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Leveraging Partnerships to Accelerate Energy Efficiency Improvement: Wastewater Treatment
Wednesday 9:30-12:30pm Sapna Gheewala
Panelists
Moderator Sapna Gheewala, U.S. Department of Energy Charles Satterfield, U.S. Department of Energy
Partnerships Discussion Megan Levy, State of Wisconsin Adam Zoet, State of Minnesota Jose Cueto, Miami-Dade County, FL Grace Richardson, Alexandria Renew Enterprises
Tools Discussion Megan Levy, State of Wisconsin Adam Zoet, State of Minnesota Jose Cueto, Miami-Dade County, FL Grace Richardson, Alexandria Renew Enterprises Jay Wrobel, U.S. Department of Energy Michael Muller, Rutgers University
2
Megan Levy State of Wisconsin
Tracking Energy Use in Wisconsin’s Wastewater
Treatment Plants Justifying investments in critical infrastructure
in Wisconsin
Megan Levy
Local Energy Programs Manager
608-266-5054
Presentation Contents
• Office of Energy Innovation Introduction
• Partnership with WDNR • Focus on Energy Overview • Wastewater Bridge Overview
(Partnership between OEI & Focus) • Tracking Energy Use- WI’s tool • Resources
1
Office of Energy Innovation f/k/a State Energy Office f/k/a Office of Energy Independence
• Since 2015 Act 55 moved the energy office, OEI is housed at the Public Service Commission of Wisconsin (PSC)
• Since the 1970’s every state and 6
territories have had an energy office • 100% Federally funded, statutory
responsibility to prepare for energy emergency and serve WI
2
OEI – the energy office of many names
OEI, who are we continued. . .
• Now OEI and Focus on Energy are partners (back to the future)
• OEI MEETAP program (Municipal Energy Efficiency Technical Assistance Program) works with schools and municipal entities to create energy use baseline and identify projects.
• MEETAP compliments Focus Ag, Schools, &Gov. program
3
First Step: Check the code!
5
OEI Partnered with the WDNR •Customer charge – helps cover costs of supplying equipment used to serve customers, issuing bills,
providing customer service programs •Demand (kW) charge – helps cover costs of
supplying equipment used to serve customers, issuing bills, providing customer service programs
•Time-of-use energy (kWh) charge – charge for using energy during specific time of day (peak or
off-peak) •Energy cost adjustment – increase/decrease in
cost of fuel from amount included in current rates
#1 Expense for smaller municipalities
6
Why Does Energy Matter?
Compliance Maintenance Annual Report
7
Why CMAR, Why Now?
• One of the primary purposes of the CMAR is to foster communication of wastewater treatment plant needs among wastewater treatment plant operators, governing bodies and the Department of Natural Resources
• Thus making it ideal for educating and increasing awareness among governing bodies and operators on energy use as well as the importance of treatment/energy efficiency.
And- an energy audit is a new requirement for a Clean Water Fund Loan
7
Why?
Long term goal of increased energy awareness (integral wastewater management function) More modern and efficient equipment and processes Less energy use Improved = cost $aving$ performance and compliance
What is Focus on Energy
17
What does Focus on Energy do? Assists Wisconsin residents and businesses in implementing energy saving projects. Offers unbiased information and technical assistance to participating utilities’ electric and/or natural gas customers. Provides financial incentives for energy saving projects that would not occur otherwise.
18
2017 Energy Advisor Territory Map
Tracking Energy Use = $$
4
Wastewater Bridge Information
Know what your bill means and how to adjust your use to optimize
savings, operations
Bills, Bills, Bills
4
• Energy charges • Demand charges • Fixed charges • Power factor charges • Rate schedule • Times of events
Top 25 Low Cost No Cost Measures to Implement
• Water & Wastewater Bonus on all Projects in 2017
• 20% incentive bonus for Prescriptive
projects (must be submitted by December 31, 2017) up to $1,000 bonus/project (not to exceed $5,000 annually).
