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Home My WebLink AboutCT 06-24; LNR Bressi Commercial; Drainage Report; 2010-03-31Bressi Ranch Commercial Major Building 'B' DRAINAGE REPORT ADDENDUM For Final Drainage Report Bressi Ranch Planning Area 15 CT 06-24 Citv of Carlsbad. C A RECORD COPY ^ 1/8 I/O «~ JT-T^- V Initial PROJECT DESIGN CONSULTANTS I I I Bressi Ranch Commercial Major Building 'B' DRAINAGE REPORT ADDENDUM For Final Drainage Report Bressi Ranch Planning Area 15 CT 06-24 City of Carlsbad, C A March 2010 Prepared For: LNR PROPERTY CORPORATION 4350 VON KARMAN AVE, SUITE 200 NEWPORT BEACH, CA 92660 Prepared By: PROJECT DESIGN CONSULTANTS Planning I Landscape Architecture I Environmental I Engineering I Survey 701 B Street, Suite 800 San Diego. CA 92101 619.235.6471 Tel 619.234.0349 Fax PDC Job No. 3219.20 I 1 1 Prepared by: C. Pack, P.E. Under the supervision of Debby Reec Registration RCE56148 ixpres 12/31/10 I TABLE OF CONTENTS I I 1. INTRODUCTION 1 2. EXISTING AND PROPOSED DRAINAGE PATTERNS AND IMPROVEMENTS 1 I 3. HYDROLOGY CRITERIA, METHODOLOGY, AND RESULTS 2 3.1 Hydrology Criteria 2 I I I 3.2 Hydrology Methodology 2 3.3 Hydrology Results 3 4. HYDRAULIC CRITERIA, METHODOLOGY, AND RESULTS 3 5. CONCLUSION 3 APPENDICES 1 Proposed Condition Rational Method Computer Output Fj 2 Hydraulic Calculations EXHIBITS Im A Drainage Map - Proposed Conditions I I I I I I 1 1. INTRODUCTION This drainage report addendum has been prepared in support of a final engineering grading and building permit submittal for the Major Building 'B' in Bressi Ranch Commercial Planning Area 15. The rest of Bressi Ranch Commercial was previously constructed per Drawing 452-9A. The design for the Bressi Ranch Commercial project anticipated the future construction of Major Building 'B,' and the area for the future building was graded as a flat pad per that project. PDC prepared the drainage report for the entire site and the drainage calculations assumed future development of Major Building 'B'. Refer to the Final Drainage Report: Bressi Ranch Planning Area 15, dated November 2007, submitted concurrently with this drainage report _ addendum for reference. Since this addendum supplements the November 2007 report, this ( addendum focuses only on the design of Major Building 'B.' For information regarding the previous project, refer to the approved November 2007 report. The purpose of this report is to analyze the drainage patterns that would affect the proposed II development and provide calculations for the existing and proposed drainage improvements. The calculations are intended to show that the backbone storm drain built per Drawing 452-9A is IMt adequate for the proposed site plan. It m The proposed site consists of a very small portion of the overall Planning Area 15 of Bressi Ml Ranch. The proposed improvements are less than one acre and tie into the existing improvements gl that surround the site (per Sheet 7 of Drawing 452-9A). 1 I 2. EXISTING AND PROPOSED DRAINAGE PATTERNS AND IMPROVEMENTS The existing condition of the site consists of sidewalk improvements to the north, an asphalt parking aisle to the west, a parking lot to the south, and a building and additional parking areas to the east. The building pad internal to the site was previously graded to the pad elevation of 406.25 per Sheet 7 of Drawing 452-9A. Existing drainage facilities include an existing private curb inlet along the westerly boundary and an existing private trench drain inlet near the southerly site boundary. The existing private storm drain lines surrounding the site all connect 1 P:\3219.20\ENGR\R£PORTS\DRAIN\3219.20DR.doc I I I I I I I I 1 into an underground detention facility to the east of the southeast corner of the site. The site drainage eventually discharges to the public storm drain within Bressi Ranch Way. Under proposed conditions, the runoff from the site will be collected and discharged to the existing storm drain system. The existing curb inlet to the west of Major Building 'B' will be converted to a grate inlet to accommodate the new curb design. The roof drainage will be collected and discharged to the south. Drainage south of the building will be collected in a new grate inlet in the middle of the parking aisle. Note that the existing trench drain will be removed with the project improvements. The proposed drainage improvements closely match what was assumed in the original report, however, there are slight differences due to the change in final building footprint and final precise grades. 3. HYDROLOGY CRITERIA, METHODOLOGY, AND RESULTS 3.1 Hydrology Criteria Since the site is merely an addition to the existing overall drainage basin previously modeled in the previous report, refer to the November 2007 report for hydrology assumptions and criteria used for the hydrologic modeling. 