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Home My WebLink About6607; Alder Avenue CMP Replacement Hydrology; Alder Avenue CMP Replacement Hydrology; 2009-07-01CMP REPLACEMENT PROJECT ALDER AVENUE Project No: 6607 CITY OF CARLSBAD FINAL SUBMITTAL HYDROLOGY ANALYSIS Prepared by: Harris & Associates 750 B Street, Suite 1800 San Diego, CA92101 (619)236-1778 CMP REPLACEMENT PROJECT ALDER AVENUE Project No: 6607 HYDROLOGY ANALYSIS Prepared under the supervision of: Robert Sutherlin Jr. Project Manager R.C.E 38819 JULY 2009 Table of Contents A. Purpose B. Existing Drainage Facilities C. Hydrology D. Proposed Improvements Appendices o 100-year Hydrology Calculation o 100-year Hydraulic Calculations o Miscellaneous Support Backup """ Enclosure o Hydrology Map A.Purpose The purpose of the Corrugated Metal Pipe (CMP) Replacement project (Project No. 6607) is to repair and replace existing corrugated metal pipe storm drain systems at various locations throughout the city. All CMPs, RCPs and ACPs identified for this project are in various stages of failure. This hydrology report focuses on repair of the Alder Avenue storm drain system, although hydrology calculation and the map include Holly Brae Lane. The location of the existing system is shown on the map below. The blue line indicates that portion of storm drain that will be re-lined. The existing pipe varies from 12" ACP at the Alder cul-de-sac to 18" ACP at the outlet alongside El Camino Real. The existing system has numerous joints that are slightly displaced and some of the pipe shows internal longitudinal cracking. Although the capacity of the pipe will be reduced, the pipe is steep enough that the small amount of runoff can still be handled adequately. Re-lining the pipe will extend the usable service life of this storm drain. Currently, runoff flows from just west of the Holly Brae intersection eastward into the cul-de-sac. The roadway into the cul-de-sac is relatively flat and runoff will sheet flow to the end. This presents a problem in collection of runoff since the flow is spread evenly across the entire roadway. This hydrology report provides the flows and hydraulics for the proposed collection system. The existing inlet at the cul-de-sac on Alder Avenue is simply a 12" hole at grade with asphalt concrete built up to direct flow into the hole. This inlet will be replaced with a Type-B inlet that is sized to collect the entire 100-year runoff. Because of the geometry of the cul-de-sac and the driveways around the circle, a Type- C inlet and several small grated inlets will also be added to the system to capture the flow that typically sheets into the residences at the end of the cul-de-sac. Proposed Lining of Existing Storm Drain Figure 1- Vicinity Map As per City guidelines, inlets in sump condition require 100-year storm event protection be maintained in the underground storm drain pipe system. B. Existing Drainage Facilities (Refer to the Hydrology Map in the map pocket) Drainage is mainly from west to east into the cul-de-sac. A large residence on the north side of Alder and across from Holly Brae concentrates flow from the driveway. Flow from here tends to spread into the street and not flow along the curb line. As water along the existing northern curbline gets to the east end of the cul-de-sac, the depth exceeds the minimal crest at several driveways and flows into the driveways of several residences. Water that does make the end of the cul-de-sac is collected in the 12-inch pipe opening at the end of the street. This inlet is undersized to handle the water flowing down Alder into the cul-de-sac. C. Hydrology With a basin watershed of approximately 2.3 acres, runoff flows mainly from the west toward the small inlet at the east end of the cul-de-sac. Type "D" soil and medium density residential development was used to estimate runoff conditions. The 100-year flow rate in the pipe is 6.5 cubic feet per second (CFS) at node 32 with 6.0 cfs reaching the 12-inch pipe inlet (node 30). D. Proposed Improvements In addition to lining the existing pipe, we propose to add three new inlets and reconstruct the existing inlet. The first inlet of the system is at the driveway outlet on the north side of the roadway. Flow exiting the driveway will be directed into a Type-C catch basin. Along with modifying the existing AC swale along this side of the street, curb and gutter will be constructed to match existing improvements. Two grate inlets will also be constructed at the entrance to the driveways at the end of the cul-de-sac. Because of grade constraints to drive from the street up the existing driveways and onto the properties, we propose to construct grate inlets that will intercept water reaching these points that was not collected in the Type-C inlet mentioned above. These inlets will connect to the existing inlet, which is also being rebuilt. The existing 12-inch pipe inlet will be reconstructed into a Type-B inlet that has capacity to collect almost the entire runoff from the area. Working along with the Type-C and the two grate inlets, these inlets adequately intercept flow in this cul-de-sac. The Water Surface Pressure Gradient (WSPG) program is used to determine the hydraulic grade elevation in the proposed pipeline. Using upstream control, the computations show that the pipe sizes shown are sufficient. The WSPG run and the proposed storm drain plan are included in this report. The inlet computation for the Type-B inlet is included in this report. APPENDICES 100-year Hydrology Calculation Hydraulic Calculations Miscellaneous Support Backup Inlet Calculations, Hydrology Map and Improvement Plan Set 2 alderbraeb.out San Diego County Rational Hydrology Program CIVILCADD/CIVILDESIGN Engineering Software, (c) 1991-2005 Version 7.5 Rational method hydrology program based onSan Diego County Flood Control Division 2003 hydrology manual Rational Hydrology Study Date: 