• 10% incentive on Custom Projects –
eligible up to $5,000 bonus/project (custom projects much be submitted by December 31, 2017 and completed by December 31, 2018 to receive the bonus.
22
Focus on Energy Incentives
Rebates Available for Projects
Thank you! WI Office of Energy Innovation: Municipal Energy Efficiency Technical Assistance Program
608-266-5054 [email protected]
Adam Zoet State of Minnesota
Better Buildings Summit: Partnerships to Accelerate Energy Efficiency
Improvements at Wastewater Treatment Plants
Adam Zoet, Energy Planner Principal May 17, 2017
Pool of Partnerships Discussion Capitalizing on the Strengths of State and Local
Resources
Wastewater Treatment Plant (WWTP) Efficiency Opportunities DOE SEP Project Overview
• Objective: Improve WWTP energy efficiency
through – Benchmarking – Site assessments – Intern assistance – Renewable energy assessments
• Project Timeline: Early 2015 – Late 2017.
• For More Information: To learn more about this
effort and how you can participate, please visit the project webpage: http://www.mntap.umn.edu/POTW/wwtp.html
Wastewater Treatment Plant (WWTP) Efficiency Opportunities Project Team
Project Manager
Facility Assessments and Analysis Outreach and Technical Support
Wastewater B3 Benchmark Development
Why Energy Efficiency in WWTPs?
• 2% of ALL electric energy use in U.S.
• 25-40% of WWTP operating budget
Energy Efficiency in Water and Wastewater Facilities , EPA 2013 Statewide Assessment of Energy Use by the Municipal Water and Wastewater Sector, NYSERDA 200
Value of Benchmarking
• Compare operations internally and externally
• Identify improvement opportunities
• Monitor change
• Track progress
Benchmarking and Partnerships
Utilities
Operator Associatio
ns
City Managers
Regulators
Identify high potential opportunities across a large group of plants
Present results and case studies to promote project and generate additional interest
Help build support for implementation of recommendations
Identify grant and loan programs to help finance implementation of recommendations
Benchmarking as Tool to Promote Energy Savings in Minnesota
• State wanted to develop a WWTP benchmarking tool that would: – Leverage the strengths of our partnerships and
process. – Automate data entry as much as possible to
allow for easier and quicker benchmarking of a wide swath of plants.
– Allow cities to track their WWTP energy use and costs alongside their other buildings.
Questions?
Access our project website here: http://www.mntap.umn.edu/POTW/wwtp.html
Follow up questions, please contact [email protected]
http://www.mntap.umn.edu/POTW/wwtp.htmlmailto:[email protected]
Jose Cueto Miami-Dade County, FL
MDWASD Leveraging Energy Efficiency for a Resilient Utility
Operationalizing Resilience @ Miami Dade WASD 36
01 Overview
OVERVIEW
Largest water and sewer utility in the Southeastern United States
Serving more than 2.3 million residents
FY2015-2016 budget: – Projected revenues $732 M – $13.5 B multi-year capital plan (15-20 yrs.) – 2600+ total budgeted positions
• Better Plants Program – Sustainable Wastewater Infrastructure of the Future (SWIFt) – CHP Accelerator
Leveraging Energy Efficiency for a Resilient Utility 37
01 Overview
WATER SYSTEM
• 3 large regional and 5 small water treatment plants, plus new Hialeah Reverse Osmosis WTP
• Supplying an average of 314 million gallons per day (MGD)
• Per capita water use 137 GPCD
• 15 wholesale customers
• 432,000 retail customers
• 100 water supply wells
• 8,206 miles of pipes
Leveraging Energy Efficiency for a Resilient Utility 38
01 Overview
WASTEWATER
SYSTEM
• 3 wastewater treatment plants • 2 ocean outfalls and 21 deep injection wells • Collecting, treating, and disposing 308 MGD • 350,000 retail customers • 13 wholesale customers • 6,309 miles of mains and laterals • 1,047 sewer pumps stations
Strategic Partnerships
40
Sustainable Wastewater Infrastructure of the Future (SWIFt)
Accelerator
• Objectives: – Catalyze the adoption of innovative and best
management practices – Reduce Energy Consumption by 30% – Integrate resource recovery measures
• Schedule: – 3 year implementation – Phased approach, currently in Phase 2a
01 Strategic Partnerships
Leveraging Energy Efficiency for a Resilient Utility
41
SWIFt
01 Strategic Partnerships
Leveraging Energy Efficiency for a Resilient Utility
Phase 1
•Energy Data Management
Phase 2a
•Measure Implementation
Phase 2b
•Measure Planning
Phase 3
Phase 4
•Project Financing
•Plan Drafting
2019
2018
2017
2016
• Energy Baseline and Selection of Data Management Tool
• Selection of Target Wastewater Treatment Facility and implement No/Low-Cost Measures (5% goal)
• Identification of long term improvements in technology, management, processes, and resource recovery.