3.2 Hydrology Methodology No existing condition analysis is required since the November 2007 report documented the design flow rates. Since there were minor changes in the site from what was assumed during the development of the master drainage report, a revised proposed condition hydrology analysis was performed to reflect the current proposed site plan for Major Building 'B'. The results from this analysis are compared to the "backbone" flow rates per the November 2007 report in the following section. For the proposed condition analysis, the drainage areas were delineated based on the proposed site layout. Refer to Exhibit A for the proposed condition drainage patterns. P:\3219.20\ENGR\REPORTS\DRAIN\3219.20DR.doc I I I I I I I I I 3.3 Hydrology Results Exhibit A shows the onsite hydrology basins and peak flows for the site under proposed conditions. Note that only the drainage areas that changed in between the November 2007 report and this addendum are included on the exhibit. For the delineation of the rest of the drainage areas, refer to Exhibit B in the 2007 report. System 200 from the 2007 report was modified to reflect the new site plan per this project. See Appendix 1 for the Civil-D hydrology model output. Note that the revised hydrology calculations resulted in a net increase in the 100-year peak flow of 0.1 cfs. (The 2007 report calculations reported a peak flow into the underground detention basin of 35.9 cfs. When the model was corrected based on the current site plan, the result was 36.0 cfs.) Note that this increase is due to the difference in modeled time of concentration values for the site and the increase is statistically insignificant due to the inherent limitations of the Rational Method. Since the proposed site is consistent with the previous study, no further hydrology analysis is required. 4. HYDRAULIC CRITERIA, METHODOLOGY, AND RESULTS Hydraulic modeling of the private storm drains was completed in WSPG so that HGL elevations could be determined in the 2007 report. Per the 2007 report, the site area was anticipated to flow overland to the inlet at Node 380. The proposed sump inlet at Node 375 has an emergency overflow curb cut and excess runoff would flow towards Node 380 through the curb cut or over the ridgeline in the drive aisle located to the east of the inlet. The overland flow release is over one foot below the finished floor elevation of the building. The inlet calculations are included in Appendix 2. 5. CONCLUSION This drainage report supports the grading and building permit for the proposed construction of Major Building 'B' in the Bressi Ranch Commercial Planning Area 15. The main focus of this report is to supplement the previously approved Bressi Ranch Commercial Planning Area 15 with the additional improvements per the Major Building 'B' project. The calculations included P:\3219.20\ENGR\REPORTS\DRAIN\32 l9_20DR.doc 1 I herein indicate that the proposed project would not adversely affect the surrounding • development. I I I I I 1 P:\3219.20\ENGR\REPORTS\DRAIN\3219.20DR.doc I APPENDIX 1 Proposed Condition Rational Method Computer Output I i I I I I 1 I 1 I I I I I 0 D i 1 1 I I 1 San Diego County Rational Hydrology Program CIVILCADD/CIVILDESIGN Engineering Software,(c)1991-2004 Version 7.4 Rational method hydrology program based on San Diego County Flood Control Division 2003 hydrology manual Rational Hydrology Study Date: 02/26/10 3219.20 BRESSI COMMERCIAL MAJOR BLDG B SYSTEM 200 - PROPOSED CONDITIONS 100 YEAR STORM REVISED FROM ORIGINAL REPORT TO REFLECT FINAL BLDG B ********* Hydrology Study Control Information ********** Program License Serial Number 4049 Rational hydrology study storm event year is 100.0 English (in-lb) input data Units used Map data precipitation entered: 6 hour, precipitation(inches) = 2.800 24 hour precipitation(inches) = 5.100 P6/P24 = 54.9% San Diego hydrology manual 'C1 values used Process from Point/Station 200.000 to Point/Station 205.000 **** INITIAL AREA EVALUATION **** Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Initial subarea total flow distance = 74.000(Ft.) Highest elevation = 412.000(Ft.) Lowest elevation = 411.000 (Ft.) Elevation difference = 1.000(Ft.) Slope = 1.351 % USER ENTRY OF INITIAL AREA TIME OF CONCENTRATION Time of Concentration = 5.00 minutes Rainfall intensity (I) = 7.377(In/Hr) for a 100.0 year storm Effective runoff coefficient used for area (Q=KCIA) is C = 0.870 Subarea runoff = 0.257(CFS) Total initial stream area = 0.040(Ac.) Process from Point/Station 205.000 to Point/Station 210.000 **** IMPROVED CHANNEL TRAVEL TIME **** Covered channel Upstream point elevation = 411.000(Ft.) Downstream point elevation = 406.000(Ft.) Channel length thru subarea = 114.000(Ft.) Channel base width = 10.000(Ft.) Slope or 'Z' of left channel bank = 10.000 Slope or 'Z' of right channel bank = 10.000 Estimated mean flow rate at midpoint of channel = 1.114(CFS) Manning's 'N' = 0.017 Maximum depth of channel = 1.000(Ft.) Flow(q) thru subarea = 1.114(CFS) Depth of flow = 0.046(Ft.), Average velocity = 2.295(Ft/s) Channel flow top width = 10.927(Ft.) Flow Velocity = 2.29(Ft/s) Travel time = 0.83 min. Time of concentration = 5.83 min. Critical depth = 0.071(Ft.) Adding area flow to channel Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Rainfall intensity = 6.683(In/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 0.287 Subarea runoff = 1.662(CFS) for 0.290(Ac.) Total runoff = 1.919(CFS) Total area = 0.330(Ac.) Depth of flow = 0.064(Ft.), Average velocity = 2.817(Ft/s) Critical depth = 0.102 (Ft.) Process from Point/Station 215.000 to Point/Station 210.000 **** SUBAREA FLOW ADDITION **** Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Time of concentration = 5.83 min. Rainfall intensity = 