07/01/09 Corrugated Metal Pipe ProjectAlder and Holly Brae 100-year storm event"Alderbraeb" 7/1/2009 by Bob Sutherlin ********* Hydrology Study Control information ********** m Program License Serial Number 6032 at ________________________________________________________________________ Rational hydrology study storm event year is 100.0 »• English (in-lb) input data Units used "• Map data precipitation entered: 6 hour, precipitation (inches) = 2.700 *• 24 hour precipitation(inches) = 4.700 P6/P24 = 57.4% *• San Diego hydrology manual 'C1 values used «R ALDER HYDROLOGY CALC Process from Point/Station 10.000 to Point/Station 15.000 ^ **** INITIAL AREA EVALUATION **** <i Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 m Decimal fraction soil group C = 0.000 I Decimal fraction soil group D = 1.000 m [MEDIUM DENSITY RESIDENTIAL ] (7.3 DU/A or Less ) __ Impervious value, Ai = 0.400 | Sub-Area C value = 0.570 • initial subarea total flow distance = 100.000(Ft.) Highest elevation = 324.100(Ft.) Lowest elevation = 322. 000 (Ft.) ™ Elevation difference = 2. 100 (Ft.) Slope = 2.100 % || INITIAL AREA TIME OF CONCENTRATION CALCULATIONS: The maximum overland flow distance is 80.00 (Ft) _ for the top area slope value of 2.10 %, in a development type of 1 7.3 DU/A or Less H In Accordance With Figure 3-3 initial Area Time of Concentration = 6.66 minutes TC = [1.8*(l.l-C)*distance(Ft.)A.5)/(% slopeA(l/3)]m TC = [1.8*(1.1-0.5700)*( 80.000A.5)/( 2 .10QA(l/3)]= 6.66 i| The initial area total distance of 100.00 (Ft.) entered leaves a remaining distance of 20.00 (Ft.) Using Figure 3-4, the travel time for this distance is 0.35 minutes " for a distance of 20.00 (Ft.) and a slope of 2.10 % H with an elevation difference of 0.42 (Ft.) from the end of the top area Tt = [11.9*length(Mi)A3)/(elevation change(Ft.))]A.385 *60(min/hr) page 1 alderbraeb.out 0.347 Minutes Tt=[(11.9*0.0038A3)/( 0.42)]A.385= 0.35 Total initial area Ti = 6.66 minutes from Figure 3-3 formula plus 0.35 minutes from the Figure 3-4 formula = 7.01 minutes Rainfall intensity (I) = 5.721(in/Hr) for a 100.0 year storm Effective runoff coefficient used for area (Q=KCIA) is C = 0.570 Subarea runoff = 0.261(CFS) Total initial stream area = 0.080(Ac.) ii Process from Point/Station 15.000 to Point/Station 20.000 **** STREET FLOW TRAVEL TIME + SUBAREA FLOW ADDITION **** Top of street segment elevation = 322.000(Ft.) End of street segment elevation = 312.000(Ft.) Length of street segment = 240.000(Ft.)Height of curb above gutter flowline = 6.0(ln.) Width of half street (curb to crown) = 10.000(Ft.) Distance from crown to crossfall grade break = 5.000(Ft.) Slope from gutter to grade break (v/hz) = 0.020 Slope from grade break to crown (v/hz) = 0.020 Street flow is on [2] side(s) of the street Distance from curb to property line = 1.000(Ft.) Slope from curb to property line (v/hz) = 0.025 Gutter width = 1.000(Ft.) Gutter hike from flowline = 1.000(In.) Manning's N in gutter = 0.0150 Manning's N from gutter to grade break = 0.0150 Manning's N from grade break to crown = 0.0150 Estimated mean flow rate at midpoint of street = 1.373(CFS) Depth of flow = 0.156(Ft.), Average velocity = 2.793(Ft/s) Streetflow hydraulics at midpoint of street travel: Halfstreet flow width = 4.626(Ft.) Flow velocity = 2.79(Ft/s) Travel time = 1.43 min. TC = 8.44 min. Adding area flow to street 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 [MEDIUM DENSITY RESIDENTIAL ] (7.3 DU/A or Less ) Impervious value, Ai = 0.400 Sub-Area C value = 0.570 Rainfall intensity = 5.074(ln/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.570 CA = 0.519 Subarea runoff = 2.371(CFS) for 0.830(Ac.) Total runoff = 2.632(CFS) Total area = 0.910(Ac.) Street flow at end of street = 2.632(CFS) Half street flow at end of street = 1.316(CFS) Depth of flow = 0.186(Ft.), Average velocity = 3.246(Ft/s) Flow width (from curb towards crown)= 6.113(Ft.) (2.6 cfs at Node 20 inlet) Process from Point/Station 20.000 to Point/Station **** PIPEFLOW TRAVEL TIME (user specified size) **** Page 2 30.000 alderbraeb.out Upstream point/station elevation = 312.000(Ft.) Downstream point/station elevation = 299.700(Ft.) Pipe length = 120.00(Ft.) Manning's N = 0.013 No. of pipes = 1 Required pipe flow = 2.632(CFS) Given pipe size = 12.00(In.) Calculated individual pipe flow = 2.632(CFS) Normal flow depth in pipe = 3.92(in.) Flow top width inside pipe = 11.26(in.) Critical Depth = 8.34(in.) Pipe flow velocity = 11.80(Ft/s) Travel time through pipe = 0.17 min. Time of concentration (TC) = 8.61 min. Process from Point/Station 30.000 to Point/Station 30.000 **** CONFLUENCE OF MAIN STREAMS **** The following data inside Main Stream is listed: in Main Stream number: 1 Stream flow area = 0.910(AC.) Runoff from this stream = 2.632(CFS) Time of concentration = 8.61 min. Rainfall intensity = 5.010(ln/Hr) Program is now starting with Main Stream No. 2 Process from Point/Station 25.000 to Point/Station 20.000 **** 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 [MEDIUM DENSITY RESIDENTIAL ] (7.3 DU/A or Less ) Impervious value, Ai = 0.400 Sub-Area C Value = 0.570initial subarea total flow distance = 0.100(Ft.) Highest elevation = 330.000(Ft.) Lowest elevation = 312.000(Ft.) Elevation difference = 18.000(Ft.) Slope = 18000.000 % Top of initial Area Slope adjusted by User to 2.000 % INITIAL AREA TIME OF CONCENTRATION CALCULATIONS:The maximum overland flow distance is 80.00 (Ft) for the top area slope value of 2.00 %, in a development type of 7.3 DU/A or Lessin Accordance With Figure 3-3 initial Area Time of Concentration = 6.77 minutes TC = [1.8*(l.l-C)*distance(Ft.)A.5)/(% slopeA(l/3)] TC = [1.8*(1.1-0.5700)*( 80.000A.5)/( 2.00QA(l/3)]= 6.77Rainfall intensity (I) = 5.849(ln/Hr) for a 100.0 year storm Effective runoff coefficient used for area (Q=KCIA) is C = 0.570 Subarea runoff = Z.OOO(CFS) Total initial stream area = 0.600(Ac.) process from Point/Station 