HomeMy WebLinkAboutParcel Map 19580-1 Parcel 3 Hydrology StudyHYDROLOGY REPORT
FOR
Home 2 Temecula
A? /:I�- //9?5"
Single Oak Drive
Temecula, CA
June 27", 2015
Prepared By:
�COF SS/0 Omega Engineering Consultants
�p Q�EW 4340 Viewridge Ave, Suite B
San Diego, CA 92123
Ph: (858)634-8620
No. C 50940
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Vnrew J. KIXI
RC 50040
Registrationpires 9-30-2017
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TABLE OF CONTENTS
-SITE AND PROJECT DESCRIPTION
page 1
-METHODOLOGY
page I
-CULVERT DESIGN AND ANALYSIS
page I
-EXISTING CONDITIONS
page 1
-DEVELOPED CONDITIONS
page I
-EXISTING RUNOFF ANALYSIS
page 2
-DEVELOPED RUNOFF ANALYSIS
page 2
-RESULTS AND CONCLUSIONS
page 3
-I O-YEAR HYDROLOGY CALCS
page 4
-I00-YEAR UNMITIGATED HYDROLOGY CALCS
page 5
- 100-YEAR ORIFICE MITIGATED HYDROLOGY CALCS
page G
-PONDING VOLUME CALCULATIONS
page 7
LIST OF FIGURES
FIGURE 1: VICINITY MAP
FIGURE 2: PROPOSED HYDROLOGY MAP
FIGURE 3: EXISTING HYDROLOGY MAP
APPENDICES
APPENDIX 1.0: HYDROLOGIC SOIL GROUP MAP
APPENDIX 2.0: TIME OF CONCENTRATION NOMOGRAPH
APPENDIX 3 A: INTENSITY DURATION CURVE
r
SITE AND PROJECT DESCRIPTION
This Hydrology and Hydraulics report has been prepared as part of a conceptual design for the
proposed hotel on a vacant lot between Single Oak Drive and Rancho California Road. The
structure and associated hardscape will cover the majority of the existing mass graded pad. See
Figures 1-3 for more detail.
METHODOLOGY
This drainage report has been prepared in accordance with current County of Riverside
regulations and procedures. All of the proposed conduits and conveyances have been designed
to intercept and convey the I00Wyear storm. Sizing calculations shall be included in the final
hydrology report. The Modified Rational Method was used to compute the anticipated runoff.
See the attached calculations for particulars. The following references have been used in
preparation of this report:
(1) Handbook of Hydraulics, E.F. Brater & H.W. King, 6t1' Ed., 1976.
(2) Modern Sewer Design, American Iron & Steel Institute, 1" Ed., 1980.
(3) County of Riverside Hydrology Manual, 1978
j EXISTING CONDITIONS:
The existing site consists of a mass graded pad with a 3:1 cut slope along the westerly
boundary. The cut slope has several large eucalyptus trees and the pad is lightly vegetated with
weeds. The pad slopes to the north east at 2.0 % and drains via an existing driveway apron to
the southerly gutter of Single Oak Drive. Runoff flows along the gutter for 750 feet until it is
intercepted by a curb inlet on Business Park Drive
� The site is 2.66 acres in area and is not subject to stormwater run-on from offsite areas. The
existing site is entirely pervious with no permanent structures in place.
DEVELOPED CONDITIONS:
This project proposes the construction of a new hotel with associated hardscape. The proposed
building will be located in the center of the lot. The project will disturb the majority of the site
and increase the impervious area from 0.0% to 49.8% . This will increase the 100 year peak
runoff flow rates produced by the site from 5.44 cfs to 8.28 cfs. This will be offset by the use of
outlet control and detention in the bioretention area along the northerly boundary of the site.
The proposed site will discharge via a proposed parkway drain to the southerly gutter of Single
Oak Drive. Runoff will thence flow along gutter until it is intercepted by the existing curb inlet
on Business Park Drive, The confluenced flow discharged by the proposed site will not exceed
the existing 100-yr storm peak flow.
In addition to detaining onsite stormwater, the bioretention facilities will treat stormwater for
various pollutants before it is discharged from the site. See Water Quality Management Plan
(WQMP) for details.
1 I
11
i
EXISTING RUNOFF ANALYSIS:
All of the existing site drains via overland flow to a single outlet point at the northeasterly
corner of the site. Only one basin (EX-1) was required for existing calculations.
The basin was found to have the following characteristics.
Fil, Area: 2.66 acres
Impervious %: 0.0%
Length: 420 ft
s J Elevation Change: 24 ft
Time of Concentration: 10.5 mins
Peak 100-year discharge: 4.55 cfs
The time of concentration was calculated using to the Riverside County Hydrology Manual
r-, nomograph late D-3 found in Appendix 2 of this report). Intensities were estimated using the
j g p �p pP P }• g
1 values found in the hydrology manual on plate 4.1 (included as appendix 3 of this report, and
the runoff coefficient was found via the equation on plate D-3.
See the attached calculations for details.
DEVELOPED RUNOFF ANALYSIS:
The developed site calculations divide the site into two separate basins (A-1 & B-1) both of
which drain to a confluence flow via overland flow and concentrated gutter and pipe flow.
Basin A-1 was found to have the following characteristics.
Area:
1.79 acres
Impervious %:
47%
Length:
500 ft
Elevation Change:
24 ft
Time of Concentration:
9.25 mins
Peak 100-year discharge:
5.55 cfs
Basin B--1 was found to have the following characteristics.
Area:
0.87 acres
Impervious %:
55%
Length:
540 ft
Elevation Change:
24 ft
Time of Concentration:
7.75 mins
Peak 100-year discharge:
2.91 efs
The two flows were confluenced according to the equations on Plate D•-1 of the county
hydrology manual. The confluenced 100 year flow was found to be 8.28 cfs. This flow will be
reduced to match the existing peak flow of 4.55 using an outlet control structure and ponding
within the bioretention area along the northerly boundary. See detention sizing calculations for
required storage volume.