6.683(In/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 0.391 Subarea runoff = 0.698(CFS) for 0.120(Ac.) Total runoff = 2.616(CFS) Total area = 0.450(Ac.) i 1 I I I I I I I 1 I I I Process from Point/Station 210.000 to Point/Station 220.000 **** IMPROVED CHANNEL TRAVEL TIME **** Upstream point elevation = 406.000(Ft.) Downstream point elevation = 405.200(Ft.) Channel length thru subarea = 160.000(Ft.) Channel base width = 3.000(Ft.) Slope or 'Z' of left channel bank = 3.000 Slope or 'Z' of right channel bank = 3.000 Estimated mean flow rate at midpoint of channel = 5.162(CFS) Manning's 'N' = 0.055 Maximum depth of channel = 1.000(Ft.) Flow(q) thru subarea = 5.162(CFS) Depth of flow = 0.779(Ft.), Average velocity = 1.242(Ft/s) Channel flow top width = 7.672(Ft.) Flow Velocity = 1.24(Ft/s) Travel time = 2.15 min. Time of concentration = 7.97 min. Critical depth = 0.395(Ft.) Adding area flow to channel Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Rainfall intensity = 5.459(In/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 1.401 Subarea runoff = 5.030(CFS) for 1.160(Ac.) Total runoff = 7.647(CFS) Total area = 1.610(Ac.) Depth of flow = 0.947(Ft.), Average velocity = 1.382(Ft/s) Critical depth = 0.492 (Ft.) Process from Point/Station 220.000 to Point/Station 225.000 **** PIPEFLOW TRAVEL TIME (Program estimated size) **** Upstream point/station elevation = 405.200(Ft.) Downstream point/station elevation = 404.500(Ft.) Pipe length = 71.00(Ft.) Manning's N = 0.013 No. of pipes = 1 Required pipe flow = 7.647(CFS) Nearest computed pipe diameter = 18.00(In.) Calculated individual pipe flow = 7.647(CFS) Normal flow depth in pipe = 11.45(In.) Flow top width inside pipe = 17.32(In.) Critical Depth = 12.85(In.) Pipe flow velocity = 6.45(Ft/s) Travel time through pipe = 0.18 min. Time of concentration (TC) = 8.16 min. Process from Point/Station 230.000 to Point/Station 225.000 **** SUBAREA FLOW ADDITION **** Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Time of concentration = 8.16 min. Rainfall intensity = 5.380(In/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 1.470 Subarea runoff = 0.263(CFS) for 0.080(Ac.) Total runoff = 7.910(CFS) Total area = 1.690(Ac.) Process from Point/Station 225.000 to Point/Station 235.000 **** PIPEFLOW TRAVEL TIME (Program estimated size) **** Upstream point/station elevation = 404.500(Ft.) Downstream point/station elevation = 403.800(Ft.) Pipe length = 73.00(Ft.) Manning's N = 0.013 No. of pipes = 1 Required pipe flow = 7.910(CFS) Nearest computed pipe diameter = 18.00(In.) Calculated individual pipe flow = 7.910(CFS) Normal flow depth in pipe = 11.84(In.) Flow top width inside pipe = 17.08(In.) Critical Depth = 13.06(In.) Pipe flow velocity = 6.42(Ft/s) Travel time through pipe = 0.19 min. Time of concentration (TC) = 8.35 min. Process from Point/Station 225.000 to Point/Station 235.000 **** CONFLUENCE OF MINOR STREAMS **** Along Main Stream number: 1 in normal stream number 1 Stream flow area = 1.690(Ac.) Runoff from this stream = 7.910{CFS) Time of concentration = 8.35 min. Rainfall intensity = 5.301(In/Hr) Process from Point/Station 240.000 to Point/Station 245.000 **** INITIAL AREA EVALUATION **** Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 I I I I I I I 1 1 1 I [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Initial subarea total flow distance = 83.000(Ft.) Highest elevation = 423.000 (Ft.) Lowest elevation = 422.500(Ft.) Elevation difference = 0.500(Ft.) Slope = 0.602 % USER ENTRY OF INITIAL AREA TIME OF CONCENTRATION Time of Concentration = 5.00 minutes Rainfall intensity (I) = 7.377(In/Hr) for a 100.0 year storm Effective runoff coefficient used for area (Q=KCIA) is C = 0.870 Subarea runoff = 0.963(CFS) Total initial stream area = 0.150(Ac.) Process from Point/Station 245.000 to Point/Station 235.000 **** IMPROVED CHANNEL TRAVEL TIME **** Upstream point elevation = 408.000(Ft.) Downstream point elevation = 404.300(Ft.) Channel length thru subarea = 116.000(Ft.) Channel base width = 3.000(Ft.) Slope or 'Z' of left channel bank = 3.000 Slope or 'Z' of right channel bank = 3.000 Estimated mean flow rate at midpoint of channel = 2.127(CFS) Manning's 'N1 = 0.055 Maximum depth of channel = 1.000(Ft.) Flow(q) thru subarea = 2.127(CFS) Depth of flow = 0.296(Ft.), Average velocity = 1.845(Ft/s) Channel flow top width = 4.778(Ft.) Flow Velocity = 1.85(Ft/s) Travel time = 1.05 min. Time of concentration = 6.05 min. Critical depth = 0.230(Ft.) Adding area flow to channel Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Rainfall intensity = 6.525(In/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 0.496 Subarea runoff = 2.273(CFS) for 0.420(Ac.) Total runoff = 3.236(CFS) Total area = 0.570(Ac.) Depth of flow = 0.374(Ft.), Average velocity = 2.100(Ft/s) Critical depth = 0.297(Ft.) Process from Point/Station 250.000 to Point/Station 235.000 **** SUBAREA FLOW ADDITION **** Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Time of concentration = 6.05 min. Rainfall intensity = 6.525(In/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 0.879 Subarea runoff = 2.498(CFS) for 0.440(Ac.) Total runoff = 5.734(CFS) Total area = 1.010(Ac.) Process from Point/Station 250.000 to Point/Station **** CONFLUENCE OF MINOR STREAMS **** 235.000 Along Main Stream number: 1 in normal stream number 2 Stream flow area = 1.010(Ac.) Runoff from this stream = 5.734(CFS) 6.05 min. 6.525(In/Hr) Time of concentration = Rainfall intensity = Summary of stream data: Stream No. Flow rate (CFS) TC (min) Rainfall Intensity (In/Hr) 1 2 Qmax(1) = Qmax(2) = 7.910 5.734 1.000 * 0.812 * 1.000 * 1.000 * 8.35 6 .05 1.000 * 1.000 * 0.724 * 1.000 * 5.301 6 .525 7.910) + 5.734) + 7.910) + 5.734) + 12.567 11.464 Total of 2 streams to confluence: Flow rates before confluence point: 7.910 5.734 Maximum flow rates at confluence using above data: 12.567 11.464 Area of streams before confluence: 1.690 1.010 Results of confluence: Total flow rate = 12.567(CFS) Time of concentration = 8.348 min. Effective stream area after confluence = 2.700(Ac.) Process from Point/Station 235.000 to Point/Station **** PIPEFLOW TRAVEL TIME (Program estimated size) **** 255.000 i i I I I I 1 1 I 1 I Upstream point/station elevation = 404.300(Ft.) Downstream point/station elevation = 402.900(Ft.) Pipe length = 142.00(Ft.) Manning's N = 0.013 No. of pipes = 1 Required pipe flow = 12.567(CFS) Nearest computed pipe diameter = 21.00(In.) Calculated individual pipe flow = 12.567(CFS) Normal flow depth in pipe = 14.19(In.) Flow top width inside pipe = 19.66(In.) Critical Depth = 15.85(In.) Pipe flow velocity = 7.26(Ft/s) Travel time through pipe = 0.33 min. Time of concentration (TC) = 8.67 min. Process from Point/Station 235.000 to Point/Station 255.000 **** CONFLUENCE OF MAIN STREAMS **** The following data inside Main Stream is listed: In Main Stream number: 1 Stream flow area = 2.700(Ac.) Runoff from this stream = 12.567(CFS) Time of concentration = 8.67 min. Rainfall intensity = 5.171(In/Hr) Program is now starting with Main Stream No. 2 Process from Point/Station 260.000 to Point/Station 265.000 **** INITIAL AREA EVALUATION **** Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Initial subarea total flow distance = 51.000(Ft.) Highest elevation = 409.000(Ft.) Lowest elevation = 408.000 (Ft.) Elevation difference = 1.000(Ft.) Slope = 1.961 % USER ENTRY OF INITIAL AREA TIME OF CONCENTRATION Time of Concentration = 5.00 minutes Rainfall intensity (I) = 7.377(In/Hr) for a 100.0 year storm Effective runoff coefficient used for area (Q=KCIA) is C = 0.870 Subarea runoff = 0.32KCFS) Total initial stream area = 0.050(Ac.) Process from Point/Station 265.000 to Point/Station 270.000 **** PIPEFLOW TRAVEL TIME (Program estimated size) **** Upstream point/station elevation = 408.000(Ft.) Downstream point/station elevation = 407.600(Ft.) Pipe length = 40.00(Ft.) Manning's N = 0.013 No. of pipes = 1 Required pipe flow = 0.32KCFS) Nearest computed pipe diameter = 6.00(In.) Calculated individual pipe flow = 0.321(CFS) Normal flow depth in pipe = 3.26(In.) Flow top width inside pipe = 5.98(In.) Critical Depth = 3.45(In.) Pipe flow velocity = 2.96(Ft/s) Travel time through pipe = 0.23 min. Time of concentration (TC) = 5.23 min. Process from Point/Station **** SUBAREA FLOW ADDITION **** 273.000 to Point/Station 270.000 Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Time of concentration = 5.23 min. Rainfall intensity = 7.170(In/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 0.096 Subarea runoff = 0.365(CFS) for 0.060(Ac.) Total runoff = 0.686(CFS) Total area = 0.110(Ac.) Process from Point/Station **** SUBAREA FLOW ADDITION **** 275.000 to Point/Station 270.000 Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Time of concentration = 5.23 min. Rainfall intensity = 7.170(In/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 0.157 Subarea runoff = 0.437(CFS) for 0.070(Ac.) Total runoff = 1.123(CFS) Total area = 0.180(Ac.) Process from Point/Station 280.000 to Point/Station **** SUBAREA FLOW ADDITION **** 270.000 I I I I I I I I i I I I I I I Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Time of concentration = 5.23 min. Rainfall intensity = 7.170(In/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 0.174 Subarea runoff = 0.125(CFS) for 0.020(Ac.) Total runoff = 1.248(CFS) Total area = 0.200(Ac.) Process from Point/Station 285.000 to Point/Station 270.000 **** SUBAREA FLOW ADDITION **** Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Time of concentration = 5.23 min. Rainfall intensity = 7.170(In/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 0.191 Subarea runoff = 0.125(CFS) for 0.020(Ac.) Total runoff = 1.372(CFS) Total area = 0.220(Ac.) Process from Point/Station 270.000 to Point/Station 290.000 **** PIPEFLOW TRAVEL TIME (Program estimated size) **** Upstream point/station elevation = 407.600(Ft.) Downstream point/station elevation = 407.000(Ft.) Pipe length = 111.00(Ft.) Manning's N = 0.013 No. of pipes = 1 Required pipe flow = Nearest computed pipe diameter = Calculated individual pipe flow Normal flow depth in pipe = 6.17(In.) Flow top width inside pipe = 12.00(In.) Critical Depth = 5.95(In.) Pipe flow velocity = 3.37(Ft/s) Travel time through pipe = 0.55 min. Time of concentration (TC) = 5.77 min. 1.372(CFS) 12.00(In.) 1.372(CFS) Process from Point/Station 295.000 to Point/Station **** SUBAREA FLOW ADDITION **** 290.000 Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 0.000 .000= 1. Decimal fraction soil group C Decimal fraction soil group D [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Time of concentration = 5.77 min. Rainfall intensity = 