• Identify Financing and Draft Infrastructure Improvement Plans to achieve 30%
42
MDWASD and SWIFt
01 Strategic Partnerships
Leveraging Energy Efficiency for a Resilient Utility
• Initiated Accelerator in Fall of 2016 • Energy Data Management Tool
Selected (EnergyCAP) – February 2017
• Embarked on planning tracks to evaluate technology and process improvements – March 2017
• Currently scheduling Measure Hunt at South District WWTP (121 MGD facility)
43
MDWASD Planning Tracks
01 Strategic Partnerships
Leveraging Energy Efficiency for a Resilient Utility
• Technology – Evaluation and implementation of energy
efficient technologies • Right Sizing Pumps • System Automation • Premium Efficiency Motors • Renewable Energy
• Process Improvements – Opportunities for optimization of operations
• Load Management • Instrumentation/Controls • Submetering
44
Combined Heat and Power Accelerator
• Objectives: – Integrating CHP in resiliency planning for critical
infrastructure – Identify barriers (technical, policy, economic) to CHP – Exchange of information on CHP planning – Develop decision support tool for assessing and
prioritizing the appropriateness of CHP – Toolkit to support communities in utilizing CHP as a
resiliency solution in critical infrastructure
• Schedule: – 3 year implementation
01 Strategic Partnerships
Leveraging Energy Efficiency for a Resilient Utility
45
Why CHP?
• Produces power at a cost below retail electricity
• Enhances power reliability for the plant • Displaces purchased fuels for thermal
needs. • Reduces emissions of greenhouse gases
and other air pollutants, primarily by displacing utility grid power
• 1 MGD of wastewater = biogas to
produce 26 kilowatts (kW) of electric capacity
01 Strategic Partnerships
Leveraging Energy Efficiency for a Resilient Utility
Why
46
MDWASD’s History with CHP
Leveraging Energy Efficiency for a Resilient Utility
South District WWTP Cogeneration Facility
• Upgrade of existing cogeneration facility constructed in early 1990’s
• Capacity expanded to process methane gas from adjacent municipal landfill
• Four 2,000 kw cogeneration units
• Upgrades to digester and landfill gas conditioning systems
01 Strategic Partnerships
47
MDWASD and CHP Accelerator
• Resiliency Objectives: – Strengthen assets and operations to be come more
resilient to climate and disaster events. – Develop strategic plans to address operational resiliency
• Initial Steps – Inventorying of critical and vulnerable infrastructure – Assessing potential of CHP at these facilities
• Accelerator Goals: – Bring tools and resources back to the community that will
lead to increased resiliency through CHP – Integrate CHP in resiliency program and identify facilities
where CHP can enhance resiliency and energy efficiency.
01 Strategic Partnerships
Leveraging Energy Efficiency for a Resilient Utility
QUESTIONS?