2
RESULTS AND CONCLUSIONS
The redevelopment of the site shall result in an increase in peak runoff volumes and flow rates
for the 100 year event. This is due to the increase in impervious area of the site. The impervious
area percentage of the existing site is 0.0% and the proposed site will be 49.8%. The result is a
peak discharge flow rate that is higher than the existing condition. This increase will be
mitigated through the use storage in the northerly bioretention, and an outlet control orifice. The
result will be a proposed discharge that is equal to or less than the existing conditions.
The required storage volume is 1,534 cf, which is equivalent to 1.1' additional ponding in the
northerly bioretention area. Outlet control orifice calculations can be found in the calculations
section at the end of this report
It is the opinion of Omega Engineering Consultants that the project will not cause adverse
effects to the downstream facilities or receiving waters. A separate Water Quality Management
Plan (WQMP) has been prepared to discuss the water quality impacts for the proposed
development.
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Temecula Home2 Suites
Hydraulic Analysis of basin outlet structure
DETENTION BASIN
ORIFICE EQUATION
Weir Formula for Orifices and Short Tubes (free & submerged)
Q = Ca(2gh)"-7 (Eq. 4-10, Brater & King, Handbook of Hydraulics)
1kA ITM
or
Q = the flow rate, ft3lsec
C = the orifice coefficient of discharge
a = the open area of the orifice
g = the acceleration due to gravity
h = head on the horizontal centerline of the orifice
Q = Ca(2 *32.2)11)112
Q = Ca(64.4h)r12 ( C = 0.52 for reentrant tube, from page 4-19, Brater & King, Handbook of Hydraulics)
Q = 4.172a(h)r/2
a = Q 1(4.172(I1)112)
Detention Basin Cale
Given:
Q = 2.71cfs
Assume:
h = 3.43ft
Then:
a =n .349 sf — 8" Diameter Opening
Therefore, 100-yr flow control will be accomplished by the maximum capacity of the 8"
storm drain under the proposed maximum head conditions. The invert of the 8" storm drain
will be constructed 4.1 feet lower than the invert of the emergency overflow spillway. (Center
line of the orifice will be 3.43 ft lower than spillway)
FIJI
Rational Method Hydrograph Program
"Rick RatHydro" @ 1992, 2001 Rick Engineering Company
1
Time of concentration:
9 min
6 Hour Rainfall:
3 in
Basin Area
2.67 ac
Runoff Coefficient:
0.85
(Calc`d weighted average of sub -basins)
i
-f Peak developed ❑ischarge:
8.28
Required retention volume:
1,534 cf
Time (Min)
Inflow (cfs)
Discharge Rate(cfs)
0
0.00
5.44
9
0.00
5.44
18
0.40
5.44
27
0.40
5.44
36
0.40
5.44
45
0.40
5.44
54
0.50
5.44
63
0.50
5.44
72
0.50
5.44
81
0.50
5.44
90
0.50
5.44
99
0.50
5.44
108
0.60
5.44
117
0.60
5.44
126
0.60
5.44
135
0.60
5.44
144
0.70
5.44
153
0.70
5.44
162
0.80
5.44
171
0.80
5.44
180
0.90
5.44
189
0.90
5.44
198
1.10
5.44
207
1.20
5.44
216
1.40
5.44
225
1.60
5.44
234
2.40
5.44
243
7.20
5.44
252
8.28
5.44
261
1.90
5.44
270
1.30
5.44
279
1.00
5.44
288
0.80
5.44
297
0.70
5.44
306
0.70
5.44
315
0.60
5.44
324
0.50
5.44
333
0.50
5.44
342
0.50
5.44
351
0.40
5.44
360
0.40
5.44
369
0.00
5.44
PQ
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SITE
VICINITY MAP
NO SCALE
HOME 2 TEMECULA
PROPOSED HYDROLOGY EXHIBIT
LEGEND. -
PROJECT BOUNDARY . . . . . — AREA LIMITS - � . . . . . . . . . . . . .
?AINAGE DIRECTION ARROW . . . . . . . . . . .
an min
SIN NUMBER . . . . . . . . . . . . . . . . . A-1
TABLE OF BASIN DA TA
.4SIN AREA IMPERVIOUS % LENGTH (FT) HEIGHT (FT) Oloo
1 2.66 A C 007, 420 24 5.44 CFS
SCALE.' 1" = 601
0 30 60 120
OMEGA ENGINEERING CONSULTANTS
4344 viEWRIDGE AVENUE, SUITE B
SAN DIEGCI, CALIFGRIVIA 92123
PFI.• (858) 634-8624 Ff1X.• (858) 634-862 7
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APPENDICES
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TC1
LIMITATIONS:
,
L
100
I. Maximum length =1000'
TC
.
1000
90
2. Maximum area = 10 Acres
5
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900
80
^
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800
70
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700
200
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F71=7710.5 minutes
KEY
9
L-wH-Tc --K-Tc'
o
30
A -'I= 9.25 minutes
8
EXAMPLE:
E
L7
(1j L =550% H =5.0, K = Single Familyt114 Ac.)
35
_
B-I= 7.75 minutes
Development , TC =12.6 min.
-,
6
(2) L =550', H =5.0', K = Commercial
10p
Development , Tc = 9.7 min.
40
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RCFC & WC D
HY17Pti1OGY �VJANUAL
Reference; Bibliography item No. 35.
TIME OF CONCENTRATION
FOR INITIAL SUBAREA
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R C F C 11 W C D
riYDROL DGY JMANUAL
PLATE D-4.1 (4 of S)