6.723{In/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 0.226 Subarea runoff = 0.148(CFS) for 0.040(Ac.) Total runoff = 1.52KCFS) Total area = 0.260 (Ac.) Process from Point/Station 300.000 to Point/Station **** SUBAREA FLOW ADDITION **** 290.000 Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Time of concentration = 5.77 min. Rainfall intensity = 6.723(In/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 0.261 Subarea runoff = 0.234(CFS) for 0.040(Ac.) Total runoff = 1.755(CFS) Total area = 0.300(Ac.) Process from Point/Station 290.000 to Point/Station 305.000 **** PIPEFLOW TRAVEL TIME (Program estimated size) *'*** Upstream point/station elevation = 407.000(Ft.) Downstream point/station elevation = 406.300(Ft.) Pipe length = 65.00(Ft.) Manning's N = 0.013 No. of pipes = 1 Required pipe flow = Nearest computed pipe diameter = Calculated individual pipe flow = Normal flow depth in pipe = 5.82(In.) Flow top width inside pipe = 11.99(In.) Critical Depth = 6.76(In.) Pipe flow velocity = 4.65(Ft/s) Travel time through pipe = 0.23 min. Time of concentration (TC) = 6.01 min. 1.755(CFS) 12.00(In.) 1.755(CFS) Process from Point/Station 290.000 to Point/Station 305.000 1 I I I I I I 3 i I I I I I I **** CONFLUENCE OF MINOR STREAMS Along Main Stream number: 2 in normal stream number 1 Stream flow area = 0.300(Ac.) Runoff from this stream = 1.755(CFS) Time of concentration = 6.01 min. Rainfall intensity = 6.554(ln/Hr) Process from Point/Station 310.000 to Point/Station 315.000 **** INITIAL AREA EVALUATION **** Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Initial subarea total flow distance = 62.000(Ft.) Highest elevation = 408.200(Ft.) Lowest elevation = 407.900(Ft.) Elevation difference = 0.300(Ft.) Slope = 0.484 % USER ENTRY OF INITIAL AREA TIME OF CONCENTRATION Time of Concentration = 5.00 minutes Rainfall intensity (I) = 7.377(In/Hr) for a 100.0 year storm Effective runoff coefficient used for area (Q=KCIA) is C = 0.870 Subarea runoff = 0.706(CFS) Total initial stream area = 0.110(Ac.) Process from Point/Station 315.000 to Point/Station 320.000 **** IMPROVED CHANNEL TRAVEL TIME **** Upstream point elevation = 407.900(Ft.) Downstream point elevation = 407.000(Ft.) Channel length thru subarea = 77.000(Ft.) Channel base width = 10.000(Ft.) Slope or 'Z' of left channel bank = 10.000 Slope or 'Z' of right channel bank = 10.000 Estimated mean flow rate at midpoint of channel = 1.241(CFS) Manning's 'N' = 0.017 Maximum depth of channel = 1.000(Ft.) Flow(q) thru subarea = 1.24KCFS) Depth of flow = 0.073(Ft.), Average velocity = 1.581(Ft/s) Channel flow top width = 11.463(Ft.) Flow Velocity = 1.58(Ft/s) Travel time = 0.81 min. Time of concentration = 5.81 min. Critical depth = 0.076 (Ft.) Adding area flow to channel Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Rainfall intensity = 6.695(In/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 0.252 Subarea runoff = 0.983(CFS) for 0.180(Ac.) Total runoff = 1.689(CFS) Total area = 0.290(Ac.) Depth of flow = 0.088(Ft.), Average velocity = 1.771(Ft/s) Critical depth = 0.093(Ft.) Process from Point/Station 320.000 to Point/Station 325.000 **** PIPEFLOW TRAVEL TIME (Program estimated size) **** Upstream point/station elevation = 401.800(Ft.) Downstream point/station elevation = 400.460(Ft.) Pipe length = 167.58(Ft.) Manning's N = 0.013 No. of pipes = 1 Required pipe flow = 1.689(CFS) Nearest computed pipe diameter = 12.00(In.) Calculated individual pipe flow = 1.689(CFS) Normal flow depth in pipe = 6.21(In.) Flow top width inside pipe = 11.99(In.) Critical Depth = 6.63(In.) Pipe flow velocity = 4.12(Ft/s) Travel time through pipe = 0.68 min. Time of concentration (TC) = 6.49 min. Process from Point/Station 330.000 to Point/Station 325.000 **** SUBAREA FLOW ADDITION **** Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Time of concentration = 6.49 min. Rainfall intensity = 6.235(In/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 0.487 Subarea runoff = 1.348(CFS) for 0.270(Ac.) Total runoff = 3.038(CFS) Total area = 0.560(Ac.) Process from Point/Station 325.000 to Point/Station 335.000 **** PIPEFLOW TRAVEL TIME (Program estimated size) **** Upstream point/station elevation = 400.130 (Ft.) i i i i D Downstream point/station elevation = 399.000(Ft.) Pipe length = 59.74(Ft.) Manning's N = 0.013 No. of pipes = 1 Required pipe flow = 3.038(CFS) Nearest computed pipe diameter = 12.00(In.) Calculated individual pipe flow = 3.038(CFS) Normal flow depth in pipe = 6.84(In.) Flow top width inside pipe = 11.88(In.) Critical Depth = 8.96(In.) Pipe flow velocity = 6.57(Ft/s) Travel time through pipe = 0.15 min. Time of concentration (TC) = 6.64 min. Process from Point/Station 340.000 to Point/Station 335.000 **** SUBAREA FLOW ADDITION **** Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Time of concentration = 6.64 min. Rainfall intensity = 6.143(In/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 0.722 Subarea runoff = 1.398(CFS) for 0.270(Ac.) Total runoff = 4.436(CFS) Total area = 0.830(Ac.) 3 1 I Process from Point/Station 335.000 to Point/Station 305.000 **** PIPEFLOW TRAVEL TIME (Program estimated size) **** Upstream point/station elevation = 399.000(Ft.) Downstream point/station elevation = 398.060(Ft.) Pipe length = 86.55(Ft.) Manning's N = 0.013 No. of pipes = 1 Required pipe flow = 