Josenrique Cueto, P.E., Assistant Director MDWASD [email protected]
Grace Richardson Alexandria Renew Enterprises
Pool of Partnerships: Department of Energy and VCS
May 2017
Superior Energy Performance
• Starting Fall 2015, a group of 7 w/ww utilities became a co-learning cohort in Superior Energy Performance
• Kent County DPW • North Carolina: Utilities, Inc. • Alexandria Renew Enterprises • Victor Valley Water Reclamation Authority • Des Moines Water Works • City of Laredo, TX • Delta Diablo Sanitation District
Superior Energy Performance
• Three interactive, 3 day workshops building up to implementation of Energy Management Systems
• Phase 1: • Energy Planning
• Phase 2: • Implementation and Operation
• Phase 3: • Checking and Management Review
• Each phase taught by subject matter experts from
Georgia Tech
Successes So Far
• Using Energy Improvement Registry to track energy saving projects
• Uncovered useful reports/charts staff had forgotten about • CHP Feasibility Study completed • 5 Year Energy Plan developed • Identified weaknesses in existing data • Made an energy diagram of the campus • More accurately measure energy intensity
Action Location of Action Plan
Documentation Description
Anticipated Annual Energy
Savings
Actual Annual Energy Savings
Upgraded all three Dewatering Centrifuges from a 100 hp DC
motor and Backdrive to a 100 hp AC Premium Efficiency motor
and back drive.
Building J Office. Steve
Hill. Operator 10
Expensive to run, replace , and maintain these 100 hp. DC motors. They were not very efficient to
operate.
Commanded global set points on Building Automation System for
seasonal purposes.
Building G Siemens
BAS. Steve Hill
Globally commanded set points to range from 68-71 F in the Winter and 75-78 in the Summer. User only has a three degree span so excessive cooling
or heating is eliminated.
Increased timers and lowered set
points to back up NG Boilers.
G-Building Siemens
BAS. Steve Hill
Main Campus Boilers are fueled on Digester Gas. Backup NG boilers were coming on too soon causing some flaring of gas. By increasing the timers in the BAS it allowed our DG Boilers to reach max firing rate utilizing all available gas
before staging a additional NG boiler to come on.
Upgraded 132 Metal halide Fixtures to LED fixtures and
bulbs.
L-Building Electrical
Room Lighting
Management System
Previously our tank lighting on the Primary and Settling Tanks was on 12 hours a day at 100%
wattage drawing over 2 amps per fixture. We have replaced those lamps with a led bulb that is controlled by a motion sensor and Lighting
Management System. At dusk these lights are programmed to come on and burn at a bare
minimum of 10%. What motion is detected they go up to 80% for 5 minutes then back to the minimum
setting.
International Partnerships
AlexRenew • Founded 1952 • Treatment plant 1956 • 320,000 people served • 13 billion gallons treated • 100 employees
VCS Denmark
• Founded 1853 - drinking water • Treatment plant 1907 • 230,000 people served
• 7.9 billion gallons • 200 employees - 100 wastewater
Who are we?
• Progressive utilities • Strategies for energy neutrality
• Cutting edge technologies • Side stream deammonification • Mainstream deammonification • Ammonia-based aeration control • Research on granular sludge • Resource recovery • Carbon footprint reduction
Who are we?
Why international cooperation? Purpose and scope The purpose of this agreement is to exchange information and to share knowledge and know-how within the wastewater area, for the benefit of the companies, their employees and ultimately, their customers.
Areas of cooperation 1) Deammonification – side stream
and mainstream 2) Maintenance of online sensors 3) Ammonia-based aeration control 4) Nutrient removal optimization 5) Energy production
Personal experiences
• English! • New perspective on daily work • What are you doing? • Why am I doing this the way I do it? • Self reflection • Inspiration • Professional development • Motivation
Questions?