20.000 to Point/Station 30.000 I **** STREET FLOW TRAVEL TIME + SUBAREA FLOW ADDITION **** II Top of street segment elevation = 312.000(Ft.) Page 3 « n m 2.934(CFS) 6.724(Ft/s) alderbraeb.out End of street segment elevation = 299.700(Ft.) Length of street segment = 120.000(Ft.) Height of curb above gutter flowline = 6.0(in.) Width of half street (curb to crown) = 20.000(Ft.) Distance from crown to crossfall grade break = 10.000(Ft.) Slope from gutter to grade break (v/hz) = 1.000 Slope from grade breaK to crown (v/hz) = 1.000 Street flow is on [2] side(s) of the street Distance from curb to property line = 10.000(Ft.) Slope from curb to property line (v/hz) = 2.000 Gutter width = 2.000(Ft.) Gutter hike from flowline = 2.000(In.) Manning's N in gutter = 0.0150 Manning's N from gutter to grade break = 0.0150 Manning's N from grade break to crown = 0.0150 Estimated mean flow rate at midpoint of street = Depth of flow = 0.192(Ft.), Average velocity = Streetflow hydraulics at midpoint of street travel: Halfstreet flow width = 2.026(Ft.) Flow velocity = 6.72(Ft/s) Travel time = 0.30 min. TC = 7.07 min.Adding area flow to street 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 [MEDIUM DENSITY RESIDENTIAL ] (10.9 DU/A or Less ) impervious value, Ai = 0.450 Sub-Area C Value = 0.600 Rainfall intensity = 5.689(ln/Hr) for a Effective runoff coefficient used for total area (Q=KCIA) is C = 0.584 CA = 0.678 Subarea runoff = 1.857(CFS) for 0.560(Ac.) Total runoff = 3.857(CFS) Total area = 1.160(Ac.) Street flow at end of street = 3.857(CFS) Half street flow at end of street = 1.929(CFS) Depth of flow = 0.212(Ft.), Average velocity = 7.437(Ft/s) Flow width (from curb towards crown)= 2.046(Ft.) 100.0 year storm ( 3.9 cfs into the Node 30) 1i 3 4 H Process from Point/Station 30.000 to Point/Station 30.000 **** CONFLUENCE OF MAIN STREAMS **** The following data inside Main Stream is listed: in Main Stream number: 2 Stream flow area = 1.160(Ac,) Runoff from this stream = 3.857(CFS) Time of concentration = 7.07 min. Rainfall intensity = 5.689(in/Hr) Summary of stream data: Stream No. Flow rate (CFS) TC (min) 1 2.632 2 3.857 Qmax(l) = 8.61 7.07 Rainfall intensity (in/Hr) 5.010 5.689 Page 4 1i Qmax(2) = 1.000 *0.881 * 1.000 * 1.000 * alderbraeb.out 1.000 * 2.632) + 1.000 * 3.857) + 0.821 * 1.000 * 2.632) + 3.857) + 6.028 6.018 Total of 2 main streams to confluence: Flow rates before confluence point:2.632 3.857 Maximum flow rates at confluence using above data: 6.028 6.018Area of streams before confluence: 0.910 1.160 Results of confluence: T9tal flow rate = 6.028(CFS) Time of concentration = 8.612 min. Effective stream area after confluence =2.070(Ac.) ( 6.0 in pipe @ Node 30) Process from Point/Station 30.000 to Point/Station 32.000 **** PIPEFLOW TRAVEL TIME (user specified size) **** Upstream point/station elevation = 299.700(Ft.) Downstream point/station elevation = 290.000(Ft.) Pipe length = 65.00(Ft.) Manning's N = 0.013 NO. of pipes = 1 Required pipe flow = 6.028(CFS) Given pipe size = 12.00(ln.) Calculated individual pipe flow = 6.028(CFS) Normal flow depth in pipe = 5.55(in.) Flow top width inside pipe = 11.97(ln.) Critical depth could not be calculated. Pipe flow velocity = 16.94(Ft/s) Travel time through pipe = 0.06 min. Time of concentration (TC) = 8.68 min. i 1i m m m m Process from Point/Station **** SUBAREA FLOW ADDITION **** 30.000 to Point/Station 32.000 Decimal fraction soil group A = 0.000Decimal fraction soil group B = 0.000 Decimal fraction soil group C = 0.000Decimal fraction soil group D = 1.000 [MEDIUM DENSITY RESIDENTIAL ] (7.3 DU/A or Less ) Impervious value, Ai = 0.400 Sub-Area C Value = 0.570 Time of concentration = 8.68 min. Rainfall intensity = 4.986(ln/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.577 CA = 1.299 Subarea runoff = 0.449(CFS) for 0.180(Ac.) Total runoff = 6.478(CFS) Total area = 2.250(Ac.) Page 5 alderbraeb.out (0.5 cfs into Type F @ NODE 32) (6.5 cfs in Alder pipe) HOLLY BRAE HYDROLOGY I m m process from Point/Station 50.000 to Point/Station 55.000 **** 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 [MEDIUM DENSITY RESIDENTIAL ] (7.3 DU/A or Less ) impervious value, Ai = 0.400 Sub-Area C Value = 0.570 initial subarea total flow distance Highest elevation = 330.000(Ft.) Lowest elevation = 326.000(Ft.) Elevation difference = 4.000(Ft.) Slope = INITIAL AREA TIME OF CONCENTRATION CALCULATIONS: The maximum overland flow distance is 95.00 (Ft) for the top area slope value of 7.3 DU/A or Less in Accordance With Figure 3-3 initial Area Time of Concentration = 6.05 minutes TC = [1.8*(l.l-C)*distance(Ft.)A.5)/(% slopeA(l/3)] TC = [1.8*(1.1-0.5700)*( 95.000A.5)/( 3.636A(l/3)]= The initial area total distance of 110.00 (Ft.) entered leaves a remaining distance of 15.00 (Ft.) Using Figure 3-4, the travel time for this distance is 0.23 minutes for a distance of 15.00 (Ft.) and a slope of 3.64 % with an elevation difference of 0.55(Ft.) from the end of the top area Tt = [11.9*length(Mi)A3)/(elevation change(Ft.))]A.385 *60(min/hr) 0.225 Minutes Tt=[(11.9*0.0028A3)/( 0.55)]A.385= 0.23 Total initial area Ti = 6.05 minutes from Figure 3-3 formula plus 0.23 minutes from the Figure 3-4 formula = 6.27 minutes Rainfall intensity (I) = 6.146(ln/Hr) for a 100.0 year storm Effective runoff coefficient used for area (Q=KCIA) is C = 0.570 Subarea runoff = 0.561(CFS) Total initial stream area = 0.160(Ac.) = 110.000(Ft.) 3.636 3.64 %, in a development type of 6.05 process from Point/Station 55.000 to Point/Station 60.000 **** STREET FLOW TRAVEL TIME + SUBAREA FLOW ADDITION **** Top of street segment elevation = 326.000(Ft.) End of street segment elevation = 300.000(Ft.) Length of street segment = 250.000(Ft.) Height of curb above gutter flowline = 6.0(ln.) Width of half street (curb to crown) = 15.000(Ft.) Distance from crown to crossfall grade break = 12.000(Ft.) Slope from gutter to grade break (v/hz) = 