4.436(CFS) Nearest computed pipe diameter = 15.00(In.) Calculated individual pipe flow = 4.436(CFS) Normal flow depth in pipe = 8.88(In.) Flow top width inside pipe = 14.74(In.) Critical Depth = 10.24(In.) Pipe flow velocity = 5.86(Ft/s) Travel time through pipe = 0.25 min. Time of concentration (TC) = 6.89 min. Process from Point/Station 335.000 to Point/Station 305.000 **** CONFLUENCE OF MINOR STREAMS **** Along Main Stream number: 2 in normal stream number 2 Stream flow area = 0.830(Ac.) Runoff from this stream = 4.436(CFS) Time of concentration = 6.89 min. Rainfall intensity = 6.000(In/Hr) Summary of stream data: Stream No. Flow rate (CFS) TC (min) Rainfall Intensity (In/Hr) 1 2 Qmax(1) 1.755 4.436 000 000 Qmax(2) = 0.915 * 1.000 * 6.01 6.89 1.000 * 0.872 * 1.000 * 1.000 * 6.554 6.000 1.755) + 4.436) + 1.755) + 4.436) + 5.623 6.042 Total of 2 streams to confluence: Flow rates before confluence point: 1.755 4.436 Maximum flow rates at confluence using above data: 5.623 6.042 Area of streams before confluence: 0.300 0.830 Results of confluence: Total flow rate = 6.042(CFS) Time of concentration = 6.888 min. Effective stream area after confluence = 1.130(Ac.) Process from Point/Station 305.000 to Point/Station 255.000 **** PIPEFLOW TRAVEL TIME (Program estimated size) **** Upstream point/station elevation = 397.560(Ft.) Downstream point/station elevation = 396.450(Ft.) Pipe length = 107.17(Ft.) Manning's N = 0.013 No. of pipes = l Required pipe flow = Nearest computed pipe diameter Calculated individual pipe flow = Normal flow depth in pipe = 11.32(In.) Flow top width inside pipe = 12.91(In.) Critical Depth = 11.92(In.) Pipe flow velocity = 6.08(Ft/s) Travel time through pipe = 0.29 min. Time of concentration (TC) = 7.18 min. 6.042 (CFS) 15.00(In.) 6.042(CFS) Process from Point/Station 305.000 to Point/Station **** CONFLUENCE OF MAIN STREAMS **** 255.000 The following data inside Main Stream is listed: In Main Stream number: 2 Stream flow area = 1.130(Ac.) Runoff from this stream = 6.042(CFS) I I I I I I I I I I Time of concentration = Rainfall intensity = Summary of stream data: 7.18 min. 5.840(In/Hr) Stream No. Flow rate (CFS) 1 2 Qmax ( 1 ) Qmax(2) 12 6 1 0 = 1 1 .567 .042 .000 .885 .000 .000 * * * * TC (min) 8.67 7.18 1.000 * 1.000 * 0.828 * 1.000 * Rainfall Intensity (In/Hr) 5.171 5.840 12.567) + 6.042) + 12.567) + 6.042) + 17.917 16.449 Total of 2 main streams to confluence: Flow rates before confluence point: 12.567 6.042 Maximum flow rates at confluence using above data: 17.917 16.449 Area of streams before confluence: 2.700 1.130 Results of confluence: Total flow rate = 17.917(CFS) Time of concentration = 8.673 min. Effective stream area after confluence = 3.830(Ac.) i Process from Point/Station 255.000 to Point/Station 345.000 **** PIPEFLOW TRAVEL TIME (Program estimated size) **** Upstream point/station elevation = 395.950(Ft.) Downstream point/station elevation = 394.530 (Ft.) Pipe length = 138.07(Ft.) Manning's N = 0.013 No. of pipes = 1 Required pipe flow = 17.917(CFS) Nearest computed pipe diameter = 24.00(In.) Calculated individual pipe flow = 17.917(CFS) Normal flow depth in pipe = 15.96(In.) Flow top width inside pipe = 22.65(In.) Critical Depth = 18.30(In.) Pipe flow velocity = 8.08(Ft/s) Travel time through pipe = 0.28 min. Time of concentration (TC) = 8.96 min. Process from Point/Station 255.000 to Point/Station 345.000 **** CONFLUENCE OF MINOR STREAMS **** Along Main Stream number: 1 in normal stream number 1 Stream flow area = 3.830(Ac.) Runoff from this stream = 17.917(CFS) Time of concentration = 8.96 min. Rainfall intensity = 5.065(In/Hr) Process from Point/Station 350.000 to Point/Station 355.000 **** INITIAL AREA EVALUATION **** Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Initial subarea total flow distance = 57.000(Ft.) Highest elevation = 408.000(Ft.) Lowest elevation = 407.750 (Ft.) Elevation difference = 0.250(Ft.) Slope = 0.439 % USER ENTRY OF INITIAL AREA TIME OF CONCENTRATION Time of Concentration = 5.00 minutes Rainfall intensity (I) = 7.377(In/Hr) for a 100.0 year storm Effective runoff coefficient used for area (Q=KCIA) is C = 0.870 Subarea runoff = 0.449(CFS) Total initial stream area = 0.070(Ac.) Process from Point/Station 355.000 to Point/Station 360.000 **** IMPROVED CHANNEL TRAVEL TIME **** Upstream point elevation = 407.750 (Ft.) Downstream point elevation = 402.000(Ft.) Channel length thru subarea = 188.000(Ft.) Channel base width = 3.000 (Ft.) Slope or 'Z' of left channel bank = 3.000 Slope or 'Z1 of right channel bank = 3.000 Estimated mean flow rate at midpoint of channel = 3.640(CFS) Manning's 'N' = 0.055 Maximum depth of channel = 1.000(Ft.) Flow(q) thru subarea = 3.640(CFS) Depth of flow = 0.403 (Ft.), Average velocity = 2.145(Ft/s) Channel flow top width = 5.419(Ft.) Flow Velocity = 2.14(Ft/s) Travel time = 1.46 min. Time of concentration = 6.46 min. Critical depth = 0.320 (Ft.) Adding area flow to channel Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 3 I I I I I Rainfall intensity = 6.253(In/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 1.079 Subarea runoff = 6.296(CFS) for 1.170(Ac.) Total runoff = 6.746(CFS) Total area = Depth of flow = 0.561(Ft.), Average velocity = Critical depth = 0.461(Ft.) 1.240(Ac.) 2.570(Ft/s) Process from Point/Station 362.000 to Point/Station 360.000 **** SUBAREA FLOW ADDITION **** Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Time of concentration = 6.46 min. Rainfall intensity = 6.253(In/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 2.584 Subarea runoff = 9.411(CFS) for 1.730(Ac.) Total runoff = 16.157(CFS) Total area = 2.970(Ac.) Process from Point/Station 360.000 to Point/Station 345.000 **** PIPEFLOW TRAVEL TIME (Program estimated size) **** Upstream point/station elevation = 402.000(Ft.) Downstream point/station elevation = 400.200 (Ft.) Pipe length = 179.00(Ft.) Manning's N = 0.013 No. of pipes = 1 Required pipe flow = 16.157(CFS) Nearest computed pipe diameter = 24.00(In.) Calculated individual pipe flow = 16.157(CFS) Normal flow depth in pipe = 14.98(In.) Flow top width inside pipe = 23.25(In.) Critical Depth = 17.38(In.) Pipe flow velocity = 7.84(Ft/s) Travel time through pipe = 0.38 min. Time of concentration (TC) = 6.84 min. Process from Point/Station 360.000 to Point/Station **** CONFLUENCE OF MINOR STREAMS **** 345.000 Along Main Stream number: 1 in normal stream number 2 Stream flow area = 2.970(Ac.) Runoff from this stream = 16.157(CFS) Time of concentration = 6.84 min. Rainfall intensity = 6.027(In/Hr) Summary of stream data: Stream No. Flow rate (CFS) TC (min) Rainfall Intensity (In/Hr) 17.917 16.157 Qmax(1) = 1.000 * 0.840 * Qmax(2) = 1.000 * 1.000 * 8.96 6.84 1.000 1.000 0.764 1.000 5.065 6.027 17.917) + 16.157) + 17.917) + 16.157) + 31.496 29.840 Total of 2 streams to confluence: Flow rates before confluence point: 17.917 16.157 Maximum flow rates at confluence using above data: 31.496 29.840 Area of streams before confluence: 3.830 2.970 Results of confluence: Total flow rate = 31.496(CFS) Time of concentration = 8.958 min. Effective stream area after confluence = 6.800(Ac.) Process from Point/Station 345.000 to Point/Station 365.000 **** PIPEFLOW TRAVEL TIME (Program estimated size) **** Upstream point/station elevation = 394.030(Ft.) Downstream point/station elevation = 392.760(Ft.) Pipe length = 190.44(Ft.) Manning's N = 0.013 No. of pipes = 1 Required pipe flow = 31.496(CFS) Nearest computed pipe diameter = 30.00(In.) Calculated individual pipe flow = 31.496(CFS) Normal flow depth in pipe = 23.11(In.) Flow top width inside pipe = 25.24(In.) Critical Depth = 22.95(In.) Pipe flow velocity = 7.76(Ft/s) Travel time through pipe = 0.41 min. Time of concentration (TC) = 9.37 min. Process from Point/Station 345.000 to Point/Station **** CONFLUENCE OF MINOR STREAMS **** 365.000 Along Main Stream number: 1 in normal stream number 1 Stream flow area = 6.800(Ac.) Runoff from this stream = 31.496(CFS) Time of concentration = 9.37 min. Rainfall intensity = 4.921(In/Hr) I I I I I I Process from Point/Station 370.000 to Point/Station 371.000 **** INITIAL AREA EVALUATION **** Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Initial subarea total flow distance = 60.000(Ft.) Highest elevation = 424.000(Ft.) Lowest elevation = 422.170(Ft.) Elevation difference = 1.830(Ft.) Slope = 3.050 % INITIAL AREA TIME OF CONCENTRATION CALCULATIONS: The maximum overland flow distance is 80.00 (Ft) for the top area slope value of 3.05 %, in a development type of General Industrial In Accordance With Figure 3-3 Initial Area Time of Concentration = 2.55 minutes TC = [1.8*(l.l-C)*distance(Ft.)*.5)/(% slope"(l/3)] TC = [1.8*(1.1-0.8700)*( 80.000^.5)/( 3.050^(1/3)]= 2.55 Calculated TC of 2.553 minutes is less than 5 minutes, resetting TC to 5.0 minutes for rainfall intensity calculations Rainfall intensity (I) = 7.377(In/Hr) for a 100.0 year storm Effective runoff coefficient used for area (Q=KCIA) is C = 0.870 Subarea runoff = 1.245(CFS) Total initial stream area = 0.194(Ac.) Process from Point/Station 371.000 to Point/Station 372.000 **** PIPEFLOW TRAVEL TIME (Program estimated size) **** Upstream point/station elevation = 420.000(Ft.) Downstream point/station elevation = 406.700(Ft.) Pipe length = 93.00(Ft.) Manning's N = 0.013 No. of pipes = 1 Required pipe flow = 1.245(CFS) Nearest computed pipe diameter = 6.00(In.) Calculated individual pipe flow = 1.245(CFS) Normal flow depth in pipe = 3.30(In.) Flow top width inside pipe = 5.97(In.) Critical depth could not be calculated. Pipe flow velocity = 11.24(Ft/s) Travel time through pipe = 0.14 min. Time of concentration (TC) = 2.69 min. Process from Point/Station 372.000 to Point/Station 375.000 **** IMPROVED CHANNEL TRAVEL TIME **** Upstream point elevation = 406.700(Ft.) Downstream point elevation = 405.060(Ft.) Channel length thru subarea = 38.500(Ft.) Channel base width = 10.000(Ft.) 1.919(CFS) 3.019(Ft/s) Slope or 'Z' of left channel bank = 10.000 Slope or 'Z1 of right channel bank = 10.000 Estimated mean flow rate at midpoint of channel = Manning's 'N' = 0.015 Maximum depth of channel = 1.000 (Ft.) Flow(q) thru subarea = 1.919{CFS) Depth of flow = 0.060(Ft.), Average velocity = Channel flow top width = 11.199(Ft.) Flow Velocity = 3.02(Ft/s) Travel time = 0.21 min. Time of concentration = 2.90 min. Critical depth = 0.102(Ft.) Adding area flow to channel Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Rainfall intensity = 7.377(In/Hr) for a 100,0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 0.351 Subarea runoff = 1.348(CFS) for 0.210(Ac.) Total runoff = 2.593(CFS) Total area = 0.404(Ac.) Depth of flow = 0.072(Ft.), Average velocity = 3.377(Ft/s) Critical depth = 0.123(Ft.) Process from Point/Station 375.000 to Point/Station 380.000 **** PIPEFLOW TRAVEL TIME (Program estimated size) **** Upstream point/station elevation = 402.000(Ft.) Downstream point/station elevation = 394.970(Ft.) Pipe length = 146.23 (Ft.) Manning's N = 0.013 No. of pipes = 1 Required pipe flow = 2.593(CFS) Nearest computed pipe diameter = 9.00(In.) Calculated individual pipe flow = 2.593(CFS) Normal flow depth in pipe = 5.63(In.) Flow top width inside pipe = 8.71(In.) Critical Depth = 8.39(In.) Pipe flow velocity = 8.92(Ft/s) Travel time through pipe = 0.27 min. Time of concentration (TC) = 3.18 min. Process from Point/Station **** SUBAREA FLOW ADDITION **** 380.000 to Point/Station 380.000 Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type 1 I I I I I I (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Time of concentration = 3.18 min. Rainfall intensity = 7.377(In/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 0.639 Subarea runoff = 2.118(CFS) for 0.330 (Ac.) Total runoff = 4.711(CFS) Total area = 0.734(Ac.) Process from Point/Station 380.000 to Point/Station 365.000 **** PIPEFLOW TRAVEL TIME (Program estimated size) **** Upstream point/station elevation = 394.970(Ft.) Downstream point/station elevation = 392.420(Ft.) Pipe length = 50.85(Ft.) Manning's N = 0.013 No. of pipes = 1 Required pipe flow = 4.711(CFS) Nearest computed pipe diameter = 12.00(In.) Calculated individual pipe flow = 4.711(CFS) Normal flow depth in pipe = 6.63 (In.) Flow top width inside pipe = 11.93(In.) Critical Depth = 10.81(In.) Pipe flow velocity = 10.58(Ft/s) Travel time through pipe = 0.08 min. Time of concentration (TC) = 3.26 min. Process from Point/Station **** SUBAREA FLOW ADDITION 385.000 to Point/Station 365.000 1 I I I 1 I I Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type ] (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 Time of concentration = 3.26 min. Rainfall intensity = 7.377(In/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 0.908 Subarea runoff = 1.990(CFS) for 0.310(Ac.) Total runoff = 6.70KCFS) Total area = 1.044 (Ac.) Process from Point/Station 385.000 to Point/Station 365.000 **** CONFLUENCE OF MINOR STREAMS **** Along Main Stream number: 1 in normal stream number 2 Stream flow area = 1.044(Ac.) Runoff from this stream = 6.701(CFS) Time of concentration = 3.26 min. Rainfall intensity = Summary of stream data: 7.377(In/Hr) Stream No. Flow rate (CFS) TC (min) Rainfall Intensity (In/Hr) 1 2 31.496 6.701 Qmax(1) = 1.000 * 0.667 * Qmax(2) = 1.000 * 1.000 * 9.37 3.26 1.000 * 1.000 * 0.348 * 1.000 * 4.921 7.377 31.496) + 6.701) + 31.496) + 6.701) + 35.965 17.652 Total of 2 streams to confluence: Flow rates before confluence point: 31.496 6.701 Maximum flow rates at confluence using above data: 35.965 17.652 Area of streams before confluence: 6.800 1.044 Results of confluence: Total flow rate = 35.965(CFS) Time of concentration = 9.367 min. Effective stream area after confluence = 7.844(Ac.) Process from Point/Station 365.000 to Point/Station 390.000 **** PIPEFLOW TRAVEL TIME (Program estimated size) **** Upstream point/station elevation = 403.800(Ft.) Downstream point/station elevation = 403.300(Ft.) Pipe length = 113.00(Ft.) Manning's N = 0.013 No. of pipes = 1 Required pipe flow = 35.965(CFS) Nearest computed pipe diameter = 36.00(In.) Calculated individual pipe flow = 35.965(CFS) Normal flow depth in pipe = 24.61(In.) Flow top width inside pipe = 33.49(In.) Critical Depth = 23.40(In.) Pipe flow velocity = 6.99(Ft/s) Travel time through pipe = 0.27 min. Time of concentration (TC) = 9.64 min. Process from Point/Station 395.000 to Point/Station **** SUBAREA FLOW ADDITION **** 390.000 Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000 Decimal fraction soil group D = 1.000 [INDUSTRIAL area type (General Industrial ) Impervious value, Ai = 0.950 Sub-Area C Value = 0.870 The area added to the existing stream causes a a lower flow rate of Q = 34.234(CFS) therefore the upstream flow rate of Q = 35.965(CFS) is being used Time of concentration = 9.64 min. Rainfall intensity = 4.832(In/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.870 CA = 7.085 Subarea runoff = O.OOO(CFS) for 0.300(Ac.) Total runoff = 35.965(CFS) Total area = 8.144(Ac.) End of computations, total study area = 8.144 (Ac.) r JH ft I 1 I 1 i 1 1 0 ftm I 1 1 I APPENDIX 2 Hydraulic Calculations II I i tsl t I t i t i f J t i I. 1 I i JOB 3219.20 "MAJOR BUILDING B" INLET CALCULATIONS Grate Inlets in Sap Cw= 3 C0= 0.67 CL= 0.5 CA= 0.5 Node Proposed Condition 100 Year Discharge (cfs) Actual Grate Perimeter Effective grate perimeter length d (depth of ponding)Qweir Area of grate, A Effective Grate Area, Ae Qorifice Qcapacity= Min(Qweir, Qorifice)Comment 335 1.4 9.2 4.6 0.22 1.4 4.7 2.35 5.9 1.4 Type D-1 5 grate Brooke Box Grate Inlets in Sag Cw= 3 C0= 0.67 CL= 0.5 CA= 0.5 Node Proposed Condition 100 Year Discharge (cfs) Actual Grate Perimeter Effective grate perimeter length Weir Flow Analysis Head (ft) Area of grate, A Effective Grate Area, Ae Orifice Flow Analysis Head (ft) Max Head (ft)Comment 375 1.3 6.96 3.48 0.2 1.61 0.805 0.09 0.2 24"x24" P:\3219.20\ENGR\REPORTS\DRAIN\HYDRA\lnletcalcs_BlgB.xls I il 1 I I I I I EXHIBIT A Drainage Map - Proposed Conditions