Grace Richardson Engineering Project Manager Alexandria Renew Enterprises
30 MIN SESSION BREAK Return 10:45am
15 MIN Important Takeaways
Panelists • Moderator
– Sapna Gheewala, U.S. Department of Energy – Charles Satterfield, U.S. Department of Energy
• Partnerships Discussion – Megan Levy, State of Wisconsin – Adam Zoet, State of Minnesota – Jose Cueto, Miami-Dade County, FL – Grace Richardson, Alexandria Renew Enterprises
• Tools Discussion – Megan Levy, State of Wisconsin – Adam Zoet, State of Minnesota – Jose Cueto, Miami-Dade County, FL – Grace Richardson, Alexandria Renew Enterprises – Jay Wrobel, U.S. Department of Energy – Michael Muller, Rutgers University
63
Megan Levy State of Wisconsin
24
Need help tracking energy use in your facility?
Tool is in beta-testing mode, see me for more information
24
M E E T A P
Table Summary Grinder PumpsGrinder Pump 1
Month
Total Energy Consumption
(kWh)
Total Consumption Charges
($)
Total Daily Average Energy Use (kWh/day)
Total Metered Charges
($) Start billing periodEnd billing period
# Billing Days
January 0.00 $0.00 0.00 $0.00 0February 0.00 $0.00 0.00 $0.00 0March 0.00 $0.00 0.00 $0.00 0April 0.00 $0.00 0.00 $0.00 0May 0.00 $0.00 0.00 $0.00 0June 0.00 $0.00 0.00 $0.00 0July 0.00 $0.00 0.00 $0.00 0August 0.00 $0.00 0.00 $0.00 0September 0.00 $0.00 0.00 $0.00 0October 0.00 $0.00 0.00 $0.00 0November 0.00 $0.00 0.00 $0.00 0December 0.00 $0.00 0.00 $0.00 0TOTAL 0 $0 0 $0 0
Grinder Pump 2 Grinder Pump 3
Start billing period End billing period
# Billing Days Total Energy Consumption
(kWh)
Total Consumption Charges
($)
Daily Average Energy Use (kWh/day)
Total Metered Charges
($) Start billing periodEnd billing period
# Billing Days
0 00 00 00 00 00 00 0
If you have suggestions for improvement of the energy tracking tool, contact Vanessa Durant at [email protected] or
Enter Meter Number Here
DO NOT EDIT SUMMARY TABLE
TOTAL
1. Gather utility bills for all Grinder Pumps- you will need billing information for all meters
2. Enter data from each meter's bill into the approripate columns- fill in as many tables as needed, use the table headers to distinguish each meter. If a pump has more than one meter you can rename each Grinder Pump table as necessary.
3. Energy consumed by Grinder Pumps will be aggregated into the summary table below- total energy consumption will be aggregated into the Summary Data tab to give you a clear picture of just how much energy your facility uses.
Grinder Pump Instructions
Instructions
This tool is in BETA. If you have suggestions for improvements, contact Vanessa Durant at [email protected] or 608-264-7651
Welcome to the Wastewater Treatment facility Energy Tracking Tool!
The Wastewater Treatment facility Energy Tracking Tool was developed by MEETAP to help WWTF operators easily track facility energy usage. For questions or comments, contact Vanessa Durant.
Follow the instructions below
1. Collect energy usage information- Gather all utility bills for all components of your facility (i.e. Lift Stations, Grinder Pumps, Administrative Offices, etc.)
2. Enter bill data- Enter the appropriate bill data into the tables and tabs in this workbook. Use the arrows to the left of the tabs list to scroll through the tabs. Orange columns indicate Inputs, Light Gray indicates Outputs- DO NOT EDIT OUTPUT CELLS
3. Track your energy usage- The Summary Table "Total Electricity Consumed/Month" will populate automatically once you have entered all billing data in the appropriate tabs and tables. Charts will automatically generate so you can see how your treatment facility uses energy month to month.