0.020Slope from grade breaR to crown (v/hz) = 0.020 Page 6 _™ * alderbraeb.out Street flow is on [2] side(s) of the street Distance from curb to property line = 10.000(Ft.) Slope from curb to property line (v/hz) = 0.025 Gutter width = 2.000(Ft.) Gutter hike from flowline = 2.000(in.) Manning's N in gutter = 0.0150 Manning's N from gutter to grade break = 0.0150 Manning's N from grade break to crown = 0.0150 Estimated mean flow rate at midpoint of street = 2.356(CFS) Depth of flow = 0.188(Ft.), Average velocity = 5.302(Ft/s) Streetflow hydraulics at midpoint of street travel: Halfstreet flow width = 3.090(Ft.) Flow velocity = 5.30(Ft/s) Travel time = 0.79 min. TC = 7.06 min. Adding area flow to street 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 [MEDIUM DENSITY RESIDENTIAL ] (7.3 DU/A or Less ) Impervious value, Ai = 0.400 Sub-Area C Value = 0.570 Rainfall intensity = 5.696(ln/Hr) for a 100.0 year storm Effective runoff coefficient used for total area (Q=KCIA) is C = 0.570 CA = 0.701 Subarea runoff = 3.433(CFS) for 1.070(Ac.) Total runoff = 3.993(CFS) Total area = 1.230(Ac.) Street flow at end of street = 3.993(CFS) Half street flow at end of street = 1.997(CFS) Depth of flow = 0.224(Ft.), Average velocity = 5.493(Ft/s) Flow width (from curb towards crown)= 4.866(Ft.) Process from Point/Station 60.000 to Point/Station 70.000 **** STREET FLOW TRAVEL TIME + SUBAREA FLOW ADDITION **** Top of street segment elevation = 300.000(Ft.) End of street segment elevation = 287.400(Ft.) Length of street segment = 220.000(Ft.) Height of curb above gutter flowline = 6.0(ln.) Width of half street (curb to crown) = 15.000(Ft.) Distance from crown to crossfall grade break = 12.000(Ft.) Slope from gutter to grade break (v/hz) = 0.020 Slope from grade break to crown (v/hz) = 0.020 Street flow is on [2] side(s) of the street Distance from curb to property line = 10.000(Ft.) Slope from curb to property line (v/hz) = 0.025 Gutter width = 2.000(Ft.) Gutter hike from flowline = 2.000(In.) Manning's N in gutter = 0.0150 Manning's N from gutter to grade break = 0.0150 Manning's N from grade break to crown = 0.0150 Estimated mean flow rate at midpoint of street = 6.179(CFS) Depth of flow = 0.273(Ft.), Average velocity = 4.661(Ft/s) Streetflow hydraulics at midpoint of street travel: Halfstreet flow width = 7.322(Ft.) Flow velocity = 4.66(Ft/s) Travel time = 0.79 min. TC = 7.84 min. Adding area flow to street Decimal fraction soil group A = 0.000 Decimal fraction soil group B = 0.000 Page 7 "• alderbraeb.out Decimal fraction soil group C = 0.000<* Decimal fraction soil group D = 1.000 [MEDIUM DENSITY RESIDENTIAL ] «• (7.3 DU/A or Less ) Impervious value, Ai = 0.400 * Sub-Area C value = 0.570 Rainfall intensity = 5.320(ln/Hr) for a 100.0 year storm ^ Effective runoff coefficient used for total area j (Q=KCIA) is C = 0.570 CA = 1.545 " Subarea runoff = 4.225(CFS) for 1.480(Ac.) Total runoff = 8.218(CFS) Total area = 2.710(Ac.) 1 Street flow at end of street = 8.218(CFS) J Half street flow at end of street = 4.109(CFS) • Depth of flow = 0.294(Ft.), Average velocity = 4.953(Ft/s) Flow width (from curb towards crown)= 8.384(Ft.) *| End of computations, total study area = 4.960 (Ac.) 4 (8.2 cfs at Node 70 sump) m Page 8 100-year Hydraulic Calculations m a 11 li li ft a ft J ft J ft J ft J ft Jl ft l i i i i ii II ii ft i ft i I i ft * alderlOOb.wswTl CMP Replacement Project for the City of Carlsbad 0 T2 Alder Avenue 100-year " " " """ YSW" 7/1/2009 195.360 .000 .000 0 .000 .000 0 .000 .000 0 .000 .000 0 .000 .000 0 .000 .000 0 90.0 .000 .000 .000 0 .000 .000 0 297.840 90.0 90.0 .000 .000 .000 0 90.0 .000 .000 .000 0 T3 Filename " SO R R R R R R WE JX R R JX R JX R SH CD CD CD Q 100 112 123 143 163 193 308 308 312 444 447 451 561 565 592 592 1 4 2 4 3 4 .000 .500 .000 .000 .000 .000 .000 .000 .000 .000 .000 .000 .880 .880 .810 .810 1 1 1 AlderlOOb.wsw" 7/1/2009 195 204 210 223 233 244 280 280 281 297 297 297 300 300 301 301 .360 .000 .500 .000 .000 .500 .970 .970 .620 .150 .510 .840 .060 .170 .520 .520 .000 .000 .000 2.600 1 1 1 1 11 1 1 2 2 3 3 3 3 3 31 0 1 .0 195.360 .011 .011 .011 .011 .011 .011 .500 3 .011 .500 .011 .013 3 0.013 2.900 .013 .013 .013 281. .500 297. 700 900 302.520 .417 .000 .000 .917 .000 .000 .000 .000 .000 .000 .00 .000 .00 .000 .00 Page 1 i I ft. i ft i • i l i i i D FILE: alderlOOb.WSW 1 alderlOOb.OUT W S P G W - CIVILDESIGN Version 14.06 Program Package Serial Number: 1773 WATER SURFACE PROFILE LISTINGCMP Replacement Project for the City of CarlsbadAlder Avenue 100-yearFilename " AlderlOOb.wsw" 7/1/2009 PAGE Date: 7- 1-2009 Time:12:51:58 ft******** Station - L/Elem ********* 100.000- 12 . 500 112 . 500- 10.500 123.000- 11.146 134.146- 8.854 143.000- 9.783 152.783 - 10.217 163.000 - 7.981 . 170.981- 22.019 193.000- 14.828 ************************************************************************* invert Depth water | Q | vel Vel Energy Super Elev (FT) Elev | (CFS) | CFPS) Head Grd.El. Elev- Ch Slope : ********* 1 195.360 -.6912 1 204.000 1- .6190 210.500 - .6250 217.466 - .6250 223.000 .5000 227.892 - .5000 233.000 -.3833 236.059 - .3833 244.500- .3171 - 44****** .265 - .271- .273 - .279- .289 .294- .304- .305 - .315 - FILE: alderlOOb.WSW -|_ -|- _|_- I | SF AV6 HF 1 1 195.625 6.50 31.98 15.88 -1- -1- -1- .6142 1 1204.271 6.50 31.01 14.93 -1- -1- -1- .5775 1 1 210.773 6.50 30.63 14.57_|_ -|- _|_ .5430 1 1 217.745 6.50 29.67 13.67 -1- -1- -1- .4857 1 1 223.289 6.50 28.29 12.43 -1- -1- -1- .4377 1 1 228.185 6.50 27.60 11.83 -1- -1- -1- .3957 1 1 233.304 6.50 26.31 10.75 _|. -|- -|- .3659 1 1 236.364 6.50 26.15 10.62 -1- -1- -1- .3400 1 1 244.815 6.50 24.94 9.66 -1- -1- -1- .3172 211.50- 7.68 219.20 - 6.06 225.35 ~ ~ 6.05 231.42- 4.30 235.72 - 4.28 240.01 - 4.04 244.06 2.92 246.99- 7.49 254.47- 4.70 - Critical | Flow Top |Height/| Base Wt| Depth | width |Dia.-FT|or I.D. ZL -1- -1-SE Dpth|Froude N|Norm Dp | "N"««»»»>»» ! »«»«»>» ! »«»«-«« 1 1.00 1.00 1.10 1.410--1- -1- .26 13.12 .26 .011 1 1.00 1.00 1.11 1.410-_ 1 _ _ 1 _ .27 12.58 .27 .011 1 1 1 .00 1.00 1.11 1.410 --[- -I- .27 12.37 .27 .0111 1 .00 1.00 1.12 1.410 -1- -1- -1- .28 11.84 .27 .011 III .00 1.00 1.14 1.410 --1- -1- .29 11.09 .28 .0111 1 .00 1.00 1.15 1.410--1- -1- .29 10.72 .28 .0111 1 .00 1.00 1.16 1.410--I- _l_ .30 10.05 .30 .0111 1 .00 1.00 1.16 1.410 -1- -1- -1- .30 9.96 .30 .0111 1 .00 1.00 1.17 1.410 -1- -1- -1- .32 9.33 .32 .011 W S P G W - CIVILDESIGN Version 14.06 _ _ x-Fall ZR ******* ***** . 000 . 00 -- .00 .00 . 000 . 00-- .00 .00 . 000 . 00--.00 .00 .000 .00--.00 .00 . 000 . 00 -- .00 .00 . 000 . 00 -- .00 .00 . 000 . 00-.00 .00 . 000 . 00- .00 .00 . 000 . 00- .00 .00 ******** NO wth Prs/Pip Type Ch******* 1 .0 - PIPE 1 .0- PIPE 1 .0 - PIPE .1 .0- PIPE 1 .0- PIPE 1 .0- PIPE 1 .0 PIPE 1 .0- PIPE 1 .0- PIPE PAGE Date: 7- 1-2009 Time:12:51:58 2 Program Package Serial Number: 1773 WATER SURFACE PROFILE LISTINGCMP Replacement Project for the City of CarlsbadAlder Avenue 100-yearFilename " AlderlOOb.wsw" 7/1/2009 444444*****ftft*4**********ft*ft*ft***********ft***ftft**************************ft**4*ft******************ft**************4ft******4* ******** I Invert | Station | Elev | vel Energy | Super (critical|Flow Top(Height/1 Base Wt| ZL I NO Wth I Prs/Pip Depth | Water | Q | Vel ... . . . . _r(FT) | Elev | (CFS) | (FPS) Head | Grd.El.l Elev | Depth | width |Dia.-FT|or I.D. -I- -I- -I- -I- -I- -I- -I- -I- -I- -I- -I- -I-L/Elem |Ch Slope | I | | SF Ave| HF |SE Dpth|Froude N|Norm Dp | "N" | x-Fall| ZR I Type Ch Page 1 hi k I II fc J ft i alderlOOb.OUT********* 207.828 43.014 250.841- 23.697 274.539_ 10.719 285.258- 6.763 292.021 4.845 296.866- 3.711 300.577- 2.962 303.539- 2.430 305.969- 2.031 ********* i ******** I I249.202 J- -1-.3171| | 262.843 1- -1-.3171 1 1270.358 1- -1-.3171 1 1 273.758 1- -1-.3171 1275.903i i1 - - 1 -.3171 1277.439 -1-.3171 1278.616 -1-.3171 1279.555 -1-.3171 1280.326 1- -1-.3171 .315- .319_ .330_ .342- .353 .366- 1 .378 -1 1 .391 -1 1.405- D FILE: alderlOOb.WSW 3 ********* i ********* | I249.518 6.50 -1- -1 I263.163 6.50 -1- 1270.689 6.50 -1- 1274.099 6.50 -1- 1276.256 6.50 _ - 1 - - 1 1277.805 6.50 -1- 1 1278.994 6.50 -I- 1 1279.947 6.50 -1- 1 1280.731 6.50 -1- w s ******* | 24.94 -1 24.48 -1 23.34 -1 22.25 -1 21.21 i- 1 20.23 -1 19.29 -1 18.39 -1 17.53 -1 P G W - 9.66 259.17_ _ .3090 13.29 I9.30 272.46_ _ .2819 6.6818.46 279.14 -1-.2465 2.64 17.69 281.79 -1-.2155 1.46 6.99 283.24 .1885 .91 6.35 284.16_ _ .1649 .61 5.78 284.77_ _ .1443 .43 5.25 285.20_ _ .1262 .31 4.77 285.50_ _ .1105 .22 i ******* i ******** I .00 1.001- -1-.32 9.33| .00 1.00-1-.32 9.091 .00 1.001- -1-.33 8.52 1.00 1.00-1-.34 7.97 1.00 1.00 1 - - 1 - - .35 7.47 1 .00 1.00 1- -1-.37 6.99 1 1.00 1.001- -1-.38 6.54 1.00 1.001- -1- .39 6.12 1.00 1.001- -1-.40 5.73 ******** 1.17 -.32 1.18_ .32 1.19_ .32 1.21- .32 1.22 .32 1.24- .32 1.25 - ' - .32 1.26 -.32 1.28- .32 ******* 1.410- .011 1.410- .011 1.410_ .011 1.410- .011 1.410 .011 1.410- .011 1.410 .011 1.410 -.011 1.410 .011 ******* | .000-1.001.000-1.001.000-1.001.000-1.001.000 - - 1 .001 .000-1.001.000-1.001.000-1.001.000-1.00 ft**** .00 - .00 .00- .00 .00- .00 .00- .00 .00 .00 .00 - .00 .00- .00 .00- .00 .00- .00 CIVILDESIGN version 14.06 Program Package Serial Number: 1773 CMP Replacement Project WATER for the SURFACE PROFILE LISTING City of Carlsbad Date : 7-1-2009 1 ******* 1 .01-PIPE11 .01-PIPE11 .01-PIPE 1 1 .01-PIPE 1 1 .01 _ PIPE 1 1 .01-PIPE 1 1 .0 1-PIPE 1 1 .0 1-PIPE 1 1 .0 1-PIPE PAGE Time:12:51:58 Alder Avenue 100-year Filename " AlderlOOb .wsw"7/1/2009************************************************************************************************************************** Stati on- L/Elem 308.000- JUNCT STR 312 . 000- 6.526 318.526 - Invert [ Elev |1 - *********!** 280.970 1- -|- .1625 1 281.620 1- -1- .1177 | 1 282.388 -1- Depth (FT) - .419 -1 1 .473- .473 - Water | Q Elev I (CFS) -1- *********'******************! ********* 281.389 6.50 -1- 1282.093 6.00 -1- i 282.861 6.00 -1- vel (FPS)-1 *******! 16.70 -1 17.55 -1 17.55 -1 Vel Energy Head Grd.El._ _ _ _ SF AV6 HF 4.33 285.72_ _ .1102 .44 4.78 286.88_ _ .1177 .77 1 4.78 287.65 - - Page 2 Super (Critical Elev | Depth_ - 1 - -SE Dpth|Froude N 1.00 1.00 -1-.42 5.35 1 .00 .89 1- -1- .47 5.05i i1 1.00 .89 1- -1- Flow Top Width- - Norm Dp 1.29 .91 -.47 .91 Height/ Dia.-FT "N" 1.410_ .011 .910- .011 .910 - Base Wt| or I.D. I -1X-Falll 1 .000-1.001 .000-1.00 11 .000-1 ZL - -ZR .00_ .00 .00_ .00 .00 ******** (NO Wth iPrs/Pip I JType Ch 1 0 .0 1-PIPE I 1 .0 1-PIPE 1 1 .0 1- ft i i i i i 11 i. j 1 i i i 11 ft, i it, J alderlOOb.OUT 59.639 .1177 1 378.165 289.404 -1- 22.780 .1177 1400.945 292.084 -1-12.112 .1177 1 1 413.057 293.509 -1- -1- 8.024 .1177 1 1 421.080 294.453 -1- 5.859 .1177 1 1 426.940 295.143 -1- -1-4.513 .1177 1 431.452 295.674 -1-3.594 .1177 D FILE: alderlOOb.WSW 4 .487 -1 .506- .526- .547- .570- .594- CMP 289.891- 292.590- 294.036 -1 295.001- 1295.713- 296.268- Program 6.00_ 16.00_ 6.00_ 6.00- 6.00- 6.00_ W S 16.94 -1 16.15 -1 15.40 -1 14.68 -1 14.00 -1 13.34 -1 P G W - .1123 1 4.45 -1- .1007 4.05_ _ .0889 3.68_ _ .0786 3.35 .0696 3.04_ _ .0617 2.77_ _ .0548 6.70 294.34 2.29 296.64 1.08 297.72 .63 298.35 .41 298.75 .28 299.03 .20 .47 5.05 I .00 .89 .49 4.78 1.00 .89_ _ _ | _ .51 4.44 1 .00 .89 -1- -1-.53 4.12 1 1 .00 .89 -1- .55 3.82 1 1 .00 .89 -1- -I- .57 3.53 1.00 .89 -1- .59 3.26 .47 .011 1 I .91 .910 1- -1-.47 .011 1 1. 90 . 910 1- -1-.47 .011 1 I . 90 . 910 1- -1-.47 .011 1 1 .89 .910 1- -1- .47 .011 1 1 .88 .910 1- -1-.47 .011 1 1 .87 .910 1- -1- .47 .011 .00 .000-.00 .000_ .00 .000_ .00 .000- .00 .000_ .00 .000-.00 .00 .00- .00 .001- .001.00-.00 .001-.001.00-.00 .00 - .00 CIVILDESIGN Version 14.06 PIPE11 .01- PIPE11 .01-PIPE1 1 .01- PIPE11 .01- PIPE11 .01- PIPE1 1 .01- PIPE PAGE Package Serial Number: 1773 Replacement Project Alder Avenue 100-year WATER for the SURFACE PROFILE LISTING Date: 7-1-2009 Time:12:51:58 City of Carlsbad Filename " AlderlOOb.wsw" 7/1/2009 ************************************************************************************************************************** invert 1 Depth Water Q vel vel Energy Super [Critical 1 Flow Top (Height/ 1 Base Wt| Station Elev | (FT) Elev (CFS) (FPS) Head Grd.El. Elev | Depth 1 Width |Dia.-FT|or I.D. ZL1- 1 435.046 296.097 -1- -1- 2.920 .1177 1437.966 296.440 -1- -1-2.403 .1177 1 440.369 296.723 -1-1.989 .1177 1 1 442.358 296.957-|_ -|_ 1.642 .1177 1 444.000 297.150 -1-.388 .1200 1 1444.388 297.197 -1- - .619- 1.647- 1 .677 -1 .709- .746 -1 .758 -1 - - 296.716 -1 297.087 -1 1 297.400- 297.666- 297.896 -1 297.954 - - - 6.00- 6.00- 6.00_ 1 6.00- 6.00- 6.00 - -1 12.72 -1 12.13 -1 11.57 -1 11.03 -1 9.55 -1 9.40 -1 _ _ _ SF Ave ******* *: 2.51_ _ .0488 2.29 -1-.0436 2.08_ _ .0391 1 1.89_ _ .0353 1.42_ _ .0339 1.37_ _ Page HF it****** 299.23 .14 299.37 .10 299.48 .08 299.55 .06 299.31 .01 299.33 3 _ _ _ 1 _ _-SE Dpth|Froude NiNorm Dp j "N" * ******* j ******** 1 .00 .89 -1- -1- .62 3.01 1 .00 .89 -1- -1-.65 2.76 1 1 .00 .89 -1- .68 2.52 1 .00 .89 -1-.71 2.29 1 .00 .96 -1- -1- .75 1.98 1 .00 .96 -1- -1- 1 "KTf 7T 7C If IT W ff 1 If Tf Tf Tf Tf ff tf 1 1 .85 .910 1- -1- .47 .011 1 1 .83 .910 1- -1-.47 .011 1 1 .79 .910 1- -1-.47 .011 1 I .75 .910 1- -1-.47 .011 1 I .87 1.000 1- -1- .49 .013 1 1 .86 1.000 1- -1- - X-Fall ******* .000-.00 .000 .00 .000 .00 .000- .00 .000_ .00 .000_ -ZR***** .00-.00 .00- .00 .00 .00 .00 .00 .00 .00 .00 ********INO wth|prs/Pip1 |Type Ch j ******* 1 1 .0 1- PIPE 1 1 .0 1- PIPE 1 1 .0 PIPE 1 .01- PIPE| 1 .0 PIPE 1 1 .0 1- k i II II I J k ..... J t- J II II 1 I II Ik I II I i .987 445.375 .779 446.154 - .568 446.722 -.278 .1200 297.315_ _ .1200 297.408 - .1200 297.477 -.1200 .795- .837_ .887_ 298.110_ 298.246_ 298.364_ D FILE: alderlOOb.wsw5 CMP Program 16.00 -1 I 6.00 -1 1 6.00 -1 W S alderlOOb.OUT .0317 .03 8.96 1.25 299.36-|- -|- .0287 .02 8.54 1.13 299.38 -1- -I- .0263 .01 1 8.15 1.03 299.39 -1- .0250 .01 .76I I.00 1- -1.80 .00 1- -1.84 1 I.00 1- -1.89 1.92 .96 1.73 .96_ 1.54 .96_ 1.33 .49 1 .81 1-.49 I .74 1-.49 1 .63 1-.49 .013 1 1.0001-.013 I 1.0001-.013 1 1.0001-.013 .001.000-1.001.000-1.001.000-1.00 P G W - CIVILDESIGN Version 14.06 .00 PIPE1.00 1 .01- .00 PIPE1.00 1 .01-.00 PIPE1.00 1 .01-.00 PIPE PAGE Package Serial Number: 1773 Replacement Project Alder Avenue Station- Invert Elev _ _ Depth (FT) - Filename " Water Elev- L/Elem |ch Slope********* 447.000- 3UNCT STR 451.000- 81.549 532.549 -2.062 534.611- HYDRAULIC 534.611- 8.805 543.416- 7.644 551.060 - 5.914 556.974 -4.906 561.880 -1 ********* ******** 297.510_ _ .0825 297.840 .0200 299.473 - - .0200 299.514_ _ JUMP 299.514_ _ .0200 299.690_ _ .0200 299.843_ _ .0200 299.962_ _ .0200 300.060 - - .955- 2.198 - 1.000- .907- .469- .469- .453 -1 1 .436- 1 .421 - ********* 298.465- 300.038- 300.473- 300.421- 299.983 -1 300.160 -1 300.296 -1 1 300.398- 300.481- 100-year AlderlOOb Q 1CCFS) |-1 ********* 1 1 6.00 -1 1 2.60 -1 12.60 -1 1 2.60 -1 12.60 -1 1 2.60 -1 12.60 I_ | 1 2.60 -1 1 2.60 -1 WATER SURFACE PROFILE LISTING for the City of Carlsbad .wsw" 7/1/2009 Vel Vel Energy (FPS) Head Grd.El._ | _ _ _ SF Ave HF******* i ******* ********* 7.76 .94 299.40 -1- -1-.0150 .06 3.31 .17 300.21 -1- -1- .0053 .43 3.31 .17 300.64_ | _ _ _ .0049 .01 1 3.47 .19 300.61 -1- 1 7.18 .80 300.78 -1-.0265 .23 7.18 .80 300.96_ | _ _ _ .0283 .22 7.53 .88 301.18 -1-.0322 .19 7.90 .97 301.37 -1- -1-.0366 .18 8.28 1.07 301.55 -1- -1- Page 4 I Super [Critical| Elev | Depth1 - - i ISE Dpth| ! ******* 1 .001- -1.96 1 1.001- -12.20 1 1.001- -11.001 1 .001- -1 1 1.001- -1.47 1 1.001- -1.47 1 I.001- -1.45 1 I .00 1- -1.44 1 1 .00 1- -1 - Date: 7-1-2009 Time:12:51:58 iFlow Top | Height/ lease Wt| |No Wth1 width |Dia.-FT|or i.D.j ZL |Prs/Pip 1- Froude N|Norm Dp******** .96- 1.00 .69- .00 .69- .00 .69- .69- 2.10 .69- 2.10 .69- 2.25 .69- 2.42 .69- i ******** | .41 1- 1 .00 1-.51 1 .001-.51 1 .58 1- 1 1.00 1-.51 1 1.001-.51 1 1.001-.51 1 .99 1-.51 1 .99 1- 1- | "N"******* 1 1.0001-.013 1 1.0001-.013 1 1.0001-.013 1 1.0001- 1 1.0001- .013 1 1.0001-.013 I 1.0001- .013 I 1.0001- .013 1 1.0001- -1 X-Falll******* 1 .000-1.00 1.000-1.00 1.000-1.001 .000-1 1 .000-1.001 .000-1.001 .000-1.001 .000-1.001 .000-1 -1 ZR (Type Ch***** ******* 1.00 1 .01-.00 PIPE 1.00 1 .01- .00 PIPE 1.00 1 .01-.00 PIPE 1 .00 1 .01- 1.00 1 .01- .00 PIPE1 .00 1 .01-.00 PIPE1 .00 1 .01-.00 PIPE1 .00 1 .01- .00 PIPE1 .00 1 .01- K I ft • ft I ft I ft\ J ft J I J k J * ..A * I II II II fc ..J i 1 alderlOOb.OUT JUNCT STR .0275Q FILE: alderlOOb.wsw 6 CMP Program W S P G W - .0405 .16 .42 2.59CIVILDESIGN Version 14.06 Package Serial Number: 1773 WATER SURFACE PROFILE LISTING Replacement Project Alder Avenue Filename " 100-year for the AlderlOOb.wsw" City of Carlsbad 7/1/2009 .013 .00 .00 PIPE PAGE Date: 7-1-2009 Time:12:51:58 ************************************************************************************************************************** ******** Station_ L/Elem********* 565.880- 3.951 569.831 ~6.587 576.418_ 4.284 580.702 -3.055 583.757 -2.294 586.051 1.766 587.817 1.379 589.196_ 1.083 590.279_ .839 Invert Elev_ _ Ch Slope********* 300.170 -.0501 300.368 - .0501 300.698 -.0501 300.913 - .0501 301.066 -.0501 301.181 - .0501 301.270 - .0501 301.339 -1.0501 1301.393 -1.0501 Depth (FT) ******** .412 - .418 - .433 - .449 - .466 - .484 - .502 - .521 - .542 - waterElev_ _ ********* 300.582 300.786_ 301.132 301.362- 301.532 301.665_ 301.772_ 301.860 -1 301.935_ D FILE: alderlOOb.wsw Q(CFS) - - ft******** 2.60_ 2.60_ 2.60_ 2.60 - 2.60_ 2.60_ 2.60_ 2.60_ 2.60 - W S Vel(FPS) -1 ******* j 8.51 -1 8.36 -1 7.97 -1 7.60 -1 7.24 -1 6.91 -1 6.58 -1 6.28 -1 5.99 -1 P G W - vel Energy super (criticalHead Grd.El. Elev | Depth_ __ __ - 1 - - I Flow TopI Width1-SF Ave HF SE Dpth|Froude N|Norm Dp******* ********* ******* ******** 1.13 301.71 .00 .69__ __ _ | _ .0410 .16 .41 2.69 1 1 1 1.08 301.87 .00 .69 -1- -1- -1-.0375 .25 .42 2.62 1 1 1.99 302.12 .00 .69__ __ _ i _ .0329 .14 .43 2.45 1 1 1.90 302.26 .00 .69 -1- -1- -1-.0290 .09 .45 2.28 1 1.81 302.35 .00 .69__ __ _ | _ .0255 .06 .47 2.13 1 1.74 302.41 .00 .69 -1- -1-.0224 .04 .48 1.98 1 1 1.67 302.45 .00 .69_|_ _|. _|_ .0197 .03 .50 1.85 1 1.61 302.47 .00 .69 -1-.0174 .02 .52 1.72 1 .56 302.49 .00 .69__ _|_ _ | _ .0154 .01 .54 1.60 CIVILDESIGN version 14.06 1 ******** .98 1-.39i1 .99 1- .39 1 .99 1-.39 1 .99 1-.39 1 1.00 1-.39 1 1.00 1- .39 1 1.00 1-.39 1 1.00 1-.39 1 1.00 1-.39 Height/lBase Wt| Dia.-FT|or I.D. - - 1 "N" | ******* jj 1.000-1.013 i 1.000-1.013 11.000 -1.013 1 1.000 -1.013 11.000-1.013 1 1.000 -1.013 11.000 -1.013 1 1.000-1.013 11.000-1.013 - -X-Fall ******* .000- .00 .000 - .00 .000- .00 .000 - .00 .000- .00 .000- .00 .000- .00 .000 - .00 .000_ .00 ZL- - ZR***** .00- .00 .00 - .00 .00- .00 .00 - .00 .00- .00 .00- .00 .00- .00 .00-.00 .00 "".00 No Wth Prs/Pip Type Ch******* 1 .0- PIPE 1 .0- PIPE 1 .0- PIPE 1 .0- PIPE 1 .0- PIPE 1 .0- PIPE 1 .0- PIPE 1 .0 - PIPE 1 .0- PIPE PAGE Date: 7- 1-2009 Time:12:51:58 7 Program Package Serial Number: 1773 WATER SURFACE PROFILE LISTING CMP Replacement Project for the City of Carlsbad Alder Avenue 100-year Filename " AlderlOOb.wsw" 7/1/2009 ************************************************************************************************************************** ******** Stati on Invert I Depth | Water | Q | vel Elev I (FT) I Elev I (CFS) | (FPS) -I- -I- -I- -I- vel | Energy | Super [Critical|Flow Top(Height/1Base wtI |No Wth Head Grd.El.I Elev | Depth width Dia.-FT or I.D. ZL Prs/Pip -|- -|- -|- -I- -I- -I- -I- -I Page 5 m:. ..... i ft.,*fc.J fc..J 9k,M t.l II I I II it,M K-J • 1 II alderlOOb.ourL/Elem |ch slope II | | SF Ave| HF |SE Dpth********* ********* ******** ********* ****************!**************** ******* 1 591.118 -1- .645 1 591.763 -1-.472 1592.235 -1-.324 1 592.559 -1- .188 1592.747 -1-.063 1 592.810 -1- 1 301.435 -1-.0501 1 301.468 -1-.0501 1301.491 -1-.0501 1 301.507 -1- .0501 1301.517 -1-.0501 1 301.520 -1- 1 .563 -1- 1 .585 -1- 1.609 -1- 1 .634 -1- 1.661 -1- 1 .691 -1- 301. 302. 302. 302. 302. 302. 1 998 -1- 1053 -1- 1100-1- 1142 -1- 1178 -1- 1 211 -1- 1 2.60 -1- 1 2.60 -1- 12.60 -1- 1 2.60 -1- 12.60 -1- 1 2.60 -1- 5.71 -1- 5.44 -1- 5.19 -1- 4.95 -1- 4.72 -1- 4.49 -1- 1 .51 -1-.0136 1 .46 -1-.0120 1.42 -1-.0106 1 .38 -1-.0094 1.35 -1-.0084 1.31 -1- 1 302.50 -1-.01 1 302.51 -1-.01 1 302.52 -1-.00 1 302.52 -1-.00 1 302.52 -1-.00 1 302.52 -1- Froude N|Norm Dp | "N" | X-Fa11| ZR******** ******** ******* i ******* ***** 1 .00 .69 -1- .56 1.48 1 .00 .69_ -1-.59 1.38 1 .00 .69--1-.61 1.28 1 1 .00 .69 -1- -1-.63 1.18 1 1 .00 .69 -1- -1-.66 1.09 1 .00 .69--1- .99 .39 .99 .39 .98 .39 .96 .39 .95 .39 .92 1 1 1.000-1- -1-.013 1 1 1.000-1- -1-.013 \ 11.000-1- -1-.013 1 1 1.000-1- -1-.013 1 11.000-1- -1-.013 1 1 1.000-1- -1- 1 .000-1-.001 .000-1-.00 1.000-1-.001 .000-1-.001.000-1-.001 .000-1- .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 |Type Ch******* 1 1 1- PIPE 1 1 1-PIPE 1 1 1-PIPE 1 1 1- PIPE 1 1 1-PIPE 1 1 1- .0 .0 .0 .0 .0 .0 Page 6 Miscellaneous Support Backup Inlet Calculations, Hydrology Map and Improvement Plan Set 1J Alder Inlet @ Node 20 Worksheet for Irregular Channel Project Description Project File Worksheet Flow Element Method Solve For c:\haestad\fmw\alderinl.fm2 Alder inlet Irregular Channel Manning's Formula Water Elevation Input Data Channel Slope 0.100000 ft/ft Elevation range: 313.76 ft to 314.50 ft. Station (ft) 0.00 20.00 22.00 22.10 32.00 Discharge Elevation (ft) 314.00 313.80 313.76 314.26 314.50 2.60 Sta cfs 0.00 20.00 End Station 20.00 32.00 Roughness 0.018 0.015 Results Wtd. Mannings Coefficient Water Surface Elevation Flow Area Wetted Perimeter Top Width Height Critical Depth Critical Slope Velocity Velocity Head Specific Energy Froude Number Flow is supercritical. 0.015 313.89 0.60 10.89 10.78 0.13 313.95 0.008562 4.33 0.29 314.18 3.24 ft ft2 ft ft ft ft ft/ft ft/s ft ft 06/09/09 02:57:39 PM Haestad Methods, Inc. 37 Brookside Road Waterbury, CT 06708 (203)755-1666 Flow/Master v5.07 Page 1 of 1 1J 3 CHART 1-103,6 A CAPACITY OF CURB OPENING INLETS ASSUMED 2% CROWN, Q = 0.7L (A+Y)3/2 *A = 0,33 Y = HEIGHT OF WATER AT CURB FACE (0,4' MAXIMUM) REFER TO CHART 1-104,12 L = LENGTH OF CLEAR OPENING OF INLET *Use A=0 when the inlet is adjacent to traffic; i.e., for a Type "J" median inlet or where the parking lane is removed. CITY OF $AN DIEGO - DESIGN GUIDE CAPACITY OP CURB OPENING INLETS SHT. NO. Harris & Associates Program Managers Construction Managers Civil Engineers Project Description Proj. No..Date. Sht. of. . Chk'd By. m * A &K L -4 I I / C ' * II -f I 1 4 : L L: CHART I-I03.6C SECTION"ELEVATION -ww.-v,.-, l~"" CITY OF SAN DIEGO - DESIGN GUIDE -| NOMOGRAM-CAPACITY ,CUR5 "" INLET AT SAG I- .13 SHT NO I nu D I I I I D D I I 0 I I I I I I I CONSTRUCTION PLANS FOR CORRUGATED METAL PIPE REPLACEMENT PROGRAM ALDER AVENUE, VIA LIBERTAD & MARRON ROAD STORM DRAIN PROJECT NO. 6607 CITY OF CARLSBAD CARLSBAD, CALIFORNIA HCMTYMAP NOTTOSCAIE LEGEND DESCRIPTION STREET CENTERUNE STREET RIGHT-OF-WAY PROPERTY UNE EASEMENT LINE CURB & GUTTER (EXISTING) STORK DRAIN (EXISTING) CONCRETE BROW DITCH EXISTING GAS LINE EXISTING WATER LINE EXISTING ELECTRICAL LINE/BOX EXISTING CABLE TV CONDUIT EXISTING TELEPHONE CONDUIT EXISTING SEWER MAIN EXISTING SEWER LATERAL RCP STORM DRAIN (PROPOSED) CURB * GUTTER (PROPOSED) STORM DRAIN CURB INLET TYPE B (PROPOSED) D-2 STORM DRAIN CLEANOUT-TYPE A (PROPOSED) D-9 CITY OF CARLSBAD LOCAL DEPRESSION (PROPOSED) DS-1 PROPOSED FINISH GRADE ELEVATION EXISTING GRADE ELEVATION ABBREVIATIONS , 35.80 FC (32.80)EG AC ACP AB E'LY EX.\EMST. F.S.N.T.S. PROP RCP. R/W SOST WLY ASPHALT CONCRETE ASBESTOS CEMENT PIPE AGGREGATE BASECENTERUNEEASTERLYEXISTING FINISHED SURFACE NOT TO SCALEPROPOSED REINFORCED CONCRETE PIPE RIGHT OF WAY STORM DRAINSTREETWESTERLY CITYCOUNCIL CLAUDE A. "BUD" LEWIS-MAYOR ANN KULCHIN - MAYOR PRO TEM MATT HALL - COUNCIL MEMBER MARK PACKARD - COUNCIL MEMBER KEITH BLACKBURN - COUNCIL MEMBER LISA HILDABRAND CITYMANAGER GLENN PRUIM PUBLIC WORKS DIRECTOR ROBERT T. JOHNSON JR. CITY ENGINEER |\\f.'.-c>imi.iuo j.\ '-•^•af^'' Vx;'---/"^//'' \\ !?C,' -.""-. \'\ \ V'/'"'""' '-'" RteifS \<:tt<f ''^V;i^^; ^ittl 1%^%rv%, v/ ^X^J^^ '••'' 'iV*-' i .4* •'' -"'s"1'. V ' "f ^t:" »\ J \V'.''1, \''' II ,'\*\V 'l»1T .*'•'••': \ SS', V.V.* . \ * •' / '. '• Ii LOCATION MAP NOT TO SCALE SHEET INDEX DECLARATION OF RESPONSIBLE CHARGE I HEREBY DECLARE THAT I AM THE ENGINEER OF WORK FOR THIS PROJECT,THAT I HAVE EXERCISED RESPONSIBLE CHARGE OVER THE DESIGN OF THE PROJECT AS DEFINED IN SECTION 6703 OF THE BUSINESS AND PROFESSIONSCODE, AND THAT THE DESIGN IS CONSISTENT WiTH CURRENT STANDARDS. I UNDERSTAND THAT THE CHECK OF PROJECT DRAWINGS AND SPECIFICATIONS BY THE CITY OF INDIO IS CONFINED TO A REVIEW ONLY ANDDOES NOT RELIEVE ME. AS ENGINEER OF WORK. OF BY RESPONSIBILITIES FOR FRU: HARKS AND ASSOCIATES ADDRESS: 750 B SWEET, SUITE 1800SAN DIEGO, CA 92101 TELEPHONE: (SIS) 236-1778 FAX- (f!9) 236-7)79 ROBERT SUTHERUN JR. K.C.E. 388)9EXP. DATE 1/31/11 TITLESHEET, VICINITYMAP AND LOCATION MAP ALDER AVENUE PLAN & PROFILE VIA LIBERTAD PLAN & PROFILE MARRON ROAD PLAN & PROFILE TRAFFIC CONTROL PLAN (ALDER AVE. ONELCAMINOREAL) 70% DESIGN SUBMTTTAL JUNE 2009 NOT FOR CONSTRUCTION Underground Service Alert Call: TOLL FREE 1-800 227-2600 TWO WORKING DAYS BEFORE YOU DIG Basis of Coordinates: NAD 83 (1991.35 EPOCH) CLS8-115 K 2002712.371' E 6234065.652' ELEV. 319.004' (NAVD88) RECORD OF SURVEY 17271. 2- IRON PIPE AND DISC STAMPED "CLS8-115 L.S. 6215" IN WEST SIDE AC SHOULDER OPPOSITE 3935 SKYUNE RD. - CLSB-126 N 2001291.609' E 6236635.227* ELEV 76.76T (NAVD) RECORD OF SURVEY 17271. 2" IRON PIPE AND DISC STAMPED 'CLS8-I26 LS. 6215" 15 FEET OFF EAST SHOULDER OF EL CAUINO REAL 100 FEET SOUTH OF INTERSECTION WITH TAMARACK AVE. BENCH MARK: CLSB-126 ELEV.: 76.767' DATUU: NAVD 88RECORD OF SURVEY 17271 2" IRON PIPE AND DISC STAMPED •CLSB-126 LS. 6215' 15 FEET OFF EASTSHOULDER OF EL CAUINO REAL 100 FEET SOUTH OF INTERSECTION WITH TAMARACK "AS BUILT* REVIEWED BYi INSPECTOR PREPARED BY: HARRIS 4 ASSOCIATES 750 B Strut, Sulh 1800 Son W«g°, CA 92101 (619) 236-IT7J • F« (619) 236-1179 ROBERT C. SUTHERUN JR. RCE 38819 ENGINEER OF WORK REVISION DESCRIPTION QTM£R APPROVAL CUP REPLACEUEKT PROGRAM CITY OF CARLSBAD ENGINEERING DEPARMENT K 0 0KQ. K UJ gO5 Q. LU K Q. O TITLE SHEET. VICINITY MAP AND LOCATION MAP APPROVED WILLIAM E. PLUMMER DEPUTY CITY ENGINEER RCE 28176 EXP. 03/31/10 DATE OWN BY: CB CHKD BY: BSFIELD BY: PROJECT NO. 6607 DRAWING NO. xxx-x H;\Co.!-lsbad\CMP-Replo.cenent_Alclei—AveMMPRDVEMENT PLANSXSHT-Ol-ALDER-AV-IP-SD.dwg 6/9/2009 2:33:57 PM PDT JN 082-0071.01 1 Ry 0 I I I I D I I I I I I I I I I =3WEJN3CONFUCiyiHm-1 'ROPOSEBiSTORMTXlRAINiTHeiC OTlHACTOIf-SHAUsfe? 3+00 4+00 5+00 6+00 8 WIDE DRAINAGE EASEMENT DEDICATEO ANDACCEPTED PER MAP NO. 2647. FILE* NO. -.43077 RECORDED APRIL MATCH TO EX.EDGE ELEVATION?. INLET DETAILN.T.S. VICTOR V. AVEDIAN;MONICA H. AVEDIAN 3860 SKYLINE RD.APN: 207-063-02 ••BACKFILL COMPACTED TO SOX KELATIVE COMPACTION BEDDING AND PIPE ZONE BACKFILL SAND EQUIVALENT >30 GRAPHIC SCALETRENC1LPETAIL N.T.S. 7+00CONSTRUCTION NOTES (7) INSTALL CURED-IN-PLACE-PIPE UNER IN EXISTING 12" iT ACP HOST PIPE PER SPECIFICATIONS. (V) INSTALL CURED-IN-PLACE-PIPE UNER IN EXISTING 18" ^-^ ACP HOST PIPE PER SPECIFICATIONS. (?) CONSTRUCT TYPE "C" CURB INLET PER SDRSD D-3 WITH ^-^ GRATE AND MODIFIED LOCAL DEPRESSION PER CSD DS-1AND DETAIL HEREON. CONSTRUCT TYPE "A-4" CLEANOUT PER SDRSD D-9. CONSTRUCT 12" RCP DRAIN PIPE. SEE TRENCH DETAIL_ HEREON. (9J INSTALL TYPE "B" CURB INLET PER SDRSD D-2 (SEE DETAIL BELOW) AND EXTEND EXISTING PIPE TO MATCH. INSTALL CURB AND GUTTER PER SDRSD G-2 TYPE G. 11) CONSTRUCT AC BERM PER SDRSD G-5 TYPE A. PROTECT IN PLACE. INSTALL 24"x24" DRAIN BOX WITH TRAFFIC GRATE PER US PRECAST 2424VF-24 OR EQUAL CURB AND BERM DATA TABLE LINEmmmmmmm LENGTH 1.00'± 2.57- 7.30' 5.00' 5.00' 17.11' 7.771 RADIUS - 2.00' 25.00' 46.00' 46.00' 16.89' - BEARING/DELTA N34-27'56"E i-73'33'24" ^16'44'32" i-0613'51" 4-061 3'51" A-58-02'29" N54'54'38"E REMARKS 6" AC BERM 6" AC BERM 6" AC BERM C*G PER G-2 CiG PER G-2 6" AC BERM CiG PER G-2 REFERENCE DRAWINGS DWG NO. 139-2 DWG NO. 232-8 DWG NO. 300-4 70% DESIGN SUBMITTAL JUNE 2009 NOT FOR CONSTRUCTION ( IN FEET ) 1 inch - 20 ft Underground Service Alert Call: TOLL FREE 1-800 227-2600 TWO WORKING DAYS BEFORE YOU DIG Basis of Coordinates: NAD 83 (1991.35 EPOCH) CLSB-115 N 2002712.371' E 623406S.652' ELEV. 319.004' (NAVD8B) RECORD OF SURVEY 17271. 2" IRON PIPE AND DISC STAMPED "CLS8-115 LS, 6215" IN WEST SIDE AC SHOULDER OPPOSITE 3935 SKYLINE RD. - CLSB-126 N 2001291.609' E 6236635.227" ELEV 76.767" (NAVD) RECORD OF SURVEY 17271, 2" IRON PIPE AND DISC STAMPED "CLSB-126LS. 6215" 15 FEET OFF EAST SHOULDER OF EL CAUINO REAL 100 FEETSOUTH OF INTERSECTION WITH TAMARACK AVE. BENCH MARK: CLSB-128 ELEV.: 76.767"DATUM: NAVD 88RECORD OF SURVEY 17271 2" IRON PIPE AND DISC STAMPED "CLSB-126 LS. 6215" 15 FEET OFF EASTSHOULDER OF a CAUINO REAL 100 FEET SOUTH OF INTERSECTION WITH TAMARACK AVE. 'AS BUILT' EXP. . REVIEWED BY. INSPECTOR DATE PREWIRED BY: HARRIS & ASSOCIATES 750 B Stmt, Suit. IBM Son Dtego. U 92101 ((II) 23(-177« • FAX (618) 236-1179 ROBERT C. SUTHERLJN JR. RCE 38819 ENGINEER OF WORK REVISION DESCRIPTION OTHER APPROVAL CITY APPROVAL SHEET2 CITY OF CARLSBAD ENGINEERING DEPARMENT 6 SHEETS CUP REPLACEMENT PROGRAM ALDER AVENUE PLAN AND PROFILE STA: 1+00.00 - STA: 2+05.00 APPROVED WLLIAM E. PLUUMER DEPUTY CITY ENGINEER RCE 28176 EXP. 03/31/10 OWN BY: CB CHKD BY: BS FIELD BY: PROJECT NO. 6607 DRAWING NO. XXX-X H:\Carl5bad\CMP-Replacenent_Atdei--Ave\IMPRDVEMENT PLANS\SHT-02-ALDER-AV-IP-SD.dv»g 6/9/2009 2:13:34 PM PDT