meeting handout2018/07/26 · meeting handout meeting: board meeting date: july 26, 2018 items: 5.1...
TRANSCRIPT
MEETING HANDOUT
Meeting: Board Meeting
Date: July 26, 2018 Items: 5.1 Plante Moran Financial Presentation
6.2 Cadiz Valley Water Conservation, Recovery and
Storage Project Update
• Cadiz Water Project Renewable Resource • Bonanza Spring Revised Cross Sections & Geology • Cadiz Pilot Testing Update
Government Accounting & Financial Solutions for Fenner Valley Water Authority
LaTonya Edwards248-223-3897
Brian J. Camiller, CPA248-223-3840
Plante Moran Overview
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Client Value Proposition
You are hiring Plante Moran, not an individual
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The value proposition
• Financial and accounting expertise• Improved reporting and analysis• Turnkey solutions
• Cost-effective• Enables scale
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Operational excellence
TechnologyProcessPeople
+ =
Service DeliveryAccounting function with add-on services• Services tailored to specific client needs
Specialized team• Dedicated accounting consultants, managers, and partners• Former finance directors, CPAs, former government auditors,
and others• Supplemented by PM auditing and consulting practices
Customized delivery • Local on-site, travel, or remote• “One-size-fits-one” implementation approach
Delivery model• Operational excellence
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FVWA FinancialsFY 2017/18
FY 2017/18 Summary
FY 2017/18 activities were primarily administrative in nature with no significant engineering activities
Total annual expenses are well under budget
Final FY 2017/18 bills will be processed by the end of July
Reimbursement of FVWA to SMWD will occur within 30 days
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Revenue and Expenditure Report• FY 2017/18 expenditures were roughly $100,000, with final
invoices due to FVWA by end of July
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Assets and Liabilities
• FVWA has a net position of zero
• Sinking fund maintains a balance of $125,000
• FVWA will maintain a minimal bank balance of 2,500 once established
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Questions
Cadiz Water Project Renewable Resource
Unsaturated Alluvium
Fenner Valley Aquifer
Proposed groundwater drawdown from pumping is 15 feet at the edge of Fenner Valley
Saturated Alluvium
~1400 ft Elevation drop
Clipper Mountain derived groundwater contributes to the Fenner Valley groundwater system but is una�ected by changes in Fenner Valley water table
Igneous Extrusives(Volcanic)
300 ft
Proposed Cadiz Well�eldElevation ~1000 ft
Relatively Solid Rock (essentially no groundwater)
Groundwater Barrier(fault zone)
Fractured Rock Units with groundwater
Fractured Rock Unit
with ground water
Drawdown Water Table
Fractured Rock Unit Very Permeable Bedrock
New York Mtns. ~40 Miles North
Providence Mtns.(13 to 30 Miles NNW)
Bonanza Spring
Fractured Rock Unit with
in�ltrating groundwater
11 Miles from Bonanza Springs to Well-field Perched groundwaterfrom spring ontop ofbedrock
Bonanza Spring groundwater source Rain water In�ltrates fractured rock in thewestern Clipper Mountains, and �ows downward to water table, then moves laterally toward spring within Fractured Rock Unit
WATER TABLE ELEVATION 2100 ft
Key Points Bonanza Spring is fed by rainwater percolatinginto rocks in the western Clipper MountainsThe Fenner Valley Alluvial aquifer is independent of the western Clipper Mountain groundwater unit
Igneous Intrusives
Original Water Table
Relatively Solid Rock (essentially no groundwater)
Clipper Mtns
Clipper MtnsWater Table
WATER MOVESTOWARD YOU
WATER MOVES TO THE RIGHT
Clipper MtnsWater Table
10 Miles
CadizWellField
BonanzaSpring
Prov
iden
ce
M
ts
New York M
ts
Clip
per Mts
CrossSection
Marble Mts
Ship
Mts
Piute Range
Lanfair Valley
F
enn
er
Val
ley
Piute
Mts
Old
W
oman
Mts
WoodsMountain Caldera
REGIONAL MAP
Very
th
in Allu
vium
The Cadiz Valley Water Conservation, Recovery, and Storage Project
Bonanza SpringRevised Cross Sections & Geology
THE CADIZ VALLEY WATER CONSERVATION, RECOVERY, AND STORAGE PROJECT
July 26, 2018
Terry Foreman, PG, CHgTLF Consulting, LLC
Miles Kenney, PHD, PGKenney Geoscience
&
The Cadiz Valley Water Conservation, Recovery, and Storage Project
Setting
The Cadiz Valley Water Conservation, Recovery, and Storage Project
Aerial Image – Clipper Mountains
The Cadiz Valley Water Conservation, Recovery, and Storage Project
Geologic Map – Clipper Mountains
The Cadiz Valley Water Conservation, Recovery, and Storage Project
Stratigraphic Section – Clipper Mountains
The Cadiz Valley Water Conservation, Recovery, and Storage Project
Local Geology
The Cadiz Valley Water Conservation, Recovery, and Storage Project
Cross section B-B’ - Original
The Cadiz Valley Water Conservation, Recovery, and Storage Project
Cross Section B-B’ - Revised
The Cadiz Valley Water Conservation, Recovery, and Storage Project
Cross Section – “Cartoon” Version
The Cadiz Valley Water Conservation, Recovery, and Storage Project
Extra Slides for Discussion if needed
The Cadiz Valley Water Conservation, Recovery, and Storage Project
Western Clipper Mountains – Geology
The Cadiz Valley Water Conservation, Recovery, and Storage Project
Catchment Area of Bonanza Spring
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Cadiz Pilot Testing UpdatePreliminary Results For Discussion Purposes Only
7/26/2018
Important
The material in this presentation has been prepared by Jacobs®.
Copyright and other intellectual property rights in this presentation vest exclusively with Jacobs. Apart from any use permitted under applicable copyright legislation, no part of this work may in any form or by any means (electronic, graphic, mechanical, photocopying, recording or otherwise) be reproduced, copied, stored in a retrieval system or transmitted without prior written permission.
Jacobs is a trademark of Jacobs Engineering Group Inc.
Copyright December 3, 2018Jacobs Engineering Group Inc. All rights reserved.
Disclaimer
©
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Overview• Current Pilot Testing
Results Update• Proposed Nitrate Removal
Pilot Testing
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Simplified RCF Testing Conducted with:
1 Pipeline Reduction of Hexavalent Chromium, 2 Followed Pipeline Oxidation of Iron with Air, 3 Followed by Filtration
Pilot Equipment was Supplied By ATEC Systems
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Treatment System Removes- Hexavalent Chromium- Total Chromium- Arsenic- Iron- Manganese
Pilot Testing – 100 gpm, 6 months
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Pilot Testing Equipment from Atec Systems, Hollister, CA
Sampling Program – Start Date April 12, 2018
Month Week Monitoring ScheduleMonth 1 Week 1 Hourly Sampling
Weeks 2, 3 and 4 Weekly SamplingMonth 2 Week 1 Hourly Sampling
Weeks 2, 3 and 4 Weekly SamplingMonth 3 Week 1 Hourly Sampling
Weeks 2, 3 and 4 Weekly SamplingMonth 4 Week 1 Hourly Sampling
Weeks 2, 3 and 4 Weekly SamplingMonth 5 Week 1 Hourly Sampling
Weeks 2, 3 and 4 Weekly SamplingMonth 6 Week 1 Hourly Sampling
Weeks 2, 3 and 4 Weekly Sampling
Parameter Type of Monitoring Raw Water
Filter Inlet
Filter Outlet
Iron, Total Grab Sample, Field Test Weekly Weekly 21/weekManganese, Total
Grab Sample, Field Test Weekly Weekly 4/week
Arsenic, Total Grab Sample, Laboratory Test Weekly Weekly 4/weekChromium, Total Grab Sample, Laboratory Test Weekly Weekly 4/weekHexavalent Chromium
Grab Sample, Laboratory Test Weekly Weekly 4/week
Pressure Reading Weekly WeeklyWater Flow Reading Weekly WeeklyAir Flow Reading Weekly WeeklyFerrous Chloride Dose
Tested with a Calibration Column on Suction Line, with
each change in dose.pH Grab Sample, Field Test Weekly WeeklyDissolved Oxygen
Grab Sample, Field Test, Probe Weekly Weekly
Air Temperature Grab WeeklyWater Temperature
Grab Weekly
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Six month duration:- 1 week of hourly sampling for a 12 hour run- 3 weeks of weekly samples
Data is a mix of lab samples and field tests
Hexavalent Chromium Removal Results to date
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Total Chromium Removal Results to date
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Filtered Water approaching 2 ug/L
Arsenic Removal Results to date
Polymer Addition– Tested Week of 6/25/2018
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Filtered Water Below 0.15mg/L
Iron in Hourly Testing
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Summary of Pilot Testing to Date• Three month of testing complete, some laboratory data still pending• Next steps: continue with polymer addition, add nitrate removal pilot testing
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Updated Sludge Disposal Cost based on Initial Pilot Tests
Input Final Sludge Percent Dry Solids at End of Drying Cycle
60%
Calculate Wet Tons of Sludge 300 tons/yrCalculate Density of Sludge 94.8 lb/cfCalculate Average Annual Sludge Production 235 cy/yr
Input Final Sludge Percent Dry Slids at End of Drying Cycle
20%
Calculate Wet Tons of Sludge 900 tons/yrCalculate Density of Sludge 70.4 lb/cfCalculate Average Annual Sludge Production 950 cy/yr
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Distances to disposal sites are 75 to 100 milesDisposal costs range from $26 to $120/ton
Fuel Costs $4/gal, mileage 8 miles/galDisposal costs estimated at $120,000/year
Proposed Nitrate Treatment
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Ion Exchange
• 82 mgd Plant, IX treats 26 mgd• Nitrate Removal• Salt use 10 to 12 lb/cu ft of resin
Columbus OHDublin Road Water Plant
Waste Minimization Strategies– Ionex SG Packed Bed Configuration Eliminates Backwashing
Brine Reuse and Recycling Minimizes Waste Brine Treatment Removes Nitrate
Biological Treatment Systems
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Microvi Benefits:• Self-contained Support Media• Minimal Bacterial Sloughing• Full Scale Installations• Works in Any Reactor
Many commercial biological denitrification systems are just entering the marketplace. Most require some media: granular, plastic or membrane to support the bacteria
Biological Removal - Microvi
Microvi’s bacteria are encased within porous beads about 10 mm in
diameter
Microvi – Sunny Slope (Pasadena, CA)
Proposed Pilot Testing for Nitrate
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CARB
ON
DOSI
NG
MICROVI REACTOR
S
NITRATE PROBETURBIDITY MONTIORING
TOC MONITORING
FEEDBACK TO DOSING PUMP
2-3 month test period• Continuous testing• Flow interruptions• Chemical feed interuptions
Questions to be answered with nitrate testing:
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[email protected] Technology Lead for Groundwater Treatment