[email protected](608) 264-7651
M E E T A P
Summary Data
This tool is in BETA. If you have suggestions for improvements, contact Vanessa Durant at [email protected] or 608-264-7651
Sample facility OEI
ENERGY USAGE SUMMARY 2017
Table 1: Total Electricity Consumed/Month
MonthElectricity Consumed(kWh)Total Energy Charges($)On-Peak Demand(kW)On Peak (kWh)Total Demand Charges ($)Off Peak (kWh)Monthly Total Flow to Facility MGMonthly Total BOD to Facility (lbs)Total kWh/Total Flow (kWh/MG)Total kWh/Total BOD (kWh/BOD lb)Daily Average Energy Use (kWh)
January139,677.00$13,950.13976.002,771.00$5,943.84129,226.000.000.000.000.00262.00
February127,308.00$11,777.65876.003,654.00$4,569.00123,654.000.000.000.000.00257.00
March0.00$0.000.000.00$0.000.000.000.000.000.000.00
April0.00$0.000.000.00$0.000.000.000.000.000.000.00
May0.00$0.000.000.00$0.000.000.000.000.000.000.00
June0.00$0.000.000.00$0.000.000.000.000.000.000.00
July0.00$0.000.000.00$0.000.000.000.000.000.000.00
August0.00$0.000.000.00$0.000.000.000.000.000.000.00
September0.00$0.000.000.00$0.000.000.000.000.000.000.00
October0.00$0.000.000.00$0.000.000.000.000.000.000.00
November0.00$0.000.000.00$0.000.000.000.000.000.000.00
December0.00$0.000.000.00$0.000.000.000.000.000.000.00
DO NOT EDIT THE ABOVE SUMMARY TABLE
1. Organize your facility's energy bills according to the tabs below (i.e. all energy bills for Lift Stations, Grinder Pumps, Natural Gas, etc.)
2. Enter your facility's energy usage into the appropriate tabs.
3. The Summary Table will automatically generate final values based on data entered into each tab.
4. Corresponding graphs can be found on green tabs.
5. If needed, convert kW to kWh using the table at right. Simply enter kW consumed and hours in use and the table will calculate kWh. Copy and Paste Values into the relevant cells.
M E E T A P
Full NamePhoneEmail
Address 1City
Address 2StateWIZip
Contact Information
Summary Data Instructions
Energy Consumed and Cost
Total Monthly Energy Consumption and Cost
Total Energy Charges($)JanuaryFebruaryMarchAprilMayJuneJulyAugustSeptemberOctoberNovemberDecember13950.1311777.650000000000Electricity Consumed(kWh)JanuaryFebruaryMarchAprilMayJuneJulyAugustSeptemberOctoberNovemberDecember1396771273080000000000
Monthly Cost($)
Kilowatthours consumed
On-Peak Demand
On-Peak Demand and Monthly Charges
Total Demand Charges ($)JanuaryFebruaryMarchAprilMayJuneJulyAugustSeptemberOctoberNovemberDecember5943.8445690000000000On-Peak Demand(kW)JanuaryFebruaryMarchAprilMayJuneJulyAugustSeptemberOctoberNovemberDecember9768760000000000
Total Monthly Demand Charges ($)
On-Peak Demand (kW)
Electricity Other
We are always looking for ways to improve the energy tracking tool. Contact Vanessa Durant at [email protected] or 608-264-7651 with suggestions and comments.
1. Gather electricity bills for all other electricity uses- All bills that document general electricity use for the facility i.e. lighting of administrative offices.
2. Enter data from each meter's bill into the approripate columns- Orange columns indicate INPUTS, Gray columsn indicate OUTPUTS. DO NOT EDIT GRAY OUTPUT COLUMNS
3. All electricity consumption will be summarized in the summary table at the top of this sheet- fill in as many cells as possible to get a better picture of your facility's total electricity use.
