projects module safe clean water welcome to · 2019. 5. 28. · 1 ponding depth: the ponding layer...
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Welcome to Safe Clean Water Projects Module
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Santa Ynez LDF
Current Score: 71Project Leads: DanielWeather Type: DryWatershed Area: Lower LosAngeles River
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Basset HS
Current Score: 74Project Leads: DanielWeather Type: WetWatershed Area: Central SantaMonica Bay
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MY PROJECTS
Overview Location Background
Project Name
Basset HS
Project Description
Basset HS
Watershed
Central Santa Monica Bay
Total Funding Requested
Project Weather Type
Dry
Wet
Project Leads
Daniel
Additional Project Collaborators
Additional Project Collaborators
Additional Project Collaborators
Additional Project Collaborators
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$ 37000000
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Overview Location Background
Latitude Longitude
Project Address
Street Address
123 Watershed Court
City
Los Angele
State
CA
Zip Code
12345
Please upload a location map
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DD 34.1234 DD -118.1234
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Overview Location Background
Provide a historical background of the Project.
Description
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Configuration Capture Area Diversion Site Conditions& Constraints
Cost Schedule Monitoring O & M
BMP Type
Infiltration Facility
Ponding Depth
Soil Depth
Underdrain Depth
Supporting Documentation
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ft 3
ft 2
ft 1
Ponding depth: The ponding layer is the top-most layer of a surface bmp,generally an open volume area for vegetation to be successful.Ponding depth refers to the depth of water which is held in theponding layer of the BMP.
Soil depth: The soil media layer is the area most immediately below theponded layer. It provides opportunity for stormwater to percolateto the subsurface and for the roots of vegetation to penetrateand take hold. Soil depth refers to the depth of water which isheld in the soil layer of the BMP.
Underdrain depth: The underdrain layer is an optional layer just beneath the soilmedia area. When present it conveys captured stormwater backto the storm drain network. Underdrain depth refers to the depthof water which is held in the underdrain layer of the BMP.
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Configuration CaptureArea
Diversion SiteConditions
&Constraints
Cost Schedule Monitoring O & M
Total Capture Area
Impervious Area
Pervious Area
Breakdown of impervious Acreage in CaptureArea
Land Use Percent of totalimpervious acreage
ImperviousArea
Add
Select Land Use
Land Use TypePercentImpervious Acre
DeleteEntry
Single FamilyResidential
50% 225
Urban OpenSpace
15% 68
Commercial 25% 112.5
Highways andInterstates
10% 45
Describe whether and how the 85th percentile is being captured/diverted.If not, is there opportunity to do so? If feasible but not incorporated,explain why. If not feasible, explain why.
Description
Upload a PDF map of the capture area
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ac 875
ac 450
ac 425
% % Impervious ac 3.2
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Configuration CaptureArea
Diversion SiteConditions
&Constraints
Cost Schedule Monitoring O & M
Does the project have diversion structure? No
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Configuration CaptureArea
Diversion SiteConditions
&Constraints
Cost Schedule Monitoring O & M
Provide a summary of engineering analysis or estimatesof existing site conditions (e.g. soil sampling, hydrologyreport, monitoring data, utility search, right-of-way, etc.).Describe existing and/or potential constraints orlimitations due to existing conditions.
Description
Upload Geotechnical PDF Upload Hydrology PDF
Upload Right Of Way PDF Upload Utility PDF
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Configuration CaptureArea
Diversion SiteConditions
&Constraints
Cost Schedule Monitoring O & M
Capital CostConstruction Cost
Planning and Design Cost (including early concept design, pre-projectmonitoring, feasibility study development, site investigations, formalproject design, intermediate and project completion audits, CEQA andother environmental impact studies, and permitting)
Annual Costs
Annual Maintenance Cost
Annual Operation Cost
Annual Monitoring Cost
Project Life Span
Module-generated Values:
Total Life-CycleCost:
$ 41,438,871.63
Annualized Life-Cycle Cost:
$ 1,727,058.56
or
Use my Own
$ 27000000
$ 10000000
$ 100000
$ 50000
$ 35000
years 50
Note: Applies anannualdiscount rateas a static rateequal to3.375%. The only costsnot included intotal life-cyclecost are thedismantlingandreplacementcosts at theend of life.
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Configuration CaptureArea
Diversion SiteConditions
&Constraints
Cost Schedule Monitoring O & M
Provide a preliminary schedule required to design, permit,construct, operate, and maintain the Project.
Milestone Name
Milestone Name
Completion Date
12/31/2020
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Configuration CaptureArea
Diversion SiteConditions
&Constraints
Cost Schedule Monitoring O & M
Has any monitoring data been compiled related to the project? No
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Configuration CaptureArea
Diversion SiteConditions
&Constraints
Cost Schedule Monitoring O & M
Describe how operations and maintenance will be carriedout for the Project.
Description
Please attach an initial letter of support for the projectthat includes concurrence on proposed operations andmaintenance plan and the responsible party, and a planto incorporate vector minimization into the projectdesign, operations, and maintenance.
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24-hr Capacity Event-based Performance Long-term Performance
Storage Volume
Effective Draw Down Rate
Infiltration Footprint Area
Stormwater Use During 24-hr Design Event
Module-generated 24-hr Capacity: dynamically generated #
or
Use my Own
24-hr Capacity
Attach PDF Justification If User Value
Used
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ac-ft 2
in/hr 1.5
ac 0.5
gal 5
ac-ft 36
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24-hr Capacity Event-based Performance Long-term Performance
Event Base Performance
In this section, details regarding the project inlets andoutlets are provided, along with estimates generated forthe project design event. The event-based informationis envisioned as basic estimates that would begenerated during the project design.
Estimated Total Inflow Volume during Design Event
Describe the Event used for Project Design
Description
Inlets
Inflow Rate
Total Inflow
PrimaryPollutant
Please Cho
EstimatedConcentration
Total Inflow
Please Cho
SecondaryPollutant
Please Cho
EstimatedConcentration
Total Inflow
Please Cho
Outlets
Out flow volume
Treated?
No
PrimaryPollutant
Please Cho
EstimatedConcentration
Total Inflow
Please Cho
SecondaryPollutant
Please Cho
EstimatedConcentration
Total Inflow
Please Cho
Description of methods used to generate estimates
Description of methods used
ac-ft 5.4
cfs 4.7
ac-ft 0.5
# 0.2 # 0.1
cfs 1.8
# 0.1 # 0.1
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24-hr Capacity Event-based Performance Long-term Performance
Long Term Pollutant Reduction Benefit
This page will have a table that summarizes the WMMSgenerated pollutant reduction estimates. The user willselect the values to use, or enter their own withjustification.
Primary
Primary Pollutant
Bacteria
Pollutant reductionmethod
Method 1 (% Conc
Selection justification
Justification
Module-generated10-year PollutantReduction: N/A
Use my ownvalue Yes
Value
Supporting docs PDF
Secondary
Secondary Pollutant
Metals Lead
Pollutant reductionmethod
Method 2 (% Load
Selection justification
Justification
Module-generated10-year PollutantReduction: N/A
Use my ownvalue Yes
Value
Supporting docs PDF
PollutantName
Method 1 (%ConcentrationReduction)
Method 2(% LoadReduction)
Method 3 (%Exceedance DayReduction)
Bacteria 7.69 % 7.78 % N/A
N/A Modeling Results not available from Projects Module, must bemanually generated by user
Under Construction: this page will support users byconducting 10-year WMMS simulations based on user-providedinformation. Not all BMP types will be handled – for exampleprojects with a complex treatment train or real time controls willnot be handled.
% 50 % 100
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PollutantName
Method 1 (%ConcentrationReduction)
Method 2(% LoadReduction)
Method 3 (%Exceedance DayReduction)
MetalsCopper(TCU)
7.54 % 7.62 % N/A
Metals Lead(TPB)
7.56 % 7.62 % N/A
Metals Zinc(TZN)
7.54 % 7.62 % N/A
Toxics N/A N/A N/A
NutrientsNitrogen(TN)
7.69 % 7.77 % N/A
NutrientsPhosphorous(TP)
7.69 % 7.77 % N/A
Chloride N/A N/A N/A
Trash N/A N/A N/A
N/A Modeling Results not available from Projects Module, must bemanually generated by user
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Nexus Benefit Magnitude Cost Effectiveness
Please describe the nexus between water captured by the project andwater supply
Description
No Does this project capture water foronsite irrigation use?
No Does this project capture water used forwater recycling by a wastewatertreatment facility?
Is the project connected to a water supply aquifer? No
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Describe onsite irrigation use
Describe water recycling
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Nexus Benefit Magnitude Cost Effectiveness
Average annual water volume captured for irrigation or recycling
Estimate the % of wet weather flow capture by the project that recharges awater supply aquifer
Describe methods used to estimate the portion of captured flow thatbenefits water supply
Description
Module-generatedestimate of annualaverage inflow: 175ac-ft
or
Use My own No
Module-generatedestimate of annualaverage capture forwater supply: 0.161ac-ft
or
Use My own Yes
My average annual watersupply benefit from recharge,irrigation and recycling
Justification
Justification
Upload justification ofcalculations if user valueused
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ac-ft 4.2
% Estimate
Under Construction: this page will support usersby conducting 10-year WMMS simulations based onuser-provided information. Not all BMP types will behandled – for example projects with a complextreatment train or real time controls will not behandled.
ac-ft 266
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Nexus Benefit Magnitude Cost Effectiveness
Scoring Module Estimates: $ 6493 per ac-ft
or
Use My own Yes
My Estimate
Justification
Justification
Upload Supporting Documentation
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$ per ac-ft 12752
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Community Investment Benefits
Yes Does this project improve floodmanagement, flood conveyance,or flood risk mitigation?
Please provide detailed description of benefit provided.
No Does this project create, enhance,or restore park space, habitat, orwetland space?
Please provide detailed description of benefit provided.
Yes Does this project improve publicaccess to waterways?
Please provide detailed description of benefit provided.
Yes Does this project create orenhance new recreationalopportunities?
Please provide detailed description of benefit provided.
No Does this project create orenhance green spaces at school?
Please provide detailed description of benefit provided.
No Does this project improve publichealth?
Please provide detailed description of benefit provided.
No Does this project reduce heatlocal island effect?
Please provide detailed description of benefit provided.
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No Does this project increase shadeor the number of trees or othervegetation at the site location?
Please provide detailed description of benefit provided.
No Does this project reduce carbonemissions or increasesequestration of carbon?
Please provide detailed description of benefit provided.
No Does this project improve local airquality?
Please provide detailed description of benefit provided.
Upload Optional Supporting Documentation
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Nature Based Solutions
Yes Does this project implement naturalprocesses?
Please provide detailed description of natural processes implemented.
Yes Does this project utilize naturalmaterials?
Please provide detailed description of natural materials utilized.
Removed Impermeable Area
Prior Impervious Area Post Impervious Area
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ac 100 ac 0
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Cost Share Local Support
Is additional funding being provided as a Cost Share for thisproject? Yes
Funding Type
Select Funding Type
Description
Description
Amount
Supporting PDF
FundingType Description
FundingAmount PDF
DeleteEntry
Agreements $18500000
LocalSupportA.pdf
Total FundsRequested:
$37000000.00
PercentFunded:
0.00%TotalFundingSecured:
$18500000.00
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Note: if this project is receiving funds fromMeasure A, please provide an acknowledgementthat the project will be fully subject to andcomply with the displacement policiesassociated with Measure A.
$ 50000
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Cost Share Local Support
Please describe the Outreach Plan conducted for this project
Description
Does this demonstrate strong local, community-based support? Yes
Supporting Organization
Organization Name
Description
Description
Optional Supporting PDF
OrganizationName Description PDF
DeleteEntry
Someone n/a
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EnvironmentalDocumentsand Permits
Alternatives Effectiveness LegalRequirements& Obligations
TechnicalReports
Other
Discuss what potential environmental documentations(e.g. CEQA, NEPA, etc.) will be required or has beencompleted for the Project. Describe potential permittingchallenges and associated time requirements and costs.
Description
Optional Environmental Documentation and Permits
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EnvironmentalDocumentsand Permits
Alternatives Effectiveness LegalRequirements& Obligations
TechnicalReports
Other
Describe alternatives that were considered and evaluatedas part of the Project development.
Description
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EnvironmentalDocumentsand Permits
Alternatives Effectiveness LegalRequirements& Obligations
TechnicalReports
Other
Describe the effectiveness of similar types of projectsalready constructed if applicable.
Description
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EnvironmentalDocumentsand Permits
Alternatives Effectiveness LegalRequirements& Obligations
TechnicalReports
Other
Describe any legal requirements or obligations that mayarise as a result of constructing the Project and how theserequirements will be satisfied.
Description
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EnvironmentalDocumentsand Permits
Alternatives Effectiveness LegalRequirements& Obligations
TechnicalReports
Other
Please upload additional technical reports related to thisproject not provided above.
Technical Reports
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EnvironmentalDocumentsand Permits
Alternatives Effectiveness LegalRequirements& Obligations
TechnicalReports
Other
Provide any additional information related to the Projectas necessary.
Description
Additional Documentation
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Score
Total Score: 74
ScoringSection
MyScore
MaxPoints Scoring Criteria
Ideas toImproveScore
WaterQuality WetWeather Part 1
14 20
Effectiveness(Cost Effectiveness) =(24-hour BMP Capacity) / (CapitalCost in $Millions)
<0.4 (acre feet capacity / $-Million) = 0 points
0.4-0.6 (acre feet capacity / $-Million) = 7 points
0.6-0.8 (acre feet capacity / $-Million) = 11 points
0.8-1.0 (acre feet capacity / $-Million) = 14 points
>1.0 (acre feet capacity / $-Million) = 20 points
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ScoringSection
MyScore
MaxPoints Scoring Criteria
Ideas toImproveScore
WaterQuality WetWeather Part 2
25 30
Primary Class of Pollutants>50% = 15 points>80%= 20 points
(20 Points Max) Second or More Classes of Pollutant
>50% = 5 points>80%= 10 points
(10 Points Max)
WaterSupply Part 1
0 13
>$2500/ac-ft = 0 points$2,000–2,500/ac-ft = 3 points$1500-2,000/ac-ft = 6 points$1000–1500/ac-ft = 10 points<$1000/ac-ft = 13 points
WaterSupply Part 2
9 12
<25 ac-ft/year = 0 points25 - 100 ac-ft/year = 2 points100 - 200 ac-ft/year = 5 points>300 ac-ft/year = 12 points
CommunityInvestment
1 10
One of the CommunityInvestment Benefits defined above =1 points
Four distinct CommunityInvestment Benefits = 4 points
Seven distinct CommunityInvestment Benefit = 10 points
NatureBasedSolutions
15 15
Implements natural processes ormimics natural processes to slow,detain, capture, and absorb/infiltratewater in a manner that protects,enhances and/or restores habitat,green space and/or usable openspace = 5 points
Utilizes natural materials such assoils and vegetation with apreference for native vegetation = 5points
Removes Impermeable Area fromProject (1 point per 20% paved arearemoved) = 5 points
LeveragingFunds Part 1
6 6
>25% Funding Matched = 3points
>50% Funding Matched = 6points
LeveragingFunds Part 2
4 4
The Project demonstrates stronglocal, community-based supportand/or has been developed as partof a partnership with localNGOs/CBOs.
Totals 74 110
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Compile
The Projects Module can generate a compiled PDFwith all sections and attachments.
Compile Download Previusly
Compiled Date
Done
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