 52 KK P1.6 53 HC 2 54 KK PT. 6 FLOODWATER DETENTION BASIN B AT OLIVENHAIN AND RANCHO SANTA FE RD. 55 KO 2 56 RS 1 STOR -1 57 SV 0 0.92 3.96 10.16 20.09 33.22 49.95 58 SQ 0 17 48 62 72 303 767 59 SE 108 110 112 114 116 118 120 60 KK SUB 5A 61 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 5A 62 BA 0.64 63 PB 2.90 64 LS 89 65 UD 0.274 66 KK 5A-5 CHANNEL ROUTING 67 RK 4000 0.006 0.035 0 TRAP 20 2 68 KK SUBS 69 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 5 70 BA 0.68 71 PB 2.80. 72 LS 89 73 UD 0.212 74 KK PT. 5 PAGE 2 75 76 77 78 79 80 81 82 83 84 85 NC 2 KK PT. 7 NC 2 KK 7-8 CHANNEL ROUTING RK 5880 0.004 0.040 0 TRAP 50 3 KK SUB KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 8 BA 0.62 PB 2.80 LS 85 UD 0.347 i NEC-i INPUT PAGE 3 ID.......1 .......2.......3.......4.......5.......6.......7.......8.......9......10 LINE 86 KK PT. 8 87 HC 2 88 KK SUB 89 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 1 90 BA 0.88 91 PB 2.80 92 LS 89 93 UD 0.117 94 KK SUB 95 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 2 96 BA 0.58 97 PB 2.80 98 IS 87 99 UD 0.107 100 KK PT. 3 101 NC 2 102 KK 3-3A CHANNEL ROUTING 103 RK 2000 0.015 0.020 0 TRAP 10 2 104 KK 3A-4 CHANNEL ROUTING 105 RK 3920 0.013 0.040 0 TRAP 50 3 106 KK SUB 107 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 4 108 BA 0.74 109 PB 2.70 110 LS 87 111 UD 0.148 112 KK PT. 4 113 HC 2 114 KK PT. 9 115 NC 2 116 KK 9-10 CHANNEL ROUTING 117 RK 2920 0.007 0.040 0 TRAP 60 3 118 KK SUB 10 119 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 10 120 BA 0.42 121 PB 2.70 122 IS 82 123 UD 0.189 1 NEC-i INPUT PAGE 4 LINE ID.......1 .......2.......3.......4.......5.......6.......7.......8.......9......10 3 124 KK P1.10 125 HC 2 126 KK SUB 11 127 KM RUNOFF FROM ENCINITAS CREEK SUBBASIW 11 128 KO 3 2 129 PB 2.80 130 BA 0.65 131 LS 88 132 UD 0.102 133 KK P1.11 134 KM STORAGE ROUTING IN FLOODWATER DETENTION BASIN C 135 KO 3 2 136 RS 1 ELEV 66.1 137 SV 0 0.4 1.5 2.6 3.7 4.9 138 SV 22 27.7 34.4 42.3 139 SE 66 67 68 69 70 71 140 SE 77 78 79 80 141 SQ 0 7 17.5 37.5 70 101 142 SQ 177 186 196 209 143 KK PT.12 144 HC 2 145 KK 12-13 CHANNEL ROUTING 146 RK 4040 0.011 0.045 0 TRAP 60 3 147 KK SUB 13 148 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 13 149 BA 0.66 150 PB 2.70 151 LS 82 152 UD 0.262 153 KK PT.13 154 HC 2 155 ZZ * * * * FLOOD HYDROGRAPH PACKAGE (HEC-1) * * * FEBRUARY 1981 * * * REVISED 02 AUG 88 * * * * * * RUN DATE 12/17/1989 TIME 05:10:46 * * * * * ***************************************** DRAINAGE STUDY FOR ENCINITAS CREEK, CARLSBAD FOR ULTIMATE CONDITIONS OF WATERSHED DEVELOPMENT WITH FLOODWATER DETENTION BASINS A, B, AND C 6-HOUR STORM, 100-YEAR EVENT ZONES 11, 12, ETC 7 10 OUTPUT CONTROL VARIABLES 4 * * U.S. ARMY CORPS OF ENGINEERS * THE HYDROLOGIC ENGINEERING CENTER * 609 SECOND STREET * DAVIS, CALIFORNIA 95616 * (916) 551-1748 * *************************************** 6.1 7.6 9.9 13 72 73 74 75 118 132 143 155 HYDROGRAPH AT STATION SUB 11 TOTAL RAINFALL = 2.80, TOTAL LOSS = 1.16, TOTAL EXCESS = 1.64 PEAK FLOW TIME MAXIMUM AVERAGE FLOW 6-HR 24-HR 72-HR 9.97-HR + (CFS) (HR) (CFS) + 602. 2.77 115. 69. 69. 69. (INCHES) 1.642 1.642 1.642 1.642 (AC-Fl) 57 57. 57. 57. CUMULATIVE AREA = .65 SO MI * * * * 133 KK * P1.11 * * * ** ***** * * **** * 135 KO OUTPUT CONTROL VARIABLES IPRNT 3 PRINT CONTROL IPLOT 2 PLOT CONTROL OSCAL 0. HYDROGRAPH PLOT SCALE HYDROGRAPH ROUTING DATA 136 RS STORAGE ROUTING NSTPS 1 NUMBER OF SUBREACHES ITYP ELEV TYPE OF INITIAL CONDITION RSVRIC 66.10 INITIAL CONDITION X .00 WORKING R AND D COEFFICIENT 137 SV STORAGE .0 .4 1.5 2.6 37 4.9 6.1 7.6 9.9 13.0 22.0 27.7 34.4 42.3 139 SE ELEVATION 66.00 67.00 68.00 69.00 70.00 71.00 72.00 73.00 74.00 75.00 77.00 78.00 79.00 80.00 V 141 SO DISCHARGE 0. 7. 18. 38. 70. 101. 118. 132. 143. 155. 177. 186. 196. 209. *** *** *** *** HYDROGRAPH AT STATION P1.11 V PEAK FLOW TIME MAXIMUM AVERAGE FLOW V V 6-HR 24-HR 72-HR 9.97-HR + (CFS) (HR) V (CFS) + 170. 3.37 113. 69. 69. 69. (INCHES) 1.014 1.641 1.641 1.641 (AC-Fl) 56. 57. 57 ST. PEAK STORAGE TIME MAXIMUM AVERAGE STORAGE 6-HR 24-HR 72-HR 9.97-HR + (AC-FT) (HR) 19. 3.37 10. 6. 6. 6. PEAK STAGE TIME MAXIMUM AVERAGE STAGE 6 I 6-HR 24-HR 72-HR 9.97-HR + (FEET) (HR) 76.38 3.37 72.74 70.22 70.22 70.22 CUMULATIVE AREA .65 SO MI RUNOFF SUMMARY I FLOW IN CUBIC FEET PER SECOND TIME IN HOURS, AREA IN SQUARE MILES PEAK TIME OF AVERAGE FLOW FOR MAXIMUM PERIOD BASIN MAXIMUM TIME OF OPERATION STATION FLOW PEAK AREA STAGE MAX STAGE I . + 6-HOUR 24-HOUR 72-HOUR HYDROGRAPH AT I + SUB 6C 561. 2.83 121. 73 73 .65 ROUTED TO + 6C-6B 559. 2.90 121. 73. 73. .65 I HYDROGRAPH AT + SUB 6B 381. 2.77 75 45. 45. .37 2 COMBINED AT I + PT.6B 900. 2.83 196. 118. 118. 1.02 ROUTED TO + 6B-6A 899. 2.87 196. 118. 118. 1.02 I HYDROGRAPH AT + SUB 6A 197. 2.73 37. 22. 22. .20 I + 2 COMBINED AT PT.6A 1025. 2.83 233. 140. 140. 1.22 ROUTED TO + PT.6A 642. 3.10 233. 140. 140. 1.22 I + . 13455 310 ROUTED TO + 6A-6 642. 3.17 233. 140. 140. 1.22 I HYDROGRAPH AT + SUB 6 242. 2.77 46. 28. 28. .25 I + 2 COMBINED AT PT. 6 734. 2.80 279. 168. 168. 1.47 ROUTED TO + PT. 6 558. 3.83 247. 159. 159. 1.47 I + . 11910 3.83 HYDROGRAPH AT + SUB 5A 540. 2.87 125. . 75. 75. .64 I ROUTED TO + 5A-5 539. 3.00 124. 75. 75. .64 I + HYDROGRAPH AT SUB 5 588. 2.83 126. 76. 76. .48 2 COMBINED AT + PT. 5 1051. 2.90 250. 151. 151. .1.32 I 2 COMBINED AT + PT. 7 1163. 2.93 492. 310. 310. 2.79 ROUTED TO I + 7-8 1160. 3.13 492. 304. 304. 2.79 HYDROGRAPH AT SUB 8 361. 2.97 95. 57. 57. .62 2 COMBINED AT PT. 8 1465. 3.13 581. 361. 361. 3.41 HYDROGRAPH AT SUB 1 842. 2.77 163. 98. 98. .88 HYDROGRAPH AT SUB 2 511. 2.77 98. 59. 59. .58 2 COMBINED AT PT. 3 1353. 2.77 260. 157. 157. 1.46 ROUTED TO 3-3A 1342. 2.77 260. 157. 157. 1.46 ROUTED TO 3A-4 1340. 2.87 260. 157. 157. 1.46 HYDROGRAPH AT SUB 4 589. 2.80 118. 71. 71. .74 2 COMBINED AT PT. 4 1890. 2.83 378. 228. 228. 2.20 2 COMBINED AT PT. 9 2832. 2.90 955. 589. 589. 5.61 ROUTED TO 9-10 2831. 2.97 955. 586. 586. 5.61 HYDROGRAPH AT SUB 10 238. 2.83 52. 31. 31. .42 2 COMBINED AT PT.1O 3013. 2.97 1006. 617. 617. 6.03 HYDROGRAPH AT SUB 11 602. 2.77 115. 69. 69. .65 ROUTED TO P1.11 170. 3.37 113. 69. 69. .65 2 COMBINED AT P1.12 3181. 2.97 1119. 686. 686. 6.68 ROUTED TO 12-13 3170. 3.03 1118. 683. 683. 6.68 HYDROGRAPH AT SUB 13 335. 2.90 81. 49. 49. .66 2 COMBINED AT PT.13 3450. 3.03 1195. 732. 732. 7.34 NORMAL END OF NEC-1 8 76.38 3.37 * * * * * FLOOD HYDROGRAPH PACKAGE (HEC-1) * - * U.S. ARMY CORPS OF ENGINEERS * * FEBRUARY 1981 * * THE HYDROLOGIC ENGINEERING CENTER * * REVISED 02 AUG 88 * * 609 SECOND STREET * * * * DAVIS, CALIFORNIA 95616 * * RUN DATE 05/07/1991 TIME 16:11:14 * * (916) 551-1748 * * * * * x x xxxxxxx xxxxx x x x x x x xx x x x x xxxxxxx xxxx x xxxxx x x x x x x x x x x x x xxxxxxx xxxxx xxx THIS PROGRAM REPLACES ALL PREVIOUS VERSIONS OF HEC-1 KNOWN AS NEC (JAN 73), HEMS, HEC1DB, AND HEC1KW. THE DEFINITIONS OF VARIABLES -RTIMP- AND -RTIOR- HAVE CHANGED FROM THOSE USED WITH THE 1973-STYLE INPUT STRUCTURE. THE DEFINITION OF -AMSKK- ON RH-CARD WAS CHANGED WITH REVISIONS DATED 28 SEP 81. THIS IS THE FORTRAN77 VERSION NEW OPTIONS: DAMBREAK OUTFLOW SUBMERGENCE , SINGLE EVENT DAMAGE CALCULATION, DSS:WRITE STAGE FREQUENCY, DSS:READ TIME SERIES AT DESIRED CALCULATION INTERVAL LOSS RATE:GREEN AND AMPT INFILTRATION KINEMATIC WAVE: NEW FINITE DIFFERENCE ALGORITHM HEC-1 INPUT PAGE LINE ID .......1 .......2.......3.......4.......5 .......6.......7.......8.......9......10 1 ID DRAINAGE STUDY FOR ENCINITAS CREEK, CARLSBAD 2 ID FOR ULTIMATE CONDITIONS OF WATERSHED DEVELOPMENT 3 ID WITH FLOODWATER DETENTION BASINS A, B, C AND D 4 ID 6-HOUR STORM, 100-YEAR EVENT 5 ID ZONES 11, 12, ETC 6 IT 2 12DEC89 300 7 10 5 8 KK SUB 6C 9 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 6C 10 BA 0.65 11 IN 15 12 PB 2.90 13 P1 0 .0175 .0175 .0225 .0225 .0275 .0275 .0475 .0475 0.185 14 P1 .185 .05 .05 .04 .04 .0275 .0275 .0225 .0225 .02 15 P1 .02 .02 02 .02 .02 16 LS 88 17 UD 0.216 18 KK 6C-68 CHANNEL ROUTING 19 RK 3500 0.030 0.030 0 TRAP 25 2 20 KK SUB 6B 21 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 68 22 BA 0.37 23 LS 90 24 UD 0.137 25 KK PT.6B 26 KM COMBINE FLOWS OF 6C AND 6B 27 NC 2 28 KK 6B-6A CHANNEL ROUTING 29 RK 2300 0.011 0.040 0 TRAP 40 2 30 KK SUB 6A I I Li 31 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 6A 32 BA 0.20 33 PB 2.8 34 LS 89 35 UD 0.078 36 KK PT.6A CONCENTRATION POINT 6A 37 HC 2 38 KK PT.6A FLOODWATER DETENTION BASIN A UPSTREAM OF CALLE BARCELONA 39 KO 2 40 RS 1 STOR -1 41 SV 0 0.04 0.70 2.25 4.83 8.81 14.56 22.20 42 SQ 0 60 180 305 450 535 620 700 43 SE 123 124 126 128 130 132 134 136 HEC-1 INPUT LINE ID.......1 .......2.......3.......4.......5.......6.......7.......8.......9......10 44 KK 6A-6 CHANNEL ROUTING 45 RK 2120 0.011 0.040 0 TRAP 40 2 46 KK SUB 47 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 6 48 BA 0.25 49 PB 2.80 50 LS 89 51 UD 0.101 52 KK PT. 6 53 HC 2 54 KK PT. 6 FLOODWATER DETENTION BASIN B AT OLIVENHAIN AND RANCHO SANTA FE RD. 55 KO 2 56 RS 1 STOR -1 57 SV 0 0.92 3.96 10.16 20.09 33.22 49.95 58 SQ 0 17 48 62 72 303 767 59 SE 108 110 112 114 116 118 120 60 KK SUB 5A 61 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 5A 62 BA 0.64 63 PB 2.90 64 LS 89 65 UD 0.274 66 KK 5A-5 CHANNEL ROUTING 67 RK 4000 0.006 0.035 0 TRAP 20 2 68 KK SUB 69 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 5 70 BA 0.68 71 PB 2.80 72 LS 89 73 UD 0.212 74 KK PT. 5 75 HC 2 76 KK PT. 7 77 HC 2 78 KK 7-8A CHANNEL ROUTING 79 RK 1500 0.002 0.040 0 TRAP 320 2 80 KK SUB 8A 81 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN BA 82 BA 0.09 83 PB 2.80 84 LS 85 85 UD 0.105 NEC-i INPUT PAGE 2 PAGE 3 FA LINE ID .1.2.3.4.5.6.7.8.9.10 86 KK PT.8A 87 HC 2 88 KK PT.8A FLOODWATER DETENTION BASIN D 89 KO 0 2 90 RS 1 STOR -1 91 SV 0 3.8 15.2 38.4 61.04 83.64 106.25 92 SQ 0 22 42 51 289 731 1289 93 SE 100 102 104 106 108 110 112 94 KK 8A-8 CHANNEL ROUTING 95 RK 4380 0.004 0.040 0 TRAP 50 3 96 KK SUB 8B 97 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 8B 98 BA 0.53 99 PB 2.80 100 LS 85 101 UD 0.248 102 KK PT. 8 103 HC 2 104 KK SUB 105 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 1 106 BA 0.88 107 PB 2.80 108 LS 89 109 UD 0.117 110 KK SUB 111 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 2 112 BA 0.58 113 PB 2.80 114 LS 87 115 UD 0.107 116 KK PT. 3 117 HC 2 118 KK 3-3A CHANNEL ROUTING 119 RK 2000 0.015 0.020 0 TRAP 10 2 120 KK 3A-4 CHANNEL ROUTING 121 RK 3920 0.013 0.040 0 TRAP 50 3 122 KK SUB 4 123 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 4 124 BA 0.74 125 PB 2.70 126 LS 87 127 UD 0.148 HEC-1 INPUT LINE ID.......1 .......2.......3.......4.......5.......6.......7.......8.......9......10 128 KK PT. 4 129 HC 2 130 KK PT. 9 131 HC 2 132 KK 9-10 CHANNEL ROUTING 133 RK 2920 0.007 0.040 0 TRAP 60 3 134 KK SUB 10 135 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 10 136 BA 0.42 137 PB 2.70 138 LS 82 3 PAGE 6 I 139 UD 0.189 140 KK P1.10 ' 141 HC 2 142 KK SUB 11 143 KM RUNOFF FROM ENCINITAS CREEK SUBBASIN 11 I 144 145 KO PB 3 2 2.80 146 BA 0.65 147 LS 88 148 UD 0.102 1 149 KK P1.11 150 KM STORAGE ROUTING IN FLOODWATER DETENTION BASIN C 151 KO 3 2 ' 152 153 RS SV 1 ELEV 66.1 0 0.4 1.5 2.6 3.7 4.9 6.1 7.6 9.9 13 154 Sv 22 27.7 34.4 42.3 155 SE 66 67 68 69 70 71 72 73 74 75 156 SE 77 78 79 80 157 SO 0 7 17.5 37.5 70 101 118 132 143 155 I 158 SQ 177 186 196 209 159 KK P1.12 160 HC 2 I 161 KK 12-13 CHANNEL ROUTING 162 RK 4040 0.011 0.045 0 TRAP 60 3 I 163 164 KK KM SUB 13 RUNOFF FROM ENCINITAS CREEK SUBBASIN 13 165 BA 0.66 166 PB 2.70 167. LS 82 UD 0.262 I 168 1 HEC-1 INPUT PAGE 5 LINE ID .......1 .......2 .......3.......4 .......5 .......6.......7.......8.......9......10 169 KK P1.13 170 NC 2 171 ZZ I * * * FLOOD HYDROGRAPH PACKAGE (HEC-1) * * FEBRUARY 1981 * * REVISED 02 AUG 88 * I* * * RUN DATE 05/07/1991 TIME 16:11:14 * * * **** * * *** * **** *** **** * DRAINAGE STUDY FOR ENCINITAS CREEK, CARLSBAD I FOR ULTIMATE CONDITIONS OF WATERSHED DEVELOPMENT WITH FLOODWATER DETENTION BASINS A, B, C AND D 6-HOUR STORM, 100-YEAR EVENT 7 10 I OUTPUT CONTROL ZONES 11, 12, ETC VARIABLES IPRNT 5 PRINT CONTROL IPLOT 0 PLOT CONTROL QSCAL 0. HYDROGRAPH PLOT SCALE IT HYDROGRAPH TIME DATA NMIN 2 MINUTES IN COMPUTATION INTERVAL IDATE 12DEC89 STARTING DATE I ITIME 0000 STARTING TIME NO 300 NUMBER OF HYDROGRAPH ORDINATES I * ***** * * ********* * ******* **** ****** *** * * * * U.S. ARMY CORPS OF ENGINEERS * * THE HYDROLOGIC ENGINEERING CENTER * * 609 SECOND STREET * * DAVIS, CALIFORNIA 95616 * * (916) 551-1748 * * * - NDDATE 12DEC89 ENDING DATE NDTIME 0958 ENDING TIME ICENT 19 CENTURY MARK 1 COMPUTATION INTERVAL .03 HOURS TOTAL TIME BASE 9.97 HOURS I ENGLISH UNITS DRAINAGE AREA SQUARE MILES PRECIPITATION DEPTH INCHES LENGTH, ELEVATION FEET FLOW CUBIC FEET PER SECOND I STORAGE VOLUME ACRE-FEET SURFACE AREA ACRES TEMPERATURE DEGREES FAHRENHEIT i *** *** *** *** *** *** I I I I I I I I I I I I I 1 5 RUNOFF SUMMARY FLOW IN CUBIC FEET PER SECOND TIME IN HOURS, AREA IN SQUARE MILES PEAK TIME OF AVERAGE FLOW FOR MAXIMUM PERIOD BASIN MAXIMUM TIME OF OPERATION STATION FLOW PEAK AREA STAGE MAX STAGE 6-HOUR 24-HOUR 72-HOUR HYDROGRAPH AT - SUB 6C 561. 2.83 121. 73. 73. .65 ROUTED TO 6C-68 559. 2.90 121. 73. 73. .65 HYDROGRAPH AT SUB 68 381. 2.77 75. 45. 45. .37 2 COMBINED AT P1.66 900. 2.83 196. 118. 118. 1.02 ROUTED TO 6B-6A 899. 2.87 196. 118. 118. 1.02 HYDROGRAPH AT SUB 6A 197. 2.73 37. 22. 22. .20 2 COMBINED AT PT.6A 1025. 2.83 233. 140. 140. 1.22 ROUTED TO PT.6A 642. 3.10 233. 140. 140. 1.22 134.55 3.10 ROUTED TO 6A-6 642. 3.17 233. 140. 140. 1.22 HYDROGRAPH AT SUB 6 242. 2.77 46. 28. 28. .25 2 COMBINED AT PT. 6 734. 2.80 279. 168. 168. 1.47 ROUTED TO PT. 6 558. 3.83 247. 159. 159. 1.47 119.10 3.83 HYDROGRAPH AT SUB 5A 540. 2.87 125. 75. 75. .64 ROUTED TO 5A-5 539. 3.00 124. 75. 75. .64 HYDROGRAPH AT SUB 5 588. 2.83 126. 76. 76. .68 2 COMBINED AT PT. 5 1051. 2.90 250. 151. 151. 1.32 2 COMBINED AT PT. 7 1163. 2.93 492. 310. 310. 2.79 ROUTED TO 7-8A 1160. 3.07 492. 306. 306. 2.79 HYDROGRAPH AT SUB 8A 72. 2.77 14. 8. 8. .09 2 COMBINED AT PT.8A 1185. 3.03 505. 314. 314. 2.88 ROUTED TO PT.8A 753. 4.40 420. 263. 263. 2.88 110.08 4.40 6 1 ROUTED TO + 8A-8 753. 4.60 419. 257. 257. 2.88 'HYDROGRAPH AT + SUB 88 353. 2.87 81. 49. 49. .53 2 COMBINED AT + p. 8 827. 4.53 473. 306. 306. 3.41 I HYDROGRAPH AT + SUB 1 842. 2.77 163. 98. 98. .88 AT + I HYDROGRAPH SUB 2 511. 2.77 98. 59. 59. .58 2 COMBINED AT + p. 3 1353. 2.77 260. 157. 157. 1.46 I ROUTED TO + 3-3A 1342. 2.77 260. 157. 157. 1.46 TO + I ROUTED 3A-4 1340. 2.87 260. 157. 157. 1.46 HYDROGRAPH AT + SUB 4 589. 2.80 118. 71. 71. .74 I 2 COMBINED AT + PT. 4 1890. 2.83 378. 228. 228. 2.20 + I 2 COMBINED AT PT. 9 2238. 2.83 842. 534. 534. 5.61 ROUTED TO + 9-10 2236. 2.90 842. 530. 530. 5.61 I HYDROGRAPH AT + SUB 10 238. 2.83 52. 31. 31. .42 + I 2 COMBINED AT P1.10 2456. 2.90 893. 562. 562. 6.03 HYDROGRAPH AT + SUB 11 602. 2.77 115. 69. 69. .65 I ROUTED TO + PT.11 170. 3.37 113. 69. 69. .65 + 76.38 3.37 I 2 COMBINED AT + P1.12 2622. 2.90 1005. 631. 631. 6.68 ROUTED TO + 12-13 2610. 2.97 1003. 626. 626. 6.68 I HYDROGRAPH AT + SUB 13 335. 2.90 81. 49. 49. .66 COMBINED AT I 2 + P1.13 2926. 2.97 1080. 675. 675. 7.34 NORMAL END OF HEC-1 I I 1 I APPENDIX C. INPUT/OUTPUT LISTINGS FOR HEC-2 * WATER SURFACE PROFILES * * * VERSION OF NOVEMBER 1976 * I* * UPDATED MAY 1986 * * * IBM-PC-XT VERSION AUGUST 1985 * * I * RUN DATE 09-03-90 TIME 15:55:55 * * ****************************************************** I Ix X X x x x x X X x x I xxxxxxx xxxx x xxxxx xxxxx X X x x X X x x x X x xxxxxxx xxxxx xxxxxxx *************************************** * U.S. ARMY CORPS OF ENGINEERS * THE HYDROLOGIC ENGINEERING CENTER * 609 SECOND STREET, SUITE D * DAVIS, CALIFORNIA 95616 * (916) 440-2105 (FTS) 448-2105 09-03-90 15:55:55 PAGE 1 I THIS RUN EXECUTED 09-03-90 ** *** *** *** * ***** * **** *** * ** *** ******** **** * * HEC2 RELEASE DATED NOV 76 UPDATED MAY 1984 ERROR CORR 01,02,03,04,05,06 MODIFICATION - 50,51,52,53,54,55,56 I IBM-PC-XT VERSION AUGUST 1985 I ll THIS IS A SUBCRITICAL RUN FOR ENCINITAS CREEK EXISTING CONDITIONS T2 FOR EVALUATION OF DRAINAGE CAPACITIES OF BRIDGES AND CULVERTS 13 FOR NATURAL CONDITIONS WITHOUT DETENTION BASINS I Ji [CHECK IWO NINV IDIR STRT METRIC HVIWS a WSEL FO 0. 2. 0. 0. .000000 .00 .0 0. 8.500 .000 I J2 NPROF [PLOT PRFVS XSECV XSECH FN ALLDC IBW CHNIM ITRACE 1.000 .000 -1.000 .000 .000 .000 .000 .000 .000 .000 I OT 3.000 4725.000 3450.000 2926.000 .000 .000 .000 .000 .000 .000 NC .060 .060 .060 .100 .300 .000 .000 .000 .000 .000 Xl .000 62.000 410.000 530.000 .000 .000 .000 .000 .000 .000 X3 10.000 .000 .000 270.000 .000 .000 .000 .000 .000 .000 GR 5.900 .000 5.900 10.000 6.000 20.000 5.900 30.000 5.900 40.000 I GR 5.900 50.000 5.900 60.000 5.900 70.000 5.900 80.000 5.800 90.000 GR 5.800 100.000 5.800 110.000 5.800 120.000 5.700 130.000 5.600 140.000 GR 5.500 150.000 5.400 160.000 5.400 170.000 5.300 180.000 5.200 190.000 I GR GR 5.000 200.000 5.000 4.200 246.300 3.300 210.000 249.900 5.000 3.300 220.000 250.000 4.800 3.300 230.000 252.000 4.500 4.000 240.000 255.000 GR 4.100 260.000 4.300 270.000 4.300 280.000 4.300 290.000 4.400 300.000 GR 4.600 310.000 4.700 320.000 4.700 330.000 4.800 340.000 4.900 350.000 GR 5.000 360.000 5.000 370.000 4.900 380.000 4.900 390.000 4.900 400.000 I I GR 4.900 410.000 4.900 420.000 4.800 430.000 4.700 440.000 4.700 450.000 GR 4.700 460.000 4.800 470.000 4.700 480.000 4.800 490.000 4.800 500.000 GR 4.800 510.000 4.900 520.000 5.000 530.000 5.200 540.000 5.400 550.000 OR 5.800 560.000 5.800 562.900 .000 .000 .000 .000 .000 .000 NC .000 .000 .000 .300 .500 .000 .000 .000 .000 .000 xi .017 48.000 .000 80.000 295.000 295.000 295.000 .000 .000 .000 X3 10.000 .000 .000 .000 .000 270.000 .000 .000 .000 .000 X2 .000 .000 .000 .000 .000 1.500 .000 .000 .000 .000 OR 7.200 .000 7.300 10.000 7.400 20.000 7.500 30.000 7.600 40.000 OR 7.800 50.000 7.900 60.000 8.000 70.000 8.000 80.000 8.000 90.000 OR 8.100 100.000 8.100 110.000 8.100 120.000 8.100 130.000 8.000 140.000 GR 8.000 150.000 7.900 160.000 7.800 170.000 7.800 180.000 7.800 190.000 GR 7.700 200.000 7.700 210.000 7.700 220.000 7.600 230.000 7.500 240.000 GR 7.400 250.000 7.400 260.000 7.400 270.000 7.300 280.000 7.200 290.000 OR 7.100 300.000 7.100 310.000 7.100 320.000 7.500 325.400 8.900 330.000 GR 13.900 340.000 17.600 350.000 17.900 353.500 17.900 360.000 17.800 368.900 GR 17.600 370.000 17.700 380.000 17.700 390.000 17.800 400.000 17.900 410.000 GR 18.100 421.800 18.200 430.000 18.200. 433.500 .000 .000 .000 .000 09-03-90 15:55:55 PAGE 2 xi .053 14.000 229.400 266.600 405.000 325.000 365.000 .000 .000 .000 X3 .000 .000 .000 229.400 18.500 266.600 18.500 .000 .000 .000 GR 16.000 185.000 9.500 229.400 9.500 229.500 9.500 241.400 9.500 241.500 OR 9.500 242.000 9.500 242.100 9.500 254.000 9.500 254.100 9.500 254.500 GR 9.500 254.600 9.500 266.500 9.500 266.600 16.000 290.000 .000 .000 NC .000 .000 .017 .000 .000 .000 .000 .000 .000 .000 Xl .054 14.000 229.400 266.600 10.000 10.000 10.000 .000 .000 .000 X3 .000 .000 .000 229.400 18.500 266.600 18.500 .000 .000 .000 BT -14.000 185.000 16.000 16.000 229.400 18.500 9.500 229.500 18.500 17.500 81 .000 241.400 18.500 17.500 241.500 18.500 9.500 242.000 18.500 9.500 81 .000 242.100 18.500 17.500 254.000 18.500 17.500 254.100 18.500 9.500 81 .000 254.500 18.500 9.500 254.600 18.500 17.500 266.500 18.500 17.500 BT .000 266.600 18.500 9.500 290.000 16.000 16.000 .000 .000 .000 GR 16.000 185.000 9.500 229.400 9.500 229.500 9.500 241.400 9.500 241.500 OR 9.500 242.000 9.500 242.100 9.500 254.000 9.500 254.100 9.500 254.500 GR 9.500 254.600 9.500 266.500 9.500 266.600 16.000 290.000 .000 .000 Xl .063 14.000 229.400 266.600 120.000 120.000 120.000 .000 .000 .000 X3 .000 .000 .000 229.400 18.800 266.600 18.800 .000 .000 .000 BT -14.000 185.000 16.000 16.000 229.400 18.800 9.800 229.500 18.800 17.800 BT .000 241.400 18.800 17.800 241.500 18.890 9.800 242.000 18.800 9.800 RI .000 242.100 18.800 17.800 254.000 18.800 17.800 254.100 18.800 9.800 BI .000 254.500 18.800 9.800 254.600 18.800 17.800 266.500 18.800 17.800 81 .000 266.600 18.800 9.800 290.000 16.000 16.000 .000 .000 .000 GR 16.000 185.000 9.800 229.400 9.800 229.500 9.800 241.400 9.800 241.500 GR 9.800 242.000 9.800 242.100 9.800 254.000 9.800 254.100 9.800 254.500 GR 9.800 254.600 9.800 266.500 9.800 266.600 16.000 290.000 .000 .000 NC 000 .000 .050 .000 .000 .000 .000 .000 .000 .000 Xl .064 14.000 229.400 266.600 10.000 10.000 10.000 .000 .000 .000 X3 .000 .000 .000 229.400 18.800 266.600 18.800 .000 .000 .000 OR 16.000 185.000 9.800 229.400 9.800 229.500 9.800 241.400 9.800 241.500 GR 9.800 242.000 9.800 242.100 9.800 254.000 9.800 254.100 9.800 254.500 GR 9.800 254.600 9.800 266.500 9.800 266.600 16.000 290.000 . .000 .000 NC .000 .000 .120 .100 .300 .000 .000 .000 .000 .000 Xl .098 45.000 445.300 526.200 135.000 130.000 140.000 .000 .000 .000 X3 10.000 .000 .000 265.100 .000 .000 .000 .000 .000 .000 GR 69.400 .000 69.500 10.000 69.500 20.000 69.500 30.000 69.500 40.000 OR 69.500 60.000 69.400 90.000 73.400 102.000 70.500 110.000 67.900 118.700 GR 58.200 120.000 37.900 126.800 36.200 130.000 27.500 140.000 25.100 146.200 OR 20.600 153.300 20.200 160.000 20.200 170.000 20.400 190.000 21.100 220.000 GR 20.400 230.700 20.100 265.100 17.900 285.200 17.300 310.700 17.200 350.600 GR 17.200 420.600 17.100 430.700 17.200 440.700 17.200 445.300 14.800 450.600 GR 13.100 460.600 13.100 470.600 12.700 485.200 12.900 510.700 14.000 526.200 GR 14.300 550.600 14.600 580.700 15.000 610.600 16.000 645.200 17.600 685.200 OR 18.900 725.300 20.800 765.300 22.900 815.200 24.100 835.300 24.900 844.100 NC .000 .000 .140 .000 .000 .000 .000 .000 .000 .000 Xl .129 51.000 400.000 470.000 160.000 145.000 150.000 .000 .000 .000 OR 74.600 .000 74.800 10.000 74.900 20.000 74.900 30.000 73.800 60.000 2 GR 76.000 64.800 46.000 69.400 45.900 70.000 43.300 80.000 41.300 90.000 GR 35.900 100.000 34.600 103.300 30.100 105.300 29.700 112.200 29.200 120.000 GR 29.400 130.000 29.700 140.000 29.800 150.000 29.500 170.000 29.700 180.000 GR 28.600 210.000 25.300 237.500 25.600 260.000 25.500 290.000 25.300 320.000 GR 24.900 325.300 22.200 330.000 17.600 340.000 15.900 347.700 15.900 350.000 GR 15.900 360.000 15.800 370.000 15.900 380.000 16.400 390.000 16.900 400.000 GR 16.800 410.000 16.500 420.000 16.500 430.000 17.000 440.000 17.100 450.000 GR 17.200 470.000 17.100 490.000 17.100 510.000 17.300 530.000 17.800 560.000 GR 18.700 590.000 19.900 618.100 21.700 648.100 23.100 688.100 26.000 758.100 GR 26.400 762.100 .000 .000 .000 .000 .000 .000 .000 .000 Xl .156 67.000 230.900 290.000 140.000 140.000 140.000 .000 .000 .000 GR 34.900 .000 34.800 10.000 34.500 20.000 34.000 30.000 33.600 40.000 GR 34.400 41.100 34.300 42.300 34.000 50.000 33.100 53.700 30.000 60.000 GR 29.300 65.100 29.300 70.000 28.900 80.000 28.700 90.000 28.500 100.000 GR 28.300 110.000 28.400 120.000 28.600 130.000 28.300 134.200 26.600 140.000 GR 24.300 148.100 24.500 150.000 24.400 158.900 24.100 160.000 19.500 170.000 GR 19.600 176.700 19.600 180.000 19.600 190.000 19.400 200.000 19.400 210.000 GR 19.300 220.000 19.200 230.900 17.400 240.000 16.600 250.000 16.800 260.000 GR 17.500 270.000 18.300 280.000 19.000 290.000 19.700 300.000 20.300 310.000 GR 20.700 320.000 20.800 330.000 20.700 340.000 20.700 350.000 20.800 360.000 GR 21.000 370.000 21.200 380.000 21.200 390.000 21.400 400.000 21.400 410.000 GR 21.600 420.000 21.800 430.000 22.000 440.000 22.500 450.000 22.500 460.000 GR 22.800 470.000 23.200 480.000 23.500 490.000 23.700 500.000 24.100 510.000 GR 24.100 520.000 24.300 530.000 24.500 540.000 24.800 550.000 25.100 560.000 GR 26.000 570.000 26.400 575.200 .000 .000 .000 .000 .000 .000 Xl .182 69.000 220.000 300.000 140.300 141.000 140.700 .000 .000 .000 GR 39.300 .000 39.300 10.000 39.400 20.000 39.200 30.000 38.500 40.000 GR 38.900 41.400 39.000 43.200 38.800 50.600 36.200 60.000 32.200 70.000 GR 28.500 78.000 28.400 80.000 28.200 90.000 28.000 100.000 27.800 110.000 GR 27.400 120.000 26.600 130.000 26.500 140.000 26.600 150.000 26.800 160.000 GR 26.500 162.800 25.600 170.000 24.800 180.000 24.000 190.000 23.500 200.000 GR 23.000 210.000 22.600 220.000 22.500 230.100 22.500 240.000 22.400 250.000 GR 22.500 260.000 22.500 261.000 21.100 267.700 21.100 270.000 21.100 280.000 GR 21.600 283.900 22.200 290.000 22.400 297.800 22.400 300.000 22.500 310.000 GR 22.500 320.000 22.700 330.000 22.800 340.000 23.100 350.000 23.300 360.000 GR 23.800 370.000 24.200 380.000 24.500 390.000 24.700 400.000 24.800 410.000 GR 25.100 420.000 25.200 430.000 25.200 440.000 25.600 450.000 26.000 460.000 GR 26.300 470.000 26.500 480.000 26.600 490.000 26.800 500.000 26.900 510.000 GR 27.200 520.000 27.500 530.000 28.600 540.000 29.300 550.000 30.000 560.000 GR 30.400 570.000 30.800 580.000 31.000 590.000 31.200 597.400 .000 .000 NC .000 .000 .150 .000 .000 .000 .000 .000 .000 .000 Xl .202 67.000 200.000 270.000 110.000 115.000 112.000 .000 .000 .000 X3 10.000 .000 .000 140.000 .000 .000 .000 .000 .000 .000 GR 42.000 .000 41.800 10.000 41.500 20.000 42.100 21.200 42.300 22.600 GR 42.400 30.000 42.300 32.100 38.700 40.000 34.300 50.000 31.300 59.200 GR 31.200 60.000 30.600 70.000 30.000 80.000 29.900 90.000 29.600 99.800 GR 29.600 100.000 29.000 110.000 28.500 120.000 28.000 130.000 28.200 133.800 GR 29.200 140.000 28.900 148.300 28.700 150.000 27.300 160.000 26.100 170.000 GR 25.300 180.000 25.200 183.000 25.500 190.000 25.700 200.000 25.300 210.000 GR 25.300 220.000 25.300 230.000 24.300 240.000 24.800 243.200 25.400 249.000 GR 25.400 250.000 25.300 260.000 25.300 270.000 25.500 280.000 25.600 290.000 GR 25.700 300.000 26.000 310.000 26.000 320.000 26.000 330.000 26.200 340.000 GR 26.400 350.000 26.500 360.000 27.000 370.000 27.500 380.000 27.500 390.000 GR 27.700 400.000 27.700 410.000 28.000 420.000 28.100 430.000 28.200 440.000 GR 28.400 450.000 28.600 460.000 28.900 470.000 29.200 480.000 29.600 490.000 GR 29.900 500.000 30.100 510.000 30.400 520.000 31.000 530.000 31.500 540.000 GR 31.400 550.000 31.300 555.100 .000 .000 .000 .000 .000 .000 Xl .240 65.000 180.000 260.000 210.000 205.000 205.000 .000 .000 .000 GR 45.400 .000 45.500 10.000 45.500 20.000 45.400 30.000 45.400 38.600 GR 45.400 40.200 44.700 48.900 44.200 50.000 39.100 60.000 34.200 70.000 GR 32.200 80.000 30.900 90.000 30.500 98.200 30.500 100.000 30.400 110.000 GR 30.200 120.000 30.100 130.000 29.700 140.000 29.700 150.000 29.500 160.000 GR 29.300 170.000 29.100 180.000 28.500 190.000 27.700 200.000 28.000 210.000 GR 28.000 220.000 28.200 230.000 28.600 240.000 28.700 250.000 29.500 260.000 GR 29.700 270.000 30.000 280.000 29.900 290.000 30.000 300.000 29.900 310.000 3 GR 29.800 320.000 GR 30.000 370.000 GR 31.800 410.000 GR 34.900 450.000 GR 36.100 490.000 GR 38.200 540.000 xi .277 GR 48.600 GR 47.400 GR 36.000 GR 33.300 GR 33.700 GR 33.100 GR 32.800 GR 33.300 GR 33.800 GR 36.500 GR 38.400 GR 40.300 GR 42.400 xi .310 GR 51.000 GR 49.800 GR 38.500 GR 35.500 GR 34.800 GR 34.700 GR 35.000 GR 35.500 GR 37.300 GR 38.600 GR 40.500 GR 42.900 GR 45.600 xi .356 X3 10.000 GR 54.400 GR 52.600 GR 43.000 GR 38.900 GR 38.200 GR 37.400 GR 36.300 GR 36.200 GR 38.900 GR 40.800 GR 41.900 GR 44.700 GR 47.100 xi .401 GR 57.000 GR 56.800 GR 51.700 GR 42.400 GR 40.500 GR 40.000 GR 39.400 GR 38.900 GR 39.700 GR 41.700 GR 43.500 GR 44.100 GR 46.200 GR 48.700 63.000 .000 48.300 80.000 128.000 170.000 220.000 270.000 320.000 370.000 409.000 450.800 500.000 550.000 63.000 .000 41.600 80.000 130.000 170.000 220.000 270.000 320.000 371.300 420.000 470.000 520.000 570.000 64.000 .000 .000 42.700 80.000 130.000 180.000 230.000 280.000 331.800 380.000 419.300 460.000 510.000 560.000 67.000 .000 42.400 70.000 120.000 160.000 210.000 260.000 310.000 360.000 410.000 440.000 480.000 530.000 580.000 29.900 30.200 33.800 34.200 36.100 38.300 220.000 48.300 45.300 35.500 33.300 33.500 33.100 33.000 33.300 34.600 36.500 38.800 40.900 42.800 210.000 51.000 45.500 38.100 34.800 34.500 34.800 35.400 35.600 37.600 39.000 40.900 43.400 46.100 270.000 .000 54.200 47.500 42.100 38.200 38.100 37.300 36.100 37.300 40.500 40.800 42.300 45.300 47.800 260.000 56.900 55.000 49.900 41.000 40.400 39.900 39.200 39.000 39.800 41.700 43.500 44.800 46.800 49.100 330.000 380.000 420.000 460.000 500.000 550.000 280.000 10.000 50.000 90.000 130.000 180.000 230.000 280.000 330.000 378.100 410.000 460.000 510.000. 560.000 270.000 10.000 50.000 90.000 138.700 180.000 230.000 280.000 330.000 380.000 430.000 480.000 530.000 580.000 350.000 .000 10.000 50.000 90.000 140.000 190.000 240.000 290.000 340.000 390.300 420.000 470.000 520.000 570.000 340.000 10.000 50.000 80.000 130.000 170.000 220.000 270.000 320.000 370.000 420.000 450.000 490.000 540.000 589.100 29.900 30.300 34.700 34.900 36.500 38.500 193.400 48.300 39.300 34.800 33.700 33.300 32.900 33.100 33.500 34.900 36.300 39.000 41.400 43.200 190.000 50.800 39.600 37.500 34.800 34.500 34.400 35.600 35.700 37.600 39.300 41.400 43.800 46.300 245.000 .000 54.100 44.500 41.000 37.600 37.900 37.100 36.000 38.500 41.000 41.200 42.900 45.700 48.600 238.900 56.500 54.700 48.800 40.600 40.100 39.800 39.100 39.400 40.100 42.000 43.400 45.200 47.300 .000 340.000 390.000 430.000 468.700 510.000 560.000 191.300 20.000 60.000 100.000 140.000 190.000 240.000 290.000 340.000 380.000 422.600 470.000 520.000 569.000 190.000 20.000 60.000 100.000 140.000 190.000 240.000 290.000 340.000 390.000 440.000 490.000 540.000 582.800 250.000 400.000 20.000 60.000 100.000 150.000 200.000 250.000 300.000 350.000 400.000 430.000 480.000 530.000 580.000 238.800 20.000 52.200 90.000 137.700 180.000 230.000 280.000 330.000 380.000 424.700 460.000 500.000 550.000 .000 30.100 30.400 34.700 35.000 37.300 38.700 197.400 48.300 36.200 34.300 33.800 33.200 32.100 33.100 33.500 35.600 37.400 39.600 41.900 .000 190.000 50.400 39.300 36.800 34.800 34.600 34.500 35.600 36.300 38.000 39.800 41.800 44.300 .000 250.000 .000 53.800 44.200 40.000 37.600 37.800 36.900 35.900 38.600 40.900 41.500 43.800 46.200 48.600 238.800 56.500 53.000 47.800 40.600 40.100 39.600 39.000 39.400 40.300 43.600 43.600 45.400 47.600 .000 350.000 400.000 434.900 470.000 520.000 570.000 .000 30.000 68.800 110.000 150.000 200.000 250.000 300.000 350.000 390.000 430.000 480.000 530.000 .000 .000 30.000 61.500 110.000 150.000 200.000 250.000 300.000 350.000 400.000 450.000 500.000 550.000 .000 .000 .000 30.000 64.500 110.000 161.100 210.000 260.000 310.000 360.000 403.100 440.000 490.000 540.000 585.000 .000 30.000 60.000 100.000 140.000 190.000 240.000 290.000 340.000 390.000 430.000 470.000 510.000 560.000 .000 30.200 31.600 34.600 35.300 37.800 38.700 .000 47.900 36.200 33.300 33.700 33.200 31.900 33.100 33.700 35.800 37.900 39.900 42.100 .000 .000 50.100 39.100 36.200 35.000 34.800 34.700 35.400 37.000 38.400 40.200 42.300 45.000 .000 .000 .000 53.200 43.900 39.400 37.900 37.500 36.700 35.900 38.800 40.800 41.700 44.300 46.600 .000 .000 56.700 52.400 45.700 40.500 40.000 39.400 39.000 39.600 40.800 43.500 43.600 45.700 47.800 .000 360.000 409.100 440.000 480.600 530.000 579.200 .000 40.000 70.000 120.000 160.000 210.000 260.000 310.000 360.000 400.000 440.000 490.000 540.000 .000 .000 40.000 70.000 120.000 160.000 210.000 260.000 310.000 360.000 410.000 460.000 510.000 560.000 .000 .000 .000 40.000 70.000 120.000 170.000 220.000 270.000 320.000 370.000 410.000 450.000 500.000 550.000 .000 .000 40.000 63.500 110.000 150.000 200.000 250.000 300.000 350.000 400.000 435.600 475.900 520.000 570.000 .000 NC .000 .000 .130 .000 .000 .000 .000 .000 000 .000 4 Xl .451 81.000 450.000 530.000 260.000 235.000 245.000 .000 .000 .000 GR 75.200 .000 69.900 10.000 65.400 20.000 61.700 30.000 60.700 33.400 GR 60.600 38.000 60.100 39.900 60.100 40.000 60.100 50.000 60.000 60.000 GR 59.800 63.100 59.500 70.000 59.200 80.000 58.700 90.000 58.800 92.500 GR 58.900 100.000 58.600 110.000 58.500 112.900 58.300 120.000 58.000 130.000 GR 58.100 131.100 58.300 132.800 58.300 138.000 58.300 140.000 51.900 150.000 GR 50.200 160.000 49.500 170.000 49.300 180.000 49.200 190.000 49.100 200.000 GR 48.800 210.000 48.800 220.000 48.500 230.000 48.100 240.000 47.500 250.000 GR 46.500 260.000 45.000 270.000 44.000 280.000 43.400 290.000 42.700 300.000 GR 42.200 310.000 42.000 320.000 41.800 330.000 41.600 340.000 41.500 350.000 GR 41.500 360.000 41.500 370.000 41.600 380.000 41.700 390.000 41.800 400.000 GR 42.200 410.000 42.400 420.000 42.500 430.000 42.400 440.000 42.300 450.000 GR 42.200 460.000 42.000 470.000 41.400 480.000 40.900 490.000 40.500 500.000 GR 40.200 510.000 40.600 517.700 40.800 520.000 42.800 530.000 45.400 540.000 GR 45.700 544.200 45.700 550.000 45.800 560.000 46.100 570.000 46.100 580.000 GR 46.000 590.000 45.600 600.000 45.700 604.800 46.100 610.000 46.900 620.000 GR 47.400 630.000 47.600 640.000 47.900 650.000 48.100 660.000 48.400 670.000 GR 48.700 676.100 .000 .000 .000 .000 .000 .000 .000 .000 NC .000 .000 .140 .000 .000 .000 .000 .000 .000 .000 Xl .522 79.000 300.000 368.400 390.400 395.700 392.300 .000 .000 .000 GR 56.200 .000 55.700 10.000 56.300 12.000 55.700 14.300 52.800 20.000 GR 48.900 29.800 48.900 30.000 48.600 40.000 48.100 50.000 47.700 60.000 GR 47.700 70.000 47.600 80.000 47.600 90.000 47.400 100.000 47.500 110.000 GR 47.400 120.000 47.400 130.000 47.400 140.000 47.200 150.000 47.100 160.000 GR 47.000 170.000 47.100 180.000 47.100 190.000 46.900 200.000 46.600 210.000 GR 46.500 220.000 46.400 230.000 46.300 240.000 46.000 250.000 45.800 260.000 GR 45.600 270.000 45.300 280.000 44.900 290.000 44.600 300.000 44.300 310.000 GR 43.900 320.000 43.700 330.000 43.300 340.000 43.100 350.000 43.300 353.200 GR 43.700 360.000 43.900 368.400 43.900 370.000 43.900 380.000 43.900 390.000 GR 43.700 400.000 43.300 411.100 43.600 420.000 43.900 430.000 44.000 440.000 GR 44.100 450.000 44.100 460.000 44.100 471.800 45.700 480.000 46.100 485.100 GR 46.100 490.000 46.100 500.000 46.900 507.000 47.000 510.000 47.000 511.500 GR 46.700 520.000 46.700 524.900 46.900 530.000 47.400 540.000 47.900 550.000 GR 48.200 560.000 48.600 570.000 48.600 580.000 48.800 590.000 49.000 600.000 GR 49.100 610.000 49.300 620.000 49.800 630.000 49.900 640.000 50.000 650.000 GR 49.900 660.000 50.100 670.000 50.200 680.000 50.200 681.200 .000 .000 Xl .615 89.000 410.000 473.600 504.100 513.900 511.300 .000 .000 .000 X3 10.000 .000 .000 .000 .000 569.800 .000 .000 .000 .000 GR 77.300 .000 75.700 10.000 72.700 20.000 69.800 28.100 69.600 30.000 GR 68.900 40.000 68.800 50.000 68.800 60.000 68.800 70.000 68.300 80.000 GR 68.100 90.000 67.600 98.400 65.800 99.800 65.900 100.000 66.600 101.700 GR 67.500 104.100 66.900 106.900 66.900 108.900 67.000 110.000 67.100 120.000 GR 67.200 127.200 67.200 130.000 67.200 140.000 67.400 148.300 67.400 150.000 GR 68.000 160.000 68.200 166.500 68.200 170.000 68.300 180.000 68.900 185.200 GR 69.100 188.600 68.800 190.400 64.800 200.000 61.500 210.000 61.500 211.500 GR 61.000 220.000 60.500 230.000 60.300 240.000 60.000 250.000 59.800 260.000 GR 59.500 268.400 59.100 270.000 57.200 280.000 54.200 290.000 52.400 300.000 GR 50.500 310.000 49.700 320.000 49.400 330.000 49.100 340.000 48.900 350.000 GR 48.800 360.000 48.400 370.000 48.100 380.000 48.000 390.000 47.900 400.000 GR 48.000 410.000 47.900 420.000 47.800 430.000 47.800 440.000 47.100 450.000 GR 47.100 456.800 47.100 460.000 47.400 461.700 48.200 470.000 48.300 473.600 GR 48.500 480.000 48.600 490.000 48.600 500.000 48.800 510.000 49.000 520.000 GR 49.200 530.000 49.500 540.000 49.800 550.000 51.000 560.000 52.100 569.800 GR 52.100 570.000 51.500 580.000 51.200 590.000 51.700 601.800 51.700 610.000 GR 52.000 620.000 52.400 630.000 52.600 640.000 53.100 650.000 53.800 660.000 GR 54.100 670.000 54.500 680.000 55.000 690.000 55.800 694.900 .000 .000 Xl .678 93.000 280.000 350.000 336.100 341.300 341.000 .000 .000 .000 X3 10.000 .000 .000 .000 .000 513.600 .000 .000 .000 .000 GR 85.700 .000 77.800 10.000 76.500 13.000 76.900 15.800 77.200 17.600 GR 76.700 19.800 76.700 20.000 76.800 24.200 76.900 30.000 77.200 40.000 GR 77.300 42.900 77.300 50.000 77.800 60.900 78.000 70.000 77.900 78.500 GR 77.900 80.000 77.800 90.000 78.600 98.000 78.600 100.000 78.600 101.200 GR 72.100 110.000 67.400 120.000 64.700 130.000 63.200 140.000 61.700 150.000 GR 61.700 154.600 61.500 160.000 60.700 170.000 60.100 181.500 58.300 190.000 GR 57.100 200.000 56.300 210.000 56.500 213.600 56.500 220.000 56.600 230.000 GR 55.700 238.000 55.500 240.000 54.400 250.000 53.200 259.300 53.200 260.000 GR 52.700 270.000 52.200 280.000 51.800 290.000 51.400 300.000 50.400 310.000 50.200 317.800 50.500 320.000 50.800 330.000 50.900 340.000 51.100 350.000 51.100 360.000 51.200 370.000 51.100 380.000 50.600 390.000 50.500 400.000 50.500 410.000 50.800 420.000 50.900 430.000 51.100 440.000 51.300 450.000 51.500 460.000 51.800 470.000 53.000 480.000 54.800 490.000 55.100 496.200 54.800 500.000 54.900 510.000 55.500 513.600 55.500 519.500 55.500 520.000 55.000 530.000 54.800 537.800 54.800 540.000 54.700 550.000 55.600 555.400 56.000 560.000 56.700 570.000 57.400 580.000 58.200 590.000 58.400 597.700 58.200 600.000 58.600 607.300 58.900 610.000 59.600 620.000 60.300 630.000 60.600 640.000 61.100 650.000 61.400 660.000 61.900 670.000 62.400 680.000 62.800 690.000 63.300 700.000 64.600 709.700 .000 .000 .000 .000 .000 .000 .130 .000 .000 .000 .000 .000 .000 .000 .780 74.000 320.000 390.000 554.000 568.300 561.700 .000 .000 .000 86.400 .000 79.700 8.200 79.500 9.100 80.700 10.000 80.800 12.000 80.200 14.800 80.100 16.300 80.300 20.000 80.500 30.000 80.400 38.100 80.400 40.000 80.200 50.000 80.300 54.800 80.000 60.000 80.300 70.000 80.200 74.900 80.100 80.000 . 79.700 90.000 80.100 93.600 80.000 95.000 79.000 98.900 78.900 100.000 72.600 110.000 69.400 120.000 68.000 130.000 66.000 140.000 64.200 150.000 63.300 160.000 62.400 170.000 61.500 180.000 60.100 190.000 59.700 200.000 59.300 210.000 58.700 220.000 57.900 230.000 57.200 239.800 57.200 240.000 56.900 250.000 56.700 260.000 56.500 270.000 56.400 280.000 56.500 290.000 56.700 300.000 56.600 310.000 56.600 320.000 56.400 330.000 56.200 340.000 56.000 350.000 55.400 357.700 55.800 360.000 56.100 370.000 56.100 380.000 56.400 390.000 56.600 400.000 56.700 410.000 56.600 420.000 56.400 430.000 56.500 440.000 56.900 450.000 57.200 460.000 58.000 470.000 58.600 480.000 59.000 490.000 58.900 500.000 58.800 510.000 58.900 511.600 59.600 520.000 60.500 530.000 61.000 537.300 61.000 540.000 61.000 550.000 61.600 560.000 62.200 570.000 62.500 577.800 .000 .000 .834 82.000 .370.000 470.000 260.200 248.500 253.600 .000 .000 .000 10.000 .000 .000 .000 .000 500.000 .000 .000 .000 .000 85.300 .000 82.800 10.000 80.300 20.000 79.100 30.000 77.500 39.600 77.400 40.000 74.800 44.700 74.600 45.500 75.100 47.400 75.800 49.600 75.600 50.000 75.700 51.700 75.300 53.200 75.500 60.000 75.500 70.000 75.500 73.900 75.400 80.000 75.200 90.000 75.000 93.500 74.900 100.000 74.600 110.000 74.500 111.800 74.300 120.000 74.400 130.500 74.400 132.300 72.800 137.200 70.300 140.000 65.000 150.000 63.700 156.800 63.700 160.000 63.100 170.000 62.600 180.000 61.900 190.000 61.500 200.000 61.600 210.000 61.100 220.000 60.600 230.000 60.000 240.000 59.500 250.000 59.100 260.000 58.800 270.000 58.800 280.000 58.600 290.000 58.600 300.000 58.500 310.000 58.500 320.000 58.400 330.000 58.300 340.000 58.300 350.000 58.100 360.000 58.000 370.000 57.800 380.000 57.700 390.000 57.300 400.000 57.200 410.000 57.100 420.000 57.400 430.000 57.600 440.000 57.900 450.000 58.600 460.000 59.600 470.000 61.700 480.000 64.800 490.000 65.100 496.800 65.200 500.000 65.200 510.000 65.100 520.000 65.300 530.000 65.300 540.000 65.300 550.000 65.300 554.000 64.900 560.000 64.000 570.000 63.200 580.000 61.900 590.000 61.800 593.600 61.900 600.000 62.500 607.100 62.600 610.000 63.400 620.000 64.100 630.000 64.400 638.300 .000 .000 .000 .000 .000 .000 .000 .000 .140 .000 .000 .000 .000 .000 .000 .000 .918 66.000 810.000 910.000 470.000 460.000 465.000 .000 .000 .000 10.000 .000 .000 690.000 .000 .000 .000 .000 .000 .000 68.400 .000 68.700 10.000 68.800 20.000 69.400 40.000 69.500 60.000 69.400 90.000 69.400 120.000 69.600 160.000 68.800 200.000 68.400 230.000 67.900 270.000 67.400 310.000 66.800 350.000 66.300 380.000 65.800 420.000 65.400 430.000 65.100 440.000 64.200 460.000 64.800 480.000 64.900 510.000 64.800 540.000 64.200 580.000 64.200 610.000 67.800 620.000 67.700 630.000 67.500 650.000 66.700 670.000 66.600 690.000 65.900 712.700 63.500 720.000 60.500 729.500 60.500 730.000 60.500 740.000 60.700 750.000 60.900 760.000 60.900 770.000 61.000 780.000 61.100 790.000 61.200 800.000 61.300 810.000 61.200 830.000 60.800 850.000 60.700 880.000 61.700 910.000 62.500 950.000 62.500 990.000 62.700 1020.000 63.600 1060.000 63.900 1070.000 64.400 1080.000 64.900 1090.000 65.500 1110.000 66.700 1123.600 66.300 1141.900 67.200 1150.000 68.400 1160.000 69.200 1173.100 68.900 1190.000 68.800 1210.000 69.500 1240.000 69.800 1250.000 70.400 1270.000 71.100 1290.000 71.400 1310.000 71.600 1320.000 71.800 1324.100 .000 .000 .000 .000 .000 .000 .000 .000 .050 .050 .140 .000 .000 .000 .000 .000 .000 .000 3.000 4207.000 3013.000 2456.000 .000 .000 .000 .000 .000 .000 GR GR GR GR GR GR GR GR GR GR NC xi GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR xi X3 GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR NC xi X3 GR GR GR GR GR GR GR GR GR GR GR GR GR GR NC QT 6 I X,.998 88.000 150.000 240.000 450.000 425.000 440.000 .000 .000 .000 GR 70.800 .000 71.000 10.000 71.000 19.700 71.000 20.000 70.800 30.000 GR 70.400 39.200 70.400 40.000 70.500 50.000 70.600 57.000 70.400 60.000 GR 70.100 70.000 70.100 74.800 70.000 76.900 69.900 80.000 69.600 81.500 GR 66.500 90.000 62.800 100.000 62.000 105.600 62.000 110.000 62.300 120.000 GR 62.300 130.000 62.400 140.000 62.500 150.000 62.300 160.000 62.300 170.000 GR 62.400 180.000 62.400 190.000 62.400 200.000 62.400 210.000 62.500 220.000 GR 62.900 230.000 63.000 240.000 63.000 250.000 63.000 260.000 63.000 270.000 GR 63.000 280.000 63.000 290.000 63.200 300.000 63.300 310.000 63.300 320.000 GR 63.300 330.000 63.300 340.000 63.300 350.000 63.300 360.000 63.300 370.000 GR 63.300 380.000 63.300 390.000 63.300 400.000 63.300 410.000 63.300 420.000 GR 63.300 430.000 63.300 440.000 63.300 450.000 63.300 460.000 63.400 470.000 GR 64.000 480.000 64.300 490.000 65.100 500.000 66.100 510.000 66.600 520.000 GR 67.000 530.000 67.500 540.000 68.100 550.000 68.800 560.000 69.200 566.500 GR 69.200 570.000 69.200 580.000 69.400 590.000 69.500 600.000 69.600 610.000 GR 69.400 620.000 69.200 630.000 69.100 640.000 69.300 647.300 69.800 650.000 GR 76.400 658.600 75.900 660.000 73.200 670.000 70.700 680.000 71.500 683.100 GR 71.800 687.700 71.500 690.000 71.300 700.000 71.800 702.500 72.400 710.000 GR 72.400 712.800 72.700 720.000 73.300 730.600 .000 .000 .000 .000 NC .000 .000 .150 .000 .000 .000 .000 .000 .000 .000 xi 1.096 83.000 180.000 330.000 525.000 530.000 525.000 .000 .000 .000 GR 79.300 .000 79.500 10.000 79.500 20.000 79.500 25.800 79.400 30.000 GR 79.000 40.000 79.200 .43.900 79.100 45.200 78.900 48.600 77.900 50.000 GR 72.800 60.000 69.900 70.500 69.900 80.000 70.000 91.100 70.100 101.500 GR 68.700 110.000 66.400 120.000 65.300 130.000 64.700 140.000 64.100 150.000 GR 63.500 160.000 63.100 170.000 63.000 180.000 62.100 190.000 62.000 200.000 GR 62.000 210.000 62.000 220.000 62.000 230.000 62.000 240.000 62.000 250.000 GR 62.000 260.000 62.000 270.000 62.000 280.000 62.000 290.000 62.000 300.000 GR 62.000 310.000 62.300 320.000 62.700 330.000 63.000 340.000 63.500 350.000 GR 63.600 360.000 64.200 370.000 64.900 380.000 66.300 390.000 68.500 400.000 GR 70.600 410.000 70.700 417.500 70.700 420.000 70.700 430.000 70.700 440.000 GR 70.700 450.000 71.900 456.600 72.700 460.000 72.900 471.200 70.800 480.900 GR 70.900 490.000 70.800 500.000 70.700 510.000 70.600 520.000 70.500 530.000 GR 70.400 540.000 70.500 550.000 70.600 560.000 70.900 570.000 71.200 580.000 GR 71.600 590.000 71.800 600.000 71.900 610.000 72.000 620.000 72.000 630.000 GR 72.100 640.000 72.300 650.000 72.300 660.000 72.300 670.000 72.700 680.000 GR 72.600 690.000 72.800 700.000 72.900 710.000 73.200 720.000 73.600 730.000 GR 73.800 740.000 74.100 750.000 74.200 757.200 .000 .000 .000 .000 NC .055 .050 .150 .000 .000 .000 .000 .000 .000 .000 xi 1.164 68.000 100.000 280.000 361.500 367.500 363.400 .000 .000 .000 GR 85.700 .000 80.000 10.000 74.100 20.000 74.000 22.600 74.000 30.000 GR GR 73,800 69.800 40.000 80.000 73.500 68.000 44.400 90.000 72.800 66.300 50.000 100.000 72.100 65.400 60.000 110.000 71.100 65.200 70.000 120.000 GR 65.300 130.000 65.300 140.000 65.300 150.000 65.300 160.000 65.300 170.000 GR 65.300 180.000 65.100 190.000 65.100 200.000 65.100 210.000 65.100 220.000 GR 65.100 230.000 65.200 240.000 65.200 250.000 65.300 260.000 65.500 270.000 GR 66.500 280.000 66.900 290.000 67.000 300.000 67.300 310.000 67.500 320.000 GR 67.700 330.000 67.800 340.000 68.100 350.000 69.000 360.000 73.900 370.000 GR 74.900 375.800 74.800 380.000 74.600 390.000 74.600 400.000 74.700 410.000 GR 74.700 420.000 74.800 430.000 74.900 440.000 75.000 450.000 75.100 460.000 GR 75.200 470.000 75.200 480.000 75.200 490.000 75.200 500.000 75.400 510.000 GR 75.400 520.000 75.600 530.000 75.700 540.000 76.100 550.000 76.300 560.000 GR 76.400 570.000 76.400 580.000 76.700 590.000 76.900 600.000 77.200 610.000 GR 77.500 620.000 77.700 630.000 77.800 632.500 .000 .000 .000 .000 X,1.236 73.000 120.000 240.000 359.100 359.600 359.200 .000 .000 .000 GR 89.600 .000 89.900 .800 89.600 4.900 88.200 10.000 83.800 18.500 GR 83.800 20.000 84.600 30.000 84.700 40.000 84.000 44.300 79.800 50.000 GR 75.800 60.000 . 75.000 63.900 75.100 70.000 74.900 80.000 74.700 90.000 GR 74.700 100.000 74.700 110.000 74.300 120.000 73.700 130.000 73.500 140.000 GR 73.200 150.000 73.000 160.000 73.100 170.000 73.200 180.000 73.300 190.000 GR 73.300 200.000 73.500 210.000 73.500 220.000 73.800 230.000 74.400 240.000 GR 75.100 250.000 76.100 260.000 77.300 270.000 79.400 280.000 79.100 285.300 GR 79.400 290.000 80.200 300.000 80.300 306.400 80.300 310.000 80.400 320.000 GR 80.300 330.000 81.200 335.700 88.700 338.700 88.800 340.000 90.000 350.000 GR 90.900 356.700 90.400 360.000 88.800 369.100 85.900 370.000 80.100 374.700 GR 80.200 380.000 80.200 390.000 80.100 400.000 80.100 410.000 80.100 420.000 GR GR 80.100 79.200 430.000 480.000 80.000 79.000 440.000 490.000 79.800 79.200 450.000 500.000 79.700 79.300 460.000 510.000 79.500 79.300 470.000 520.000 Ii GR 79.300 530.000 79.400 540.000 79.600 550.000 79.800 560.000 80.000 570.000 GR 80.100 580.000 80.000 590.000 80.400 595.100 .000 .000 .000 .000 MC .050 .040 .130 .000 .000 .000 .000 .000 .000 .000 Xl 1.313 87.000 270.000 390.000 427.700 414.200 423.600 .000 .000 .000 GR 121.600 .000 114.800 10.000 111.100 20.000 108.000 23.200 96.900 30.000 GR 87.900 40.000 83.900 46.500 83.900 50.000 83.800 51.700 83.400 53.500 GR 83.800 60.000 83.900 70.000 84.100 80.000 84.200 90.000 84.200 93.600 GR 84.100 100.000 83.800 110.000 83.500 120.000 83.600 130.000 83.600 130.700 GR 83.100 135.000 81.300 140.000 77.600 150.000 77.000 152.200 76.900 160.000 GR 76.900 170.000 76.700 180.000 76.100 190.000 75.300 200.000 75.000 210.000 GR 74.800 220.000 74.500 230.000 74.500 240.000 74.500 250.000 74.300 260.000 GR 74.300 270.000 74.000 280.000 73.800 290.000 73.600 300.000 73.400 310.000 GR 73.300 320.000 73.200 330.000 73.000 340.000 73.100 350.000 73.100 360.000 GR 73.400 370.000 73.500 380.000 73.500 390.000 73.700 400.000 73.800 410.000 GR 73.800 420.000 73.800 430.000 73.800 440.000 74.000 450.000 74.000 460.000 GR 74.200 470.000 74.300 480.000 74.500 490.000 74.700 500.000 74.900 510.000 GR 75.000 520.000 75.200 530.000 76.000 540.000 76.800 550.000 77.400 560.000 GR 77.500 562.100 77.700 570.000 78.000 580.000 78.200 590.000 78.400 600.000 GR 79.100 610.000 79.800 620.000 80.600 630.000 80.700 631.600 80.700 640.000 GR 81.200 650.000 81.700 652.200 81.800 656.100 81.800 660.000 82.100 670.000 GR 82.500 680.000 82.900 690.000 83.300 700.000 83.900 710.000 84.500 720.000 GR 85.300 730.000 85.700 735.600 .000 .000 .000 .000 .000 .000 NC .030 .060 .030 .000 .000 .000 .000 .000 .000 .000 CT 3.000 1890.000 1890.000 1890.000 .000 .000 .000 .000 .000 .000 Xl 1.403 11.000 394.900 448.900 535.000 490.000 524.000 .000 .000 .000 X3 .000 .000 .000 394.900 84.000 .000 .000 .000 .000 .000 GR 81.400 .000 81.900 44.800 81.500 68.700 80.300 86.100 82.500 106.000 GR 83.500 280.000 83.500 394.900 76.700 423.900 77.100 448.900 81.400 557.900 GR 87.200 662.400 .000 .000 .000 .000 .000 .000 .000 .000 NC .030 .040 .030 .000 .000 .000 .000 .000 .000 .000 Xl 1.420 11.000 404.300 444.700 370.000 360.000 362.000 .000 .000 .000 X3 .000 .000 .000 350.000 84.000 .000 .000 .000 .000 .000 GR 83.800 .000 84.200 33.100 83.600 66.400 82.200 156.800 83.200 236.000 GR 82.300 318.300 81.600 404.300 78.400 411.400 84.400 444.700 86.500 526.700 GR 89.900 608.000 .000 .000 .000 .000 .000 .000 .000 .000 Xl 1.520 12.000 338.800 396.900 270.000 252.000 252.000 .000 .000 .000 X3 .000 .000 .000 258.600 89.500 .000 .000 .000 .000 .000 GR 89.300 .000 88.800 30.900 88.100 67.900 88.300 165.700 89.500 258.600 GR 87.500 338.800 85.400 363.000 83.100 377.500 88.500 396.900 92.600 477.300 GR 97.600 558.500 102.400 635.300 .000 .000 .000 .000 .000 .000 CT 3.000 4207.000 3013.000 2456.000 .000 .000 .000 .000 .000 .000 MC .050 .040 .130 .000 .000 .000 .000 .000 .000 .000 Xl -1.313 87.000 270.000 390.000 427.700 414.200 423.600 .000 .000 .000 GR 121.600 .000 114.800 10.000 111.100 20.000 108.000 23.200 96.900 30.000 GR 87.900 40.000 83.900 46.500 83.900 50.000 83.800 51.700 83.400 53.500 GR 83.800 60.000 83.900 70.000 84.100 80.000 84.200 90.000 84.200 93.600 GR 84.100 100.000 83.800 110.000 83.500 120.000 83.600 130.000 83.600 130.700 GR 83.100 135.000 81.300 140.000 77.600 150.000 77.000 152.200 76.900 160.000 GR 76.900 170.000 76.700 180.000 76.100 190.000 75.300 200.000 75.000 210.000 GR 74.800 220.000 74.500 230.000 74.500 240.000 74.500 250.000 74.300 260.000 GR 74.300 270.000 74.000 280.000 73.800 290.000 73.600 300.000 73.400 310.000 GR 73.300 320.000 73.200 330.000 73.000 340.000 73.100 350.000 73.100 360.000 GR 73.400 370.000 73.500 380.000 73.500 390.000 73.700 400.000 73.800 410.000 GR 73.800 420.000 73.800 430.000 73.800 440.000 74.000 450.000 74.000 460.000 GR 74.200 470.000 74.300 480.000 74.500 490.000 74.700 500.000 74.900 510.000 GR 75.000 520.000 75.200 530.000 76.000 540.000 76.800 550.000 77.400 560.000 GR 77.500 562.100 77.700 570.000 78.000 580.000 78.200 590.000 78.400 600.000 GR 79.100 610.000 79.800 620.000 80.600 630.000 80.700 631.600 80.700 640.000 GR 81.200 650.000 81.700 652.200 81.800 656.100 81.800 660.000 82.100 670.000 GR 82.500 680.000 82.900 690.000 83.300 700.000 83.900 710.000 84.500 720.000 GR 85.300 730.000 85.700 735.600 .000 .000 .000 .000 .000 .000 CT 3.000 2597.000 1465.000 832.000 .000 .000 .000 .000 .000 .000 NC .040 .100 .060 .100 .300 .000 .000 .000 .000 .000 Xl .000 13.000 473.400 552.200 200.000 400.000 300.000 .000 .000 .000 X3 10.000 73.500 .000 .000 .000 .000 .000 .000 .000 .000 GR 79.700 .000 79.600 90.100 79.100 203.300 80.800 295.900 82.300 397.500 76.100 473.400 73.500 515.600 75.400 552.200 82.100 625.300 82.700 747.300 79.100 840.500 78.600 962.800 82.100 1084.200 .000 .000 .000 .000 .7:43:29 PAGE 11 .006 30.000 .320.000 360.100 40.000 40.000 40.000 .000 .000 .000 10.000 .000 .000 .000 .000 .000 .000 .000 .000 .000 83.400 .000 81.400 82.300 81.100 174.900 80.300 257.100 80.300 290.000 81.000 314.000 81.000 320.000 77.100 320.100 76.800 323.000 75.000 327.500 75.000 337.500 79.000 337.600 79.000 342.500 75.000 342.600 75.000 352.500 77.100 357.000 77.100 360.000 81.000 360.100 81.000 382.000 81.000 384.000 81.300 387.000 81.900 532.900 82.200 642.600 83.200 776.600 84.200 880.400 86.700 975.000 87.600 1060.000 89.300 1171.800 92.400 1308.000 99.100 1455.800 1.050 1.600 2.900 400.000 45.000 5.000 140.000 .000 75.000 75.000 .021 .000 .000 .000 110.000 110.000 110.000 .000 .000 .000 .000 .000 1.000 79.000 81.000 .000 .000 1.050 .000 .000 -8.000 314.000 81.000 81.000 314.100 82.000 81.000 320.000 82.000 81.000 .000 320.100 82.300 79.000 360.000 82.300 79.000 360.100 82.000 81.000 .000 382.000 82.000 81.000 384.000 81.000 81.000 .000 .000 .000 .023 19.000 139.500 284.700 20.000 20.000 20.000 .000 .000 .000 .000 .000 .000 150.000 81.000 220.000 81.000 .000 .000 .000 96.600 .000 91.700 35.800 79.600 75.400 79.600 100.300 78.200 139.500 76.000 157.500 75.000 172.200 75.100 206.800 78.100 284.700 79.400 381.500 79.800 491.000 79.900 604.300 82.200 714.400 83.500 836.100 85.300 961.300 85.300 1082.600 88.100 1191.700 92.400 1277.200 99.800 1353.300 .000 .000 .110 19.000 253.700 386.500 .485.000 425.000 471.000 .000 .000 .000 88.000 .000 84.900 15.800 82.000 24.900 83.600 45.800 80.500 58.700 78.300 97.600 78.700 131.200 78.900 207.800 77.300 253.700 75.800 278.900 76.600 294.700 77.300 386.500 79.100 484.000 82.600 608.100 82.000 704.600 83.500 831.300 85.300 934.600 86.700 1042.900 88.300 1118.200 .000 .000 .000 .000 .000 .000 .000 .000 .000 .000 .000 .000 07:43:29 . PACE 12 SECNO DEPTH CWSEL CRIWS WSELK EC NV HL OLOSS BANK ELEV 0 OLOB OCH QROB ALOB ACH AROB VOL TWA LEFT/RIGHT TIME VLOB VCH VROB XNL XNCH XNR WIN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST *PROF 1 CCHV= .100 CEHV= .300 *SECNO .000 3280 CROSS SECTION .00 EXTENDED 2.70 FEET 3470 ENCROACHMENT STATIONS= 270.0 562.9 TYPE 1. TARGET= -270.000 .00 4.20 8.50 .00 8.50 8.80 .30 .00 .00 4.90 4725. 2352. 1974. 399. 530. 445. 103. 0. 0. 5.00 .00 4.44 4.44 3.88 .060 .060 .060 .000 4.30 270.00 .005611 0. 0. 0. 0 0 0 .00 292.90 562.90 0 CCHV= .300 CEHV= .500 *SECNO .017 WATER EL CHANCE FROM X2 CARD 3470 ENCROACHMENT STATIONS= .0 270.0 TYPE= 1 TARGET= 269.999 3495 OVERBANK AREA ASSUMED NON-EFFECTIVE,ELLEA= 100000.00 ELREA= 8.00 .02 2.80 10.00 .00 .00 10.95 .95 3.36 .32100000.00 4725. 0. 1508. 3217. 0. 189. 416. 6. 2. 8.00 .01 .00 7.98 7.73 .060 .060 .060 .000 7.20 .00 GR GR Xl X3 GR GR GR GR GR GR SB Xl X2 81 BI 81 Xl X3 GR GR GR GR xi GR GR GR GR EJ 9 .034540 295. 295. 295. 0 *SECNO .053 3280 CROSS SECTION .05 EXTENDED 3301 HV CHANGED MORE THAN HVINS 0 0 0 .00 270.00 270.00 3.04 FEET 3470 ENCROACHMENT STATIONS= 229.4 266.6 TYPE 1 TARGET 37.200 ELENCL= 18.50 ELENCR= 18.50 .05 9.54 19.04 17.44 .00 21.64 2.60 9.86 .83 9.50 4725., 60. 4634. 31. 24. 355. 13. 10. 3. 18.50 .02 2.48 13.06 2.47 .060 .060 .060 .000 9.50 185.00 .023252 405. 365. 325. 6 17 0 .00 105.00 290.00 0 07:43:29 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS BANK ELEV o GLOB OCH OROB ALOB ACH AROB VOL TWA LEFT/RIGHT TIME VLOB VCH VROB XNL XNCH XNR WIN ELMIN SSTA SLOPE XLOBL XLCH XLOBR [TRIAL IDC ICONT CORAR TOPWID ENDST *SECNO .054 4575 CRITICAL DEPTH ASSUMED BELOW ELLC OF 17.500 EGLC= 21.680 EGC= 22.438 WSEL= 19.763 4575 CRITICAL DEPTH ASSUMED BELOW ELLC OF 17.500 EGLC= 21.680 EGC 21.686 WSEL= 17.392 3280 CROSS SECTION .05 EXTENDED 2.40 FEET 3301 HV CHANGED MORE THAN HVINS 3370 NORMAL BRIDGE,NRD= 14 MIN ELTRD 16.00 MAX ELLC= 17.50 3470 ENCROACHMENT STATIONS= 229.4 266.6 TYPE= 1 TARGET 37.200 ELENCL= 18.50 ELENCR= 18.50 .05 8.90 18.40 17.50 .00 22.58 4.18 .15 .79 9.50 4725. 0. 4725. 0. 0. 288. 0. 10. 3. 18.50 .02 .00 16.41 .00 .060 .017 .060 .000 9.50 229.40 .010953 10. 10. 10. 8 18 0 -43.18 37.20 266.60 0 *SECNO .063 3280 CROSS SECTION .06 EXTENDED 7.12 FEET 3301 HV CHANGED MORE THAN HVINS 3370 NORMAL BRIDGE,NRD= 14 MIN ELTRD= 16.00 MAX ELLC 17.80 3470 ENCROACHMENT STATIONS= 229.4 266.6 TYPE= 1 TARGET= 37.200 ELENCL= 18.80 ELENCR= 18.80 .06 13.32 23.12 .00 .00 24.08 .96 .53 .97 9.80 4725. 578. 3857. 290. 192. 449. 101. 11. 4. 18.80 .02 3.02 8.60 2.87 .060 .017 .060 .000 9.80 185.00 .002387 120. 120. 120. 5 0 0 -46.81 105.00 290.00 0 *SECNO .064 3280 CROSS SECTION .06 EXTENDED 7.58 FEET 07:43:29 PAGE 13 PAGE 14 10 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS BANK ELEV 0 QLOB OCH OROB ALOB ACH AROB VOL TWA LEFT/RIGHT TIME VLOB VCH VROB XNL XNCH XNR WIN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 3470 ENCROACHMENT STATIONS= 229.4 266.6 TYPE= 1 TARGET= 37.200 ELENCL= 18.80 ELENCR= 18.80 .06 13.77 23.57 .00 .00 24.21 .63 .03 .10 9.80 4725. 746. 3607. 372. 212. 513. 112. 11. 4. 18.80 .02 3.52 7.04 3.33 .060 .050 .060 .000 9.80 185.00 .002871 10. 10. 10. 2 0 0 .00 105.00 290.00 0 CCHV= .100 CEHV= .300 *SECNO .098 3301 HV CHANGED MORE THAN HVINS 3470 ENCROACHMENT STATIONS= 265.1 844.1 TYPE= 1 TARGET= -265.100 .10 11.61 24.31 .00 .00 24.33 .02 .06 .06 17.20 4725. 1453. 716. 2556. 1233. 888. 1994. 19. 5. 14.00 .06 1.18 .81 1.28 .060 .120 .060 .000 12.70 265.10 .000176 135. 140. 130. 2 0 0 .00 572.46 837.56 *SECNO .000 3265 DIVIDED FLOW .00 5.96 79.46 .00 .00 79.85 .39 -.46 .09 76.10 2597. 294. 2069. 234. 87. 380. 178. 238. 67. 75.40 .60 3.40 5.45 1.31 .040 .060 .100 .000 73.50 122.99 .005963 200. 300. 400. 0 0 0 .00 424.87 992.45 0 07:43:29 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS BANK ELEV 0 OLOB OCH OROB ALOB ACH AROB VOL TWA LEFT/RIGHT TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDSI *SECNO .006 3685 20 TRIALS ATTEMPTED WSEL,CWSEL 3693 PROBABLE MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED .01 6.74 81.74 81.74 .00 82.36 .62 .34 .07 81.00 2597. 893. 1662. 42. 211. 229. 43. 238. 68. 81.00 .60 4.23 7.27 .97 .040 .060 .100 .000 75.00 68.28 .013282 40. 40. 40. 20 12 0 .00 425.85 494.14 0 SPECIAL BRIDGE SS XK XKOR COFO RDLEN BWC BWP BAREA SS ELCHU ELCHD 1.05 1.60 2.90 400.00 45.00 5.00 140.00 .00 75.00 *SECNO .021 3280 CROSS SECTION - .02 EXTENDED 1.61 FEET 3301 HV CHANGED MORE THAN HVINS PRESSURE AND WEIR FLOW : EGPRS EGLWC H3 QWEIR OPR BAREA TRAPEZOID ELLC ELTRD ill PAGE 20 I I . AREA 90.29 82.56 .20 990. 1610. 140. 160. 81.00 I . .02 10.01 85.01 .00 .00 85.03 .02 2.67 .00 81.00 2597. 1569. 439. 589. 1200. 360. 1386. 242. 81.00 .63 1.31 1.22 .43 .040 . .060 .100 .000 75.00 .00 .000204 110. 110. 110. 2 0 3 .00 910.97 910.97 I 0 I - *SECNO .023 3470 ENCROACHMENT STATIONS= 150.0 220.0 TYPE= 1 TARGET= 70.000 ELENCL= 81.00 ELENCR= 81.00 I .02 10.02 85.02 .00 .00 -85.03 .02 .00 .00 81.00 2597. 380. 1215. 1003. 287. - 978. 2003. 244. 81.00 .63 1.32 1.24 .50 .040 .060 .100 .000 75.00 60.54 .000215 20. 20. 20. 2 0 0 .00 881.03 941.57 I 1- 07:43:29 PAGE 21 I SECNO DEPTH CWSEL CRIWS WSELK EG * HV HL OLOSS BANK ELEV 0 GLOB QCH OROB ALOB ACH AROB VOL TWA LEFT/RIGHT TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST *SECNO .110 .11 9.27 85.07 .00 .00 85.08 .01 .04 .00 77.30 I 2597. 1229. 828. 540. 1343. 1100. 1825. 283. 79. 77.30 .81 .92 .75 .30 .040 .060 .100 .000 75.80 14.94 - .000055 485. 471. 425. 2 0 0 .00 906.42 921.36 - - I 07:43:29 PAGE 22 ** * *** * *** * ***** ************ *** ** **** * HEC2 RELEASE DATED NOV 76 UPDATED MAY 1984 - I ERROR CORR - 01,02,03,04,05,06 MODIFICATION - 50,51,52,53,54,55,56 IBM-PC-XT VERSION AUGUST 1985 - ** *** * **** **** * **** ******* * ** *** **** ** *********** * I Ti THIS IS A SUBCRITICAL RUN FOR ENCINITAS CREEK EXISTING CONDITIONS T2 FOR EVALUATION OF DRAINAGE CAPACITIES OF BRIDGES AND CULVERTS T3 FOR DISCHARGES WITH DETENTION BASINS A, B AND C I Ji ICHECK IWO NIWV IDIR STRT METRIC HVINS 0 WSEL FO 0. 3. 0. 0. .000000 .00 .0 0. 8.500 .000 - I J2 NPROF [PLOT PRFVS XSECV XSECH FN ALLDC 18W CHNIM ITRACE 2.000 .000 -1.000 .000 .000 .000 .000 .000 .000 .000 07:43:29 PAGE 23 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS BANK ELEV I O GLOB OCH QROB ALOB ACH AROB VOL TWA LEFT/RIGHT TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA -SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST I - - I - 1. *PROF 2 CCHV= .100 CEHV= .300 *SECNO .000 3280 CROSS SECTION .00 EXTENDED 2.70 FEET 3470 ENCROACHMENT STATIONS 270.0 562.9 TYPE= 1 TARGET= -270.000 .00 4.20 8.50 .00 8.50 8.66 .16 .00 .00 4.90 3450. 1717. 1442. 291. 530. 445. 103. 0. 0. 5.00 .00 3.24 3.24 2.83 .060 .060 .060 .000 4.30 270.00 .002992 0. 0. 0. 0 0 0 .00 292.90 562.90 0 CCHV= .300 CEHV= .500 *SECNO .017 WATER EL CHANGE FROM X2 CARD 3470 ENCROACHMENT STATIONS= .0 270.0 TYPE= 1 TARGET= 269.999 3495 OVERBANK AREA ASSUMED NON-EFFECTIVEELLEA= 100000.00 ELREA= 8.00 .02 2.80 10.00 .00 .00 10.51, .51 1.79 .17100000.00 3450. 0. 1101. 2349. 0. 189. 416. 6. 2. 8.00 .01 .00 5.83 5.65 .060 .060 .060 .000 7.20 .00 .018415 295. 295. 295. 0 0 0 .00 270.00 270.00 0 *SECNO .053 3280 CROSS SECTION .05 EXTENDED .90 FEET 3301 HV CHANGED MORE THAN HVINS 3470 ENCROACHMENT STATIONS= ELENCL= 18.50 ELENCR= .05 7.40 16.90 3450. 0. 3450. .02 .00 12.54 .027798 405. 365. 07:43:29 229.4 266.6 TYPE= 18.50 .00 .00 19.34 0. 0. 275. .00 .060 .060 325. 3 0 1 TARGET= 37.200 2.44 7.87 .97 9.50 0. 9. 3. 18.50 .060 .000 9.50 229.40 0 .00 37.20 266.60 PAGE 24 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL GLOSS BANK ELEV 0 GLOB QCH OROB ALOB ACH AROB VOL TWA LEFT/RIGHT TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST *SECNO .054 3280 CROSS SECTION .05 EXTENDED .92 FEET 3370 NORMAL BRIDGE,NRD= 14 MIN ELTRD= 16.00 MAX ELLC= 17.50 3470 ENCROACHMENT STATIONS= 229.4 266.6 TYPE= ELENCL= 18.50 ELENCR= 18.50 .05 7.41 16.91 .00 .00 19.50 3450. 0. 3450. 0. 0. 267. .02 .00 12.91 .00 .060 .017 .004426 10. 10. 10. 2 0 0 *SECNO .063 3280 CROSS SECTION .06 EXTENDED 1.99 FEET 1 TARGET= 37.200 2.59 .09 .07 9.50 0. 9. 3. 18.50 .060 .000 9.50 229.40 0 -8.74 37.20 266.60 3370 NORMAL BRIDGE,NRD= 14 MIN ELTRD= 16.00 MAX ELLC= 17.80 13 3470 ENCROACHMENT STATIONS= 229.4 266.6 TYPE= 1 TARGET= 37.200 ELENCL 18.80 ELENCR 18.80 .06 8.19 17.99 .00 .00 20.22 2.23 .61 .11 9.80 3450. 0. 3450. 0. 0. 288. 0. 10. 3. 18.80 .03 .00 11.98 .00 .060 .017 .060 .000 9.80 229.40 .005840 120. 120. 120. 14 0 0 -16.72 37.20 266.60 0 *SECNO .064 3280 CROSS SECTION .06 EXTENDED 2.85 FEET 3301 NV CHANGED MORE THAN HVINS 3470 ENCROACHMENT STATIONS= 229.4 266.6 TYPE= 1 TARGET= 37.200 ELENCL 18.80 ELENCR= 18.80 .06 9.05 18.85 16.22 .00 20.48 1.63 .08 .18 9.80 3450. 1. 3449. 0. 2. 337. 1. 10. 3. 18.80 .03 .36 10.24 .36 .060 .050 .060 .000 9.80 185.00 .010648 10. 10. 10. 6 15 0 .00 105.00 290.00 0 07:43:29 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS BANK ELEV 0 OLDS OCH QROB ALOB ACH AROB VOL TWA LEFT/RIGHT TIME VLOB VCH VROB XNL XNCH XNR WIN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST CCHV= .100 CEHV= .300 *SECNO .098 3301 NV CHANGED MORE THAN HVINS 3470 ENCROACHMENT STATIONS= 265.1 844.1 TYPE= 1 TARGET= -265.100 .10 8.12 20.82 .00 .00 20.86 .04 .22 .16 17.20 3450. 854. 716. 1880. 604. 606. 1021. 14. 4. 14.00 .05 1.41 1.18 1.84 .060 .120 .060 .000 12.70 265.10 .000629 135. 140. 130. 3 0 0 .00 500.61 765.71 0 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS BANK ELEV 0 OLDS QCH OROB ALOB ACH AROB VOL TWA LEFT/RIGHT TIME VLOB VCH VROB XNL XNCH XNR WIN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST CCHV= .100 CEHV= .300 *SECNO .000 3265 DIVIDED FLOW .00 5.19 78.69 .00 .00 78.91 .23 .39 .04 76.10 1465. 114. 1273. 77. 41. 319. 60. 188. 62. 75.40 .65 2.79 3.99 1.29 .040 .060 .100 .000 73.50 441.74 .004031 200. 300. 400. 2 0 0 .00 170.48 965.80 0 *SECNO .006 3301 NV CHANGED MORE THAN HVINS 3685 20 TRIALS ATTEMPTED WSEL,CWSEL 3693 PROBABLE MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 3495 OVERBANK AREA ASSUMED NON-EFFECTIVE,ELLEA= 81.00 ELREA= 81.00 14 PAGE 25 .01 4.47 79.47 79.47 1465. 0. 1465. 0. .65 .00 10.63 .00 .051881 40. 40. 40. 0 .00 81.23 1.75 .39 .46 81.00 0. 138. 0. 188. 62. 81.00 .040 .060 .100 .000 75.00 320.04 20 15 0 .00 40.02 360.06 SPECIAL BRIDGE SB XK XKOR, COFO RDLEW BWC BWP BAREA SS ELCHU ELCHD 1.05 1.60 2.90 400.00 45.00 5.00 140.00 .00 75.00 75.00 *SECNO .021 PRESS FLOW BECAUSE EGLWC OF 83.05 EXCEEDS 1.5 DEPTH 3301 HV CHANGED MORE THAN HVINS PRESSURE AND WEIR FLOW 07:43:29 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS BANK ELEV 0 GLOB OCH OROB ALOB ACH AROB VOL TWA LEFT/RIGHT TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST EGPRS EGLWC H3 OWEIR OPR BAREA TRAPEZOID ELLC ELTRD AREA 82.19 83.05 1.83 8. 1454. 140. 160. 79.00 81.00 .02 7.03 82.03 .00 .00 82.15 .12 .93 .00 81.00 1465. 618. 799. 48. 285. 240. 93. 189. 63. 81.00 .66 2.16 3.33 .52 .040 .060 .100 .000 75.00 56.45 .002606 110. 110. 110. 2 0 3 .00 523.35 579.79 0 *SECNO .023 3470 ENCROACHMENT STATIONS= 150.0 220.0 TYPE= 1 TARGET= 70.000 ELENCL= 81.00 ELENCR= 81.00 .02 7.14 82.14 .00 .00 82.19 .05 .03 .01 81.00 1465. 105. 1134. 226. 76. 561. 425. 189. 63. 81.00 .66 1.39 2.02 .53 .040 .060 .100 .000 75.00 71.17 .001194 20. 20. 20. 2 0 0 .00 638.01 709.18 0 *SECNO .110 3265 DIVIDED FLOW .11 6.51 82.31 .00 .00 82.32 .01 .12 .00 77.30 1465. 660. 603. 202. 710. 733. 594. 206. 70. 77.30 .83 .93 .82 .34 .040 .060 .100 .000 75.80 23.94 .000113 485. 471. 425. 2 0 0 .00 626.36 730.41 0 07:43:29 HEC2 RELEASE DATED NOV 76 UPDATED MAY 1984 ERROR CORR - 01,02,03,04,05,06 MODIFICATION - 50,51,52,53,54,55,56 !BM-PC-XT VERSION AUGUST 1985 ** ** * * * ***** ***** * *** ****** ********** ** ** * ** ***** * km PAGE 31 PAGE 32 Ti THIS IS A SUBCRITICAL RUN FOR ENCINITAS CREEK EXISTING CONDITIONS 12 FOR EVALUATION OF DRAINAGE CAPACITIES OF BRIDGES AND CULVERTS T3 FOR DISCHARGES WITH DETENTION BASINS A, B, C AND D Ji ICHECK INQ NINV IDIR STRT METRIC HVINS Q WSEL FO 0. 4. 0. 0. .000000 .00 .0 0. 8.500 .000 J2 NPROF IPLOT PRFVS XSECV XSECH FM ALLDC 18W CHNIM ITRACE 15.000 .000 -1.000 .000 .000 .000 .000 .000 .000 .000 07:43:29 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS BANK ELEV Q GLOB OCR OROB ALOB ACH AROB VOL TWA LEFT/RIGHT TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST *PROF 3 CCHV= .100 CEHV= .300 *SECNO .000 3280 CROSS SECTION .00 EXTENDED 2.70 FEET 3470 ENCROACHMENT STATIONS= 270.0 562.9 TYPE= 1 TARGET= -270.000 .00 4.20 8.50 .00 8.50 8.62 .12 .00 .00 4.90 2926. 1456. 1223. 247. 530. 445. 103. 0. 0. 5.00 .00 2.75 2.75 2.40 .060 .060 .060 .000 4.30 270.00 .002152 0. 0. 0. 0 0 0 .00 292.90 562.90 0 CCHV= .300 CEHV= .500 *SECNO .017 WATER EL CHANGE FROM X2 CARD 3470 ENCROACHMENT STATIONS .0 270.0 TYPE= 1 TARGET= 269.999 3495 OVERBANK AREA ASSUMED NON-EFFECTIVE,ELLEA= 100000.00 ELREA= 8.00 .02 2.80 10.00 .00 .00 10.36 .36 1.29 .12100000.00 2926. 0. 934. 1992. 0. 189. 416. 6. 2. 8.00 .02 .00 4.94 4.79 .060 .060 .060 .000 7.20 .00 .013246 295. 295. 295. 0 0 0 .00 270.00 270.00 0 *SECNO .053 3301 HV CHANGED MORE THAN HVINS 3470 ENCROACHMENT STATIONS= 229.4 266.6 TYPE= 1 TARGET= 37.200 ELENCL 18.50 ELENCR 18.50 .05 6.34 15.84 .00 .00 18.23 2.39 6.86 1.01 9.50 2926. 0. 2926. 0. 0. 236. 0. 9. 3. 18.50 .02 .00 12.40 .00 .060 .060 .060 .000 9.50 229.40 .031557 405. 365. 325. 4 0 0 .00 37.20 266.60 0 *SECNO .054 07:43:29 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS BANK ELEV 0 GLOB QCH OROB ALOB ACH AROB VOL TWA LEFT/RIGHT TIME VLOB VCH VROB XNL XNCH XNR WIN ELMIN SSTA PAGE 33 PAGE 34 16 SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 3370 NORMAL BRIDGE,NRD= 14 MIN ELTRD= 16.00 MAX ELLC 17.50 3470 ENCROACHMENT STATIONS= 229.4 266.6 TYPE= 1 TARGET= 37.200 ELENCL= 18.50 ELENCR= 18.50 .05 6.38 15.88 .00 .00 18.39 2.51 .10 .06 9.50 2926. 0. 2926. 0. 0. 230. 0. 9. 3. 18.50 .03 .00 12.72 .00 .060 .017 .060 .000 9.50 229.40 .004712 10. 10. 10. 3 0 0 -7.26 37.20 266.60 0 *SECNO .063 3280 CROSS SECTION .06 EXTENDED 1.16 FEET 3301 HV CHANGED MORE THAN HVINS 3370 NORMAL BRIDGE,NRD= 14 MIN ELTRD= 16.00 MAX ELLC= 17.80 3470 ENCROACHMENT STATIONS= 229.4 266.6 TYPE= 1 TARGET= 37.200 ELENCL= 18.80 ELENCR= 18.80 .06 7.35 17.15 .00 .00 19.04 1.89 .47 .19 9.80 2926. 0. 2926. 0. 0. 265. 0. 10. 3. 18.80 .03 .00 11.04 .00 .060 .017 .060 .000 9.80 229.40 .003247 120. 120. 120. 6 0 0 -8.65 37.20 266.60 0 *SECNO .064 3280 CROSS SECTION .06 EXTENDED 1.63 FEET 3470 ENCROACHMENT STATIONS= 229.4 266.6 TYPE= 1 TARGET= 37.200 ELENCL= 18.80 ELENCR= 18.80 .06 7.83 17.63 .00 .00 19.20 1.57 .06 .10 9.80 2926. 0. 2926. 0. 0. 291. 0. 10. 3. 18.80 .03 .00 10.05 .00 .060 .050 .060 .000 9.80 229.40 .011752 10. 10. 10. 3 0 0 .00 37.20 266.60 0 07:43:29 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS BANK ELEV 0 OLOB OCH GROB ALOB ACH AROB VOL TWA LEFT/RIGHT TIME VLOB VCH VROB XML XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST CCHV= .100 CEHV .300 *SECNO .098 3301 HV CHANGED MORE THAN HVINS 3470 ENCROACHMENT STATIONS= 265.1 844.1 TYPE= 1 TARGET= -265.100 .10 6.95 19.65 .00 .00 19.70 .05 .36 .15 17.20 2926. 573. 718. 1634. 395. 511. 755. 13. 4. 14.00 .05 1.45 1.41 2.16 .060 .120 .060 .000 12.70 269.22 .001116 135. 140. 130. 3 0 0 .00 471.85 741.07 0 *SECNO .129 .13 4.02 19.82 .00 .00 20.16 .34 .37 .09 16.90 2926. 1278. 440. 1208. 225. 207. 291. 17. 5. 17.20 .06 5.67 2.13 4.16 .060 .140 .060 .000 15.80 335.17 .009483 160. 150. 145. 3 0 0 .00 281.15 616.31 0 PAGE 35 17 *SECNO .156 .16 5.22 21.82 .00 .00 22.35 .53 2.13 .06 19.20 2926. 1102. 1157. 666. 151. 249. 135. 19. 6. 19.00 .07 7.32 4.65 4.92 .060 .140 .060 .000 16.60 164.96 .028396 140. 140. 140. 3 0 0 .00 265.93 430.89 0 *SECNO .182 .18 4.36 25.46 .00 .00 25.93 .47 3.57 .01 22.60 2926. 468. 967. 1491. 79. 269. 235. 21. 7. 22.40 .07 5.92 3.59 6.34 .060 .140 .060 .000 21.10 171.75 .022804 140. 141. 141. 4 0 0 .00 274.74 446.49 0 *SECNO .202 3470 ENCROACHMENT STATIONS= 140.0 555.1 TYPE= 1 TARGET -140.000 .20 3.86 28.16 .00 .00 28.72 .56 2.76 .03 25.70 2926. 683. 680. 1563. 96. 207. 247. 22. 8. 25.30 .08 7.11 3.29 6.34 .060 .150 .060 .000 24.30 153.82 .026192 110. 112. 115. 2 0 0 .00 282.70 436.52 0 07:43:29 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS BANK ELEV a OLOB OCH OROB ALOB ACH AROB VOL TWA LEFT/RIGHT TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST *SECNO .240 .24 4.34 32.04 .00 .00 32.29 .25 3.54 .03 29.10 2926. 880. 757. 1289. 194. 293. 296. 25. 9. 29.50 .09 4.53 2.59 4.35 .060 .150 .060 .000 27.70 81.28 .012122 210. 205. 205. 4 0 0 .00 329.88 411.17 0 *SECNO .277 .28 3.37 35.27 .00 .00 35.80 .52 3.43 .08 33.10 2926. 1240. 502. 1184. 205. 158. 185. 28. 11. 33.00 .10 6.05 3.18 6.38 .060 .150 .060 .000 31.90 93.22 .028299 193. 197. 191. 3 0 0 .00 292.14 385.35 0 *SECNO .310 .31 3.75 38.15 .00 .00 38.42 .27 2.60 .03 34.80 2926. 1530. 428. 969. 325. 209. 250. 31. 12. 35.00 .11 4.71 2.04 3.87 .060 .150 .060 .000 34.40 88.58 .008029 190. 190. 190. 3 0 0 .00 315.34 403.92 0 *SECNO .356 3470 ENCROACHMENT STATIONS= .0 400.0 TYPE= 1 TARGET= 399.999 .36 4.48 40.38 .00 .00 40.66 .28 2.23 .00 36.70 2926. 1932. 801. 193. 400. 319. 57. 36. 14. 38.50 .13 4.83 2.51 3.36 .060 .150 .060 .000 35.90 106.22 .010238 245. 250. 250. 4 0 0 .00 283.30 389.52 0 *SECNO .401 .40 3.76 42.66 .00 .00 42.91 .24 2.25 .00 39.40 2926. 1501. 607. 818. 346. 283. 192. 40. 15. 39.40 .15 4.34 2.14 4.25 .060 .150 .060 .000 38.90 119.20 .008687 239. 239. 239. 2 0 0 .00 307.71 426.90 0 *SECNO .451 .45 4.66 44.86 .00 .00 45.14 .28 2.22 .01 42.30 2926. 2198. 709. 19. 471. 284. 8. 45. 17. 42.80 .17 4.67 2.50 2.33 .060 .130 .060 .000 40.20 271.38 .008874 260. 245. 235. 2 0 0 .00 266.55 537.93 07:43:29 PAGE 36 PAGE 37 18 SECNO DEPTH CWSEL CRIWS WSELK EG NV HL OLOSS BANK ELEV 0 GLOB OCH OROB ALOB ACH AROB VOL TWA LEFT/RIGHT TIME VLOB VCH VROB XNL XNCH XNR WIN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST *SECNO .522 .52 4.52 47.62 .00 .00 47.81 .19 2.66 .01 44.60 2926. 513. 505. 1908. 210. 265. 474. 52. 20. 43.90 .20 2.44 1.91 4.03 .060 .140 .060 .000 43.10 78.26 .005336 390. 392. 396. 3 0 0 .00 466.09 544.35 0 *SECNO .615 3470 ENCROACHMENT STATIONS= .0 569.8 TYPE= 1 TARGET 569.799 .62 4.26 51.36 .00 .00 51.69 .33 3.84 .04 48.00 2926. 1363. 634. 929. 263. 234. 196. 62. 24. 48.30 .23 5.19 2.70 4.73 .060 .140 .060 .000 47.10 305.46 .011418 504. 511. 514. 2 0 0 .00 257.78 563.24 0 *SECNO .678 3470 ENCROACHMENT STATIONS= .0 513.6 TYPE= 1 TARGET= 513.599 .68 4.35 54.55 .00 .00 54.87 .32 3.17 .00 52.20 2926. 138. 529. 2259. 45. 245. 453. 68. 26. 51.10 .25 3.06 2.16 4.98 .060 .140 .060 .000 50.20 248.65 .007778 336. 341. 341. 3 0 0 .00 239.95 488.60 U *SECNO .780 .78 4.07 59.47 .00 .00 59.75 .28 4.88 .00 56.60 2926. 1221. 592. 1112. 263. 235. 251. 77. 30. 56.40 .29 4.64 2.52 4.43 .060 .130 .060 .000 55.40 205.46 .009694 554. 562. 568. 3 0 0 .00 313.12 518.58 0 *SECNO 1.313 1.31 4.98 77.98 .00 .00 78.05 .07 1.05 .05 74.30 2456. 526. 485. 1445. 306. 546. 584. 139. 51. 73.50 .57 1.72 .89 2.47 .050 .130 .040 .000 73.00 148.95 .000803 428. 424. 414. 4 0 0 .00 430.65 579.60 0 07:43:29 SECNO DEPTH CWSEL CRIWS WSELK EG HV ML OLOSS BANK ELEV 0 GLOB QCH GRUB ALUB ACH AROB VOL TWA LEFT/RIGHT TIME VLOB VCH VROB XNL XNCH XNR WIN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST PAGE 39 *SECNO 1.403 3301 MV CHANGED MORE THAN HVINS 3685 20 TRIALS ATTEMPTED WSEL,CWSEL 3693 PROBABLE MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 3470 ENCROACHMENT STATIONS= 394.9 ELENCL= 84.00 ELENCR= 100000.00 1.40 4.00 80.70 80.70 1890. 0. 1305. 585. .58 .00 10.11 3.57 .009489 535. 524. 490. 0 *SECNO 1.420 3470 ENCROACHMENT STATIONS= 350.0 662.4 TYPE= 1 TARGET= -394.900 608.0 TYPE= 1 TARGET= -350.000 .00 81.86 1.16 .86 .33 83.50 0; 129. 164. 150. 54. 77.10 030 .030 .060 .000 76.70 406.85 20 16 0 .00 133.24 540.10 19 ELENCL= 84.00 ELENCR= 100000.00 1.42 5.57 83.97 .00 .00 85.05 1.08 3.19 .01 81.60 1890. 848. 1042. 0. 117. 114. 0. 152. 55. 84.40 .60 7.27 9.11 .00 .030 .030 .040 .000 78.40 350.00 .008122 370. 362. 360. 4 0 0 .00 92.32 442.32 0 *SECNO 1.520 3685 20 TRIALS ATTEMPTED WSEL,CWSEL 3693 PROBABLE MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 3470 ENCROACHMENT STATIONS= 258.6 635.3 TYPE= 1 TARGET -258.600 ELENCL= 89.50 ELENCR= 100000.00 1.52 5.89 88.99 88.99 .00 90.17 1.18 1.92 .03 87.50 1890. 151. 1736. 3. 45. 192. 2. 153. 56. 88.50 .60 3.38 9.03 1.21 .030 .030 .040 .000 83.10 278.89 .006886 270. 252. 252. 20 10 0 .00 127.70 406.59 0 . *SECNO -1.313 START TRIB COMP -1.313 1.313 77.978 -1.31 4.98 77.98 .00 .00 78.05 .07 .00 .00 74.30 2456. 526. 485. 1445. 305. 544. 582. 161. 58. 73.50 .66 1.72 .89 2.48 .050 .130 .040 .000 ThOO 148.98 .000810 428. 424. 414. 0 0 0 .00 430.29 579.27 0 1 - - 07:43:29 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS BANK ELEV 0 QLOB OCH OROB ALOB ACH AROB VOL TWA LEFT/RIGHT TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST CCHV= 100 CEHV= .300 *SECNO .000 .00 4.77 78.27 .00 .00 78.37 .10 .31 .01 76.10 832. 50. 744. 38. 29. 286. 45. 168. 60. 75.40 .70 1.74 2.60 .84 .040 .060 .100 .000 7350 446.84 .001978 200. 300. 400. 2 0 0 .00 136.68 583.51 0 *SECNO .006 3265 DIVIDED FLOW 3301 HV CHANGED MORE THAN HVINS 3685 20 TRIALS ATTEMPTED WSEL,CWSEL 3693 PROBABLE MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 3495 OVERBANK AREA ASSUMED NON-EFFECTIVE,ELLEA= 81.00 ELREA= 81.00 .01 3.19 78.19 78.19 .00 79.50 1.31 .22 .36 81.00 832. 0. 832. 0. 0. 91. 0. 168. - 60. 81.00 .70 .00 9.18 .00 .040 .060 .100 .000 75.00 320.07 .052736 40. 40. 40. 20 14 0 .00 35.02 360.03 0 SPECIAL BRIDGE XKUK COFQ ROLEN BWC BWP BAREA SS ELCHU ELCHD 1.05 1.60 2.90 400.00 45.00 5.00 140.00 .00 75.00 75.00 *SECNO .021 3301 HV CHANGED MORE THAN HVINS 20 PAGE 40 CLASS A LOW FLOW 3420 BRIDGE W.S.= 77.90 BRIDGE VELOCITY=, 7.18 CALCULATED CHANNEL AREA=, 116. 12-20-89 07:43:29 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS BANK ELEV a OLOB OCH OROB ALOB ACH AROB VOL TWA LEFT/RIGHT TIME VLOB VCH VROB XNL XNCH XNR WIN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST EGPRS EGLWC H3 OWEIR QLOW BAREA TRAPEZOID ELLC ELTRD AREA 79.07 80.13 1.42 0. 832. 140. 160. 79.00 81.00 .02 4.61 79.61 .00 .00 80.13 .52 .63 .00 81.00 832. 0. 832. 0. 0. 143. 0. 168. 60. 81.00 .70 .00 5.80 .00 .000 .060 .000 .000 75.00 320.04 .014772 110. 110. 110. 0 0 0 .00 40.03 360.06 0 *SECNO .023 3470 ENCROACHMENT STATIONS= 150.0 220.0 TYPE= 1 TARGET 70.000 ELENCL= 81.00 ELENCR= 81.00 .02 5.15 80.15 .00 .00 80.24 .10 .07 .04 81.00 832. 0. 832. 0. 0. 336. 0. 168. 61. 81.00 .71 .00 2.48 .00 .040 .060 .100 .000 75.00 150.00 .001429 20. 20. 20. 2 0 0 .00 70.00 220.00 0 *SECNO .110 .11 4.66 80.46 .00 .00 80.48 .01 .22 .01 77.30 832. 296. 443. 93. 343. 489. 254. 176. 63. 77.30 .86 .86 .91 .37 .040 .060 .100 .000 75.80 59.33 .000236 485. 471. 425. 4 0 0 .00 473.04 532.37 0 07:43:29 PAGE 41 PAGE 42 HEC2 RELEASE DATED NOV 76 UPDATED MAY 1984 ERROR CORR - 01,02,03,04,05,06 MODIFICATION - 50,51,52,53,54,55,56 IBM-PC-XT VERSION AUGUST 1985 ** * **** * ******* **** *** ** ************* *** * SUMMARY PRINTOUT TABLE 150 SECNO XLCH ELTRD ELLC ELMIN a CWSEL CRIWS EG 10K*S VCH AREA .01K .000 .00 .00 .00 4.30 4725.00 8.50 .00 8.80 56.11 4.44 1077.33 630.77 .000 .00 .00 .00 4.30 3450.00 8.50 .00 8.66 29.92 3.24 1077.33 630.77 .000 .00 .00 .00 4.30 2926.00 8.50 .00 8.62 21.52 2.75 1077.33 630.77 .017 295.00 .00 .00 7.20 4725.00 10.00 .00 10.95 345.40 7.98 604.99 254.24 .017 295.00 .00 .00 7.20 3450.00 10.00 .00 10.51 184.15 5.83 604.99 254.24 .017 295.00 .00 .00 7.20 2926.00 10.00 .00 10.36 132.46 4.94 604.99 254.24 .053 365.00 .00 .00 9.50 4725.00 19.04 17.44 21.64 232.52 13.06 391.50 309.87 21 I I .053 365.00 .00 .00 9.50 3450.00 16.90 .00 19.34 277.98 12.54 275.12 206.93 .053 365.00 .00 .00 9.50 2926.00 15.84 .00 18.23 315.57 12.40 235.99 164.71 .054 10.00 16.00 17.50 9.50 4725.00 18.40 17.50 22.58 109.53 16.41 288.00 451.48 I .054 10.00 16.00 17.50 9.50 3450.00 16.91 .00 19.50 44.26 12.91 267.15 518.58 .054 10.00 16.00 17.50 9.50 2926.00 15.88 .00 18.39 47.12 12.72 230.02 426.26 .063 120.00 16.00 17.80 9.80 4725.00 23.12 .00 24.08 23.87 8.60 741.48 967.09 I .063 120.00 16.00 17.80 9.80 3450.00 17.99 .00 20.22 58.40 11.98 288.00 451.46 .063 120.00 16.00 17.80 9.80 2926.00 17.15 .00 19.04 32.47 11.04 265.15 513.53 I .064 .064 10.00 10.00 .00 .00 .00 .00 9.80 9.80 4725.00 3450.00 23.57 18.85 .00 16.22 24.21 20.48 28.71 106.48 7.04 10.24 836.67 340.38 881.88 334.34 .064 10.00 .00 .00 9.80 2926.00 17.63 .00 19.20 117.52 10.05 291.15 269.91 .098 140.00 .00 .00 12.70 4725.00 24.31 .00 24.33 1.76 .81 4114.47 3560.94 .098 140.00 .00 .00 12.70 3450.00 20.82 .00 20.86 6.29 1.18 2230.57 1375.55 I .098 140.00 .00 .00 12.70 2926.00 19.65 .00 19.70 11.16 1.41 1661.16 876.03 .129 150.00 .00 .00 15.80 4725.00 24.31 .00 24.40 8.21 1.16 2212.56 1648.60 .129 150.00 .00 .00 15.80 3450.00 20.89 .00 21.11 43.57 1.77 1035.97 522.69 I .129 150.00 .00 .00 15.80 2926.00 19.82 .00 20.16 94.83 2.13 722.55 300.47 I 07:43:29 PAGE 43 SECNO XLCH ELTRD ELLC ELMIN 0 CWSEL CRIWS EG 1OK*S VCH AREA .01K I .156 140.00 .00 .00 16.60 4725.00 24.44 .00 24.66 42.01 2.47 1369.04 728.97 .156 140.00 .00 .00 16.60 3450.00 21.90 .00 22.58 350.67 5.23 556.73 184.23 .156 140.00 .00 .00 16.60 2926.00 21.82 .00 22.35 283.96 4.65 534.94 173.64 I * 182 14070 00 00 2110 472500 25.56 25.56 26.68 514.87 5.51 612.18 208.23 .182 140.70 .00 .00 21.10 3450.00 25.79 .00 26.27 201.57 3.60 677.82 243.00 .182 140.70 .00 .00 21.10 2926.00 25.46 .00 25.93 228.04 3.59 583.42 193.76 I .202 112.00 .00 .00 24.30 4725.00 29.24 .00 29.77 164.35 3.21 886.23 368.56 .202 112.00 .00 .00 24.30 3450.00 28.34 .00 28.98 276.95 3.53 602.54 207.31 .202 112.00 .00 .00 24.30 2926.00 28.16 .00 28.72 261.92 3.29 549.26 180.80 .240 205.00 .00 .00 27.70 4725.00 32.60 .00 33.03 150.58 3.18 973.18 385.05 I .240 205.00 .00 .00 27.70 3450.00 32.29 .00 32.58 118.10 2.67 868.92 317.46 .240 205.00 .00 .00 27.70 2926.00 32.04 .00 32.29 121.22 2.59 782.88 265.76 .277 197.40 .00 .00 31.90 4725.00 36.03 .00 36.70 236.72 3.44 780.74 307.10 I .277 197.40 .00 .00 31.90 3450.00 35.46 .00 36.06 286.71 3.35 604.23 203.75 .277 197.40 .00 .00 31.90 2926.00 35.27 .00 35.80 282.99 3.18 548.52 173.94 I .310 .310 190.00 190.00 .00 .00 .00 .00 34.40 34.40 4725.00 3450.00 38.94 38.43 .00 .00 39.32 38.72 88.25 81.33 2.45 2.16 1049.41 871.90 502.97 382.56 .310 190.00 .00 .00 34.40 2926.00 38.15 .00 38.42 80.29 2.04 784.28 326.54 .356 250.00 .00 .00 35.90 4725.00 41.27 .00 41.67 102.63 2.88 1039.82 466.41 .356 250.00 .00 .00 35.90 3450.00 40.66 .00 40.98 102.52 2.64 857.28 340.73 I .356 250.00 .00 .00 35.90 2926.00 40.38 .00 40.66 102.38 2.51 775.84 289.18 .401 238.80 .00 .00 38.90 4725.00 43.56 .00 43.92 85.87 2.48 1101.98 509.90 .401 238.80 .00 .00 38.90 3450.00 42.95 .00 43.23 86.29 2.25 908.66 371.39 I .401 238.80 .00 .00 38.90 2926.00 42.66 .00 42.91 86.87 2.14 821.19 313.93 .451 245.00 .00 .00 40.20 4725.00 45.78 .00 46.19 92.47 2.97 1013.21 491.37 .451 .451 245.00 245.00 .00 .00 .00 .00 40.20 40.20 3450.00 2926.00 45.15 44.86 .00 .00 45.47 45.14 90.00 88.74 2.65 2.50 840.44 762.75 363.66 310.61 .522 392.30 .00 .00 43.10 4725.00 48.55 .00 48.76 48.24 2.10 1415.74 680.32 .522 392.30 .00 .00 43.10 3450.00 47.91 .00 48.11 51.90 1.98 1092.19 478.87 .522 392.30 .00 .00 43.10 2926.00 47.62 .00 47.81 53.36 1.91 948.10 400.54 :1 22 .615 511.30 .00 .00 47.10 4725.00 52.13 .00 52.64 129.46 3.27 895.49 415.28 .615 511.30 .00 .00 47.10 3450.00 51.62 .00 52.00 118.17 2.88 758.99 317.37 .615 511.30 .00 .00 47.10 2926.00 51.36 .00 51.69 114.18 2.70 693.39 273.83 .678 341.00 .00 .00 50.20 4725.00 55.59 .00 56.03 78.51 2.58 1015.76 533.26 .678 341.00 .00 .00 50.20 3450.00 54.88 .00 55.24 78.32 2.30 824.17 389.84 .678 341.00 .00 .00 50.20 2926.00 54.55 .00 54.87 77.78 2.16 743.64 331.78 .780 561.70 .00 .00 55.40 4725.00 60.40 .00 60.76 89.64 2.85 1051.54 499.05 .780 561.70 .00 .00 55.40 3450.00 59.77 .00 60.07 94.04 2.63 842.66 355.76 .780 561.70 .00 .00 55.40 2926.00 59.47 .00 59.75 96.94 2.52 748.78 297.19 .834 253.60 .00 .00 57.10 4725.00 62.62 .00 62.97 83.54 3.01 1103.28 516.96 .834 253.60 .00 .00 57.10 3450.00 62.01 .00 62.28 79.07 2.67 919.22 387.99 .834 253.60 .00 .00 57.10 2926.00 61.72 .00 61.95 76.47 2.51 835.89 334.60 .918 465.00 .00 .00 60.50 4725.00 65.65 .00 65.88 47.76 2.03 1398.62 683.69 .918 465.00 .00 .00 60.50 3450.00 64.97 .00 65.16 49.28 1.86 1133.09 491.46 .918 465.00 .00 .00 60.50 2926.00 64.65 .00 64.82 50.29 1.77 1014.36 412.59 .998 440.00 .00 .00 62.00 4207.00 66.98 .00 67.11 17.63 1.21 1633.16 1001.83 .998 440.00 .00 .00 62.00 3013.00 66.30 .00 66.40 17.24 1.08 1340.02 725.61 .998 440.00 .00 .00 62.00 2456.00 65.97 .00 66.05 16.41 .99 1201.40 606.20 1.096 525.00 .00 .00 62.00 4207.00 68.21 .00 68.43 36.41 2.00 1428.29 697.19 1.096 525.00 .00 .00 62.00 3013.00 67.48 .00 67.63 32.27 1.73 1219.15 530.42 1.096 525.00 .00 .00 62.00 2456.00 67.08 .00 67.20 29.82 1.58 1108.65 449.77 1.164 363.40 .00 .00 65.10 4207.00 70.26 .00 70.55 105.38 2.95 1157.68 409.82 1.164 363.40 .00 .00 65.10 3013.00 69.46 .00 69.67 117.40 2.77 930.90 278.08 1.164 363.40 .00 .00 65.10 2456.00 69.02 .00 69.19 127.60 2.68 810.14 217.43 1.236 359.20 .00 .00 73.00 4207.00 77.05 76.50 78.08 543.31 5.41 607.78 180.49 1.236 359.20 .00 .00 73.00 3013.00 76.64 75.90 77.32 472.57 4.66 523.28 138.60 1.236 359.20 .00 .00 73.00 2456.00 76.43 75.61 76.95 425.91 4.23 480.21 119.01 1.313 423.60 .00 .00 73.00 4207.00 79.20 .00 79.30 8.49 1.07 1984.56 1443.42 1.313 423.60 .00 .00 73.00 3013.00 78.40 .00 78.48 8.32 .96 1616.81 1044.46 1.313 423.60 .00 .00 73.00 2456.00 77.98 .00 78.05 8.03 .89 1436.09 866.94 1.403 524.00 .00 .00 76.70 1890.00 80.70 80.70 81.86 94.76 10.11 293.23 194.16 1.403 524.00 .00 .00 76.70 1890.00 80.70 80.70 81.86 95.03 10.12 292.89 193.88 1.403 524.00 .00 .00 76.70 1890.00 80.70 80.70 81.86 94.89 10.11 293.06 194.02 1.420 362.00 .00 .00 78.40 1890.00 83.97 .00 85.05 81.33 9.12 230.97 209.57 1.420 362.00 .00 .00 78.40 1890.00 83.97 .00 85.05 81.10 9.11 231.19 209.87 1.420 362.00 .00 .00 78.40 1890.00 83.97 .00 85.05 81.22 9.11 231.08 209.72 1.520 252.00 .00 .00 83.10 1890.00 88.99 88.99 90.17 68.81 9.02 239.53 227.84 1.520 252.00 .00 .00 83.10 1890.00 88.99 88.99 90.17 68.89 9.03 239.41 227.71 1.520 252.00 .00 .00 83.10 1890.00 88.99 88.99 90.17 68.86 9.03 239.46 227.77 -1.313 423.60 .00 .00 73.00 4207.00 79.20 .00 79.30 8.49 1.07 1985.14 1444.09 -1.313 423.60 .00 .00 73.00 3013.00 78.40 .00 78.48 8.32 .96 1617.02 1044.67 -1.313 423.60 .00 .00 73.00 2456.00 77.98 .00 78.05 8.10 .89 1431.82 862.87 .000 300.00 .00 .00 73.50 2597.00 79.46 .00 79.85 59.63 5.45 644.10 336.30 .000 300.00 .00 .00 73.50 1465.00 78.69 .00 78.91 40.31 3.99 419.98 230.73 .000 300.00 .00 .00 73.50 832.00 78.27 .00 78.37 19.78 2.60 359.99 187.09 .006 40.00 .00 .00 75.00 2597.00 81.74 81.74 82.36 132.82 7.27 483.20 225.34 .006 40.00 .00 .00 7500 1465.00 79.47 79.47 81.23 518.81 10.63 137.81 64.32 .006 40.00 .00 .00 75.00 832.00 78.19 78.19 79.50 527.36 9.18 90.63 36.23 .021 110.00 81.00 79.00 75.00 2597.00 85.01 .00 85.03 2.04 1.22 2946.33 1816.56 .021 110.00 81.00 79.00 75.00 1465.00 82.03 .00 82.15 26.06 3.33 618.46 286.99 .021 110.00 81.00 79.00 75.00 832.00 79.61 .00 80.13 147.72 5.80 143.36 68.45 .023 20.00 .00 .00 75.00 2597.00 85.02 .00 85.03 2.15 1.24 3269.11 1771.74 .023 20.00 .00 .00 75.00 1465.00 82.14 .00 82.19 11.94 2.02 1062.24 423.98 23 .023 20.00 .00 .00 75.00 832.00 80.15 .00 80.24 14.29 2.48 335.56 220.09 .110 471.00 .00 .00 75.80 2597.00 85.07 .00 85.08 .55 .75 4267.85 3497.04 .110 471.00 .00 .00 75.80 1465.00 82.31 .00 82.32 1.13 .82 2037.03 1377.63 .110 471.00 .00 .00 75.80 832.00 80.46 .00 80.48 2.36 .91 1085.80 541.38 SUMMARY PRINTOUT TABLE 150 SECNO 0 CWSEL DIFWSP DIFWSX DIFKWS TOPWID XLCH .000 4725.00 8.50 .00 .00 .00 292.90 .00 .000 3450.00 8.50 .00 .00 .00 292.90 .00 .000 2926.00 8.50 .00 .00 .00 292.90 .00 .017 4725.00 10.00 .00 1.50 .00 270.00 295.00 .017 3450.00 10.00 .00 1.50 .00 270.00 295.00 .017 2926.00 10.00 .00 1.50 .00 270.00 295.00 .053 4725.00 19.04 .00 9.04 .00 105.00 365.00 .053 3450.00 16.90 -2.14 6.90 .00 37.20 365.00 .053 2926.00 15.84 -1.05 5.84 .00 37.20 365.00 .054 4725.00 18.40 .00 -.64 .00 37.20 10.00 .054 3450.00 16.91 -1.49 .02 .00 37.20 10.00 .054 2926.00 15.88 -1.04 .04 .00 37.20 10.00 .063 4725.00 23.12 .00 4.72 .00 105.00 120.00 .063 3450.00 17.99 -5.13 1.08 .00 37.20 120.00 .063 2926.00 17.15 -.84 1.27 .00 37.20 120.00 .064 4725.00 23.57 .00 .46 .00 105.00 10.00 .064 3450.00 18.85 -4.73 .86 .00 105.00 10.00 .064 2926.00 17.63 -1.22 .48 .00 37.20 10.00 .098 4725.00 24.31 .00 .73 .00 572.46 140.00 .098 3450.00 20.82 -3.49 1.97 .00 500.61 140.00 .098 2926.00 19.65 -1.17 2.02 .00 471.85 140.00 .129 4725.00 24.31 .00 .01 .00 391.01 150.00 .129 3450.00 20.89 -3.42 .07 .00 301.90 150.00 .129 2926.00 19.82 -1.07 .17 .00 281.15 150.00 .156 4725.00 24.44 .00 .13 .00 384.02 140.00 .156 3450.00 21.90 -2.54 1.01 .00 270.17 140.00 .156 2926.00 21.82 -.08 2.00 .00 265.93 140.00 .182 4725.00 25.56 .00 1.12 .00 278.64 140.70 .182 3450.00 25.79 .23 3.89 .00 286.47 140.70 .182 2926.00 25.46 -.34 3.64 .00 274.74 140.70 .202 4725.00 29.24 .00 3.67 .00 341.03 112.00 .202 3450.00 28.34 -.90 2.55 .00 294.96 112.00 .202 2926.00 28.16 -.18 2.70 .00 282.70 112.00 .240 4725.00 32.60 .00 3.36 .00 336.04 205.00 .240 3450.00 32.29 -.30 3.95 .00 332.93 205.00 .240 2926.00 32.04 -.26 3.88 .00 329.88 205.00 .277 4725.00 36.03 .00 3.43 .00 324.52 197.40 .277 3450.00 35.46 -.57 3.17 .00 297.54 197.40 .277 2926.00 35.27 -.19 3.24 .00 292.14 197.40 .310 4725.00 38.94 .00 2.91 .00 356.00 190.00 .310 3450.00 38.43 -.51 2.96 .00 329.65 190.00 .310 2926.00 38.15 .27 2.88 .00 315.34 190.00 .356 4725.00 41.27 .00 2.33 .00 302.51 250.00 .356. 3450.00 40.66 -.61 2.24 .00 290.09 250.00 24 .356 2926.00 40.38 -.28 2.22 .00 283.30 250.00 .401 4725.00 43.56 .00 2.29 .00 349.21 238.80 .401 3450.00 42.95 -.61 2.29 .00 309.50 238.80 .401 2926.00 42.66 -.28 2.29 .00 307.71 238.80 .451 4725.00 45.78 .00 2.21 .00 302.80 245.00 .451 3450.00 45.15 -.63 2.20 .00 270.06 245.00 .451 2926.00 44.86 -.29 2.20 .00 266.55 245.00 .522 4725.00 48.55 .00 2.77 .00 527.54 392.30 .522 3450.00 47.91 -.63 2.76 .00 495.83 392.30 .522 2926.00 47.62 -.30 2.75 .00 466.09 392.30 .615 4725.00 52.13 .00 3.58 .00 268.38 511.30 .615 3450.00 51.62 -.51 3.70 .00 261.36 511.30 .615 2926.00 51.36 -.25 3.74 .00 257.78 511.30 .678 4725.00 55.59 .00 3.46 .00 274.52 341.00 .678 3450.00 54.88 -.71 3.26 .00 254.86 341.00 .678 2926.00 54.55 -.33 3.19 .00 239.95 341.00 .780 4725.00 60.40 .00 4.80 .00 341.07 561.70 .780 3450.00 59.77 -.63 4.89 .00 323.87 561.70 .780 2926.00 59.47 -.29 4.93 .00 313.12 561.70 .834 4725.00 62.62 .00 2.23 .00 303.48 253.60 .834 3450.00 62.01 -.62 2.24 .00 292.52 253.60 .834 2926.00 61.72 -.29 2.24 .00 285.53 253.60 .918 4725.00 65.65 .00 3.02 .00 398.25 465.00 .918 3450.00 64.97 -.68 2.96 .00 376.71 465.00 .918 2926.00 64.65 -.32 2.93 .00 368.46 465.00 .998 4207.00 66.98 .00 1.33 .00 440.90 440.00 .998 3013.00 66.30 -.68 1.33 .00 423.56 440.00 .998 2456.00 65.97 -.33 1.32 .00 417.32 440.00 1.096 4207.00 68.21 .00 1.23 .00 286.54 525.00 1.096 3013.00 67.48 -.74 1.18 .00 279.97 525.00 1.096 2456.00 67.08 -.39 1.12 .00 276.44 525.00 07:43:29 PAGE 48 SECNO Q CWSEL DIFWSP DIFWSX DIFKWS TOPWID XLCH 1.164 4207.00 70.26 .00 2.05 .00 286.06 363.40 1.164 3013.00 69.46 -.81 1.98 .00 278.98 363.40 1.164 2456.00 69.02 -.44 1.94 .00 275.68 363.40 1.236 4207.00 77.05 .00 6.78 .00 210.99 359.20 1.236 3013.00 76.64 -.41 7.18 .00 206.60 359.20 1.236 2456.00 76.43 -.21 7.41 .00 204.33 359.20 1.313 4207.00 79.20 .00 2.15 .00 465.73 423.60 1.313 3013.00 78.40 -.80 1.76 .00 452.03 423.60 1.313 2456.00 77.98 -.42 1.55 .00 430.65 423.60 1.403 1890.00 80.70 .00 1.50 .00 133.28 524.00 1.403 1890.00 80.70 .00 2.30 .00 133.21 524.00 1.403 1890.00 80.70 .00 2.72 .00 133.24 524.00 1.420 1890.00 83.97 .00 3.27 .00 92.31 362.00 1.420 1890.00 83.97 .00 3.28 .00 92.33 362.00 1.420 1890.00 83.97 .00 3.27 .00 92.32 362.00 1.520 1890.00 88.99 .00 5.02 .00 127.73 252.00 1.520 1890.00 88.99 .00 5.02 .00 127.67 252.00 25 * 1.520 1890.00 88.99 .00 5.02 .00 127.70 252.00 -1.313 4207.00 79.20 .00 -9.79 .00 465.76 423.60 -1.313 3013.00 78.40 -.80 -10.60 .00 452.06 423.60 -1.313 2456.00 77.98 -.42 -11.02 .00 430.29 423.60 .000 2597.00 79.46 .00 .26 .00 424.87 300.00 .000 1465.00 78.69 -.77 .29 .00 170.48 300.00 .000 832.00 78.27 -.42 .29 .00 136.68 300.00 * .006 2597.00 81.74 .00 2.28 .00 425.85 40.00 * .006 1465.00 79.47 -2.27 .78 .00 40.02 40.00 * .006 832.00 78.19 -1.28 -.08 .00 35.02 40.00 .021 2597.00 85.01 .00 3.27 .00 910.97 110.00 ' .021 1465.00 82.03 -2.98 2.56 .00 523.35 110.00 .021 832.00 79.61 -2.42 1.42 .00 40.03 110.00 .023 2597.00 85.02 .00 .01 .00 881.03 20.00 .023 1465.00 82.14 -2.88 .11 .00 638.01 20.00 .023 832.00 80.15 -1.99 .54 .00 70.00 20.00 1% .110 2597.00 85.07\ .00 .05 .00 906.42 471.00 .110 1465.00 82.31 -2.76 .17 .00 626.36 471.00 .110 832.00 80.46 \ -1.85 .32 .00 473.04 471.00 07:43:29 7p )f c( fl \(C) C,O1) PAGE 49 SUMMARY OF ERRORS AND SPECIAL NOTES NOTE SECNO= .017 PROFILE= 1 WSEL BASED ON X2 CARD NOTE SECNO= .017 PROFILE= 2 WSEL BASED ON X2 CARD NOTE SECNO= .017 PROFILE= 3 WSEL BASED ON X2 CARD CAUTION SECNO= .182 PROFILE= 1 CRITICAL DEPTH ASSUMED CAUTION SECNO= .182 PROFILE= 1 PROBABLE MINIMUM SPECIFIC ENERGY CAUTION SECNO= .182 PROFILE= 1 20 TRIALS ATTEMPTED TO BALANCE WSEL CAUTION SECNO= 1.403 PROFILE= 1 CRITICAL DEPTH ASSUMED CAUTION SECNO= 1.403 PROFILE= 1 PROBABLE MINIMUM SPECIFIC ENERGY CAUTION SECNO= 1.403 PROFILE= 1 20 TRIALS ATTEMPTED TO BALANCE WSEL CAUTION SECNO= 1.403 PROFILE= 2 CRITICAL DEPTH ASSUMED CAUTION SECNO= 1.403 PROFILE= 2 PROBABLE MINIMUM SPECIFIC ENERGY CAUTION SECNO= 1.403 PROFILE= 2 20 TRIALS ATTEMPTED TO BALANCE WSEL CAUTION SECNO= 1.403 PROFILE= 3 CRITICAL DEPTH ASSUMED CAUTION SECNO= 1.403 PROFILE= 3 PROBABLE MINIMUM SPECIFIC ENERGY CAUTION SECNO= 1.403 PROFILE= 3 20 TRIALS ATTEMPTED TO BALANCE WSEL CAUTION SECNO= 1.520 PROFILE= 1 CRITICAL DEPTH ASSUMED CAUTION SECNO= 1.520 PROFILE= 1 PROBABLE MINIMUM SPECIFIC ENERGY CAUTION SECNO= 1.520 PROFILE= 1 20 TRIALS ATTEMPTED TO BALANCE WSEL CAUTION SECNO= 1.520 PROFILE= 2 CRITICAL DEPTH ASSUMED CAUTION SECNO= 1.520 PROFILE= 2 PROBABLE MINIMUM SPECIFIC ENERGY CAUTION SECNO= 1.520 PROFILE= 2 20 TRIALS ATTEMPTED TO BALANCE WSEL CAUTION SECNO= 1.520 PROFILE= 3 CRITICAL DEPTH ASSUMED CAUTION SECNO= 1.520 PROFILE= 3 PROBABLE MINIMUM SPECIFIC ENERGY CAUTION SECNO= 1.520 PROFILE= 3 20 TRIALS ATTEMPTED TO BALANCE WSEL CAUTION SECNO= .006 PROFILE= 1 CRITICAL DEPTH ASSUMED CAUTION SECNO= .006 PROFILE= 1 PROBABLE MINIMUM SPECIFIC ENERGY CAUTION SECNO= .006 PROFILE= 1 20 TRIALS ATTEMPTED TO BALANCE WSEL CAUTION SECNO= .006 PROFILE= 2 CRITICAL DEPTH ASSUMED CAUTION SECNO= .006 PROFILE= 2 PROBABLE MINIMUM SPECIFIC ENERGY CAUTION SECNO= .006 PROFILE= 2 20 TRIALS ATTEMPTED TO BALANCE WSEL CAUTION SECNO= .006 PROFILE= 3 CRITICAL DEPTH ASSUMED 26 'I I CAUTION SECNO= .006 PROFILE= 3 PROBABLE MINIMUM SPECIFIC ENERGY CAUTION SECNO= .006 PROFILE= 3 20 TRIALS ATTEMPTED TO BALANCE WSEL Ii 07:46:17 I I HEC2 RELEASE DATED NOV 76 UPDATED MAY 1984 ERROR CORR - 01,02,03,04,05,06 MODIFICATION - 50,51,52,53,54,55,56 IBM-PC-XT VERSION AUGUST 1985 * ** * * * * * * *** **** ********************** *********** * I I I I :1 I I I I I I I 27