MonthElectricity Consumed(kW)Hours of OperationkWh
January0.00
February0.00
March0.00
April0.00
May0.00
June0.00
July0.00
August0.00
September0.00
October0.00
November0.00
December0.00
M E E T A P
DO NOT EDIT SUMMARY TABLEEnter flow data into corresponding columns
Table Electricity Use- all/misc/otherTable Flow
MonthTotal Energy Consumption(kWh)Total Energy Charges($)On-Peak Demand(kW)On Peak kWhTotal Demand ChargesOff Peak kWhDaily Average Energy UseMonthMonthly Total Flow to Facility MGMonthly Total BOD to Facility (lbs)Total kWh/Total Flow (kWh/MG)Total kWh/Total BOD (kWh/BOD lb)
January131,997.00$12,930.07976.002,771.00$5,943.84$129,226.00$262.00January
February127,308.00$11,777.65876.003,654.00$4,569.00$123,654.00$257.00February
March0.00$0.000.000.00$0.00$0.00$0.00March
April0.00$0.000.000.00$0.00$0.00$0.00April
May0.00$0.000.000.00$0.00$0.00$0.00May
June0.00$0.000.000.00$0.00$0.00$0.00June
July0.00$0.000.000.00$0.00$0.00$0.00July
August0.00$0.000.000.00$0.00$0.00$0.00August
September0.00$0.000.000.00$0.00$0.00$0.00September
October0.00$0.000.000.00$0.00$0.00$0.00October
November0.00$0.000.000.00$0.00$0.00$0.00November
December0.00$0.000.000.00$0.00$0.00$0.00December
Meter #1Enter Meter Number Here
Start billing periodEnd billing period# Billing DaysOn Peak (kWh)Off Peak (kWh)On Peak ($)Off Peak ($)Peak Demand (kW)Total Energy Consumption (kWh)Demand Charge ($)Total Energy Cost ($)Demand Cost per kWDaily Average Use (kWh)
2/1/173/3/17ERROR:#NAME?2,771.00129,226.00$7,789.46$5,140.61976.00131,997.00$5,943.84$12,930.07$6.09262.00
1/4/1712/5/16ERROR:#NAME?3,654.00123,654.00$7,654.00$4,123.65876.00127,308.00$4,569.00$11,777.65$5.22257.00
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
TOTALERROR:#NAME?6,425.00252,880.00$15,443.46$9,264.261,852.00259,305.00$10,512.84$24,707.72ERROR:#DIV/0!519.00
Meter #2Enter Meter Number Here
Start billing periodEnd billing period# Billing DaysOn Peak (kWh)Off Peak (kWh)On Peak ($)Off Peak ($)Peak Demand (kW)Total Energy Consumption (kWh)Demand Charge ($)Total Energy Cost ($)Demand Cost per kWDaily Average Use (kWh)
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
TOTALERROR:#NAME?0.000.00$0.00$0.000.000.00$0.00$0.00ERROR:#DIV/0!0.00
Meter #3Enter Meter Number Here
Start billing periodEnd billing period# Billing DaysOn Peak (kWh)Off Peak (kWh)On Peak ($)Off Peak ($)Peak Demand (kW)Total Energy Consumption (kWh)Demand Charge ($)Total Energy Cost ($)Demand Cost per kWDaily Average Use (kWh)
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
TOTALERROR:#NAME?0.000.00$0.00$0.000.000.00$0.00$0.00ERROR:#DIV/0!0.00
Meter #4Enter Meter Number Here
Start billing periodEnd billing period# Billing DaysOn Peak (kWh)Off Peak (kWh)On Peak ($)Off Peak ($)Peak Demand (kW)Total Energy Consumption (kWh)Demand Charge ($)Total Energy Cost ($)Demand Cost per kWDaily Average Use (kWh)
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
ERROR:#NAME?0.00$0.00ERROR:#DIV/0!
TOTALERROR:#NAME?0.000.00$0.00$0.000.000.00$0.00$0.00ERROR:#DIV/0!0.00
Electricity Bill Instructions
Convert to kWh
Lift Stations
This tool is in BETA. If you have suggestions for improvements, contact Vanessa Durant at [email protected] or 608-264-7651
1. Gather utility bills for all lift stations- Energy use information for all stations, regardless of size, will need to be entered.
2. Enter data from each meter's bill into the approripate columns- Orange columns indicate INPUTS, gray columns indicate OUTPUTS; each lift station's bill should have data for all input columns.
3. Energy consumed by lift stations will be aggregated into the summary table below- total energy consumption by the all lift stations will be aggregated into the Summary Data tab to give you a clear picture of just how much energy your facility uses.MonthElectricity Consumed(kW)Hours of OperationkWh
M E E T A PJanuary0.00
February0.00
March0.00
April0.00
May0.00
June0.00
July0.00
August0.00
September0.00
October0.00
November0.00
December0.00
DO NOT EDIT SUMMARY TABLE
Table Summary Lift Stations
Lift Station 1Enter Meter Number Here
MonthTotal Energy Consumption(kWh)Total Consumption Charges($)Total Daily Average Energy Use (kWh/day)Total Metered Charges($)Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)
January7,680.00$1,020.06240.00$1,030.222/1/173/6/17ERROR:#NAME?7,680.00$1,020.06240.00$1,030.22
February0.00$0.000.00$0.00ERROR:#NAME?
March0.00$0.000.00$0.00ERROR:#NAME?
April0.00$0.000.00$0.00ERROR:#NAME?
May0.00$0.000.00$0.00ERROR:#NAME?
June0.00$0.000.00$0.00ERROR:#NAME?
July0.00$0.000.00$0.00ERROR:#NAME?
August0.00$0.000.00$0.00ERROR:#NAME?
September0.00$0.000.00$0.00ERROR:#NAME?
October0.00$0.000.00$0.00ERROR:#NAME?
November0.00$0.000.00$0.00ERROR:#NAME?
December0.00$0.000.00$0.00ERROR:#NAME?
TOTAL7,680$1,020240.00$1,030TOTALERROR:#NAME?7,680.00$1,020240.00$1,030
Lift Station 2Enter Meter Number HereLift Station 3Enter Meter Number Here
Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
TOTALERROR:#NAME?0.00$00.00$0TOTALERROR:#NAME?0.00$00.00$0
Lift Station 4Enter Meter Number HereLift Station 5Enter Meter Number Here
Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
TOTALERROR:#NAME?0.00$00.00$0TOTALERROR:#NAME?0.00$00.00$0
Lift Station 6Enter Meter Number HereLift Station 7Enter Meter Number Here
Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
TOTALERROR:#NAME?0.00$00.00$0TOTALERROR:#NAME?0.00$00.00$0
Lift Station 8Enter Meter Number HereLift Station 9Enter Meter Number Here
Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
TOTALERROR:#NAME?0.00$00.00$0TOTALERROR:#NAME?0.00$00.00$0
Lift Station 10Enter Meter Number HereLift Station 11Enter Meter Number Here
Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
TOTALERROR:#NAME?0.00$00.00$0TOTALERROR:#NAME?0.00$00.00$0
Lift Station Instructions
Convert to kWh
Grinder Pumps
If you have suggestions for improvement of the energy tracking tool, contact Vanessa Durant at [email protected] or 608-264-7651.
1. Gather utility bills for all Grinder Pumps- you will need billing information for all meters
2. Enter data from each meter's bill into the approripate columns- fill in as many tables as needed, use the table headers to distinguish each meter. If a pump has more than one meter you can rename each Grinder Pump table as necessary.
3. Energy consumed by Grinder Pumps will be aggregated into the summary table below- total energy consumption will be aggregated into the Summary Data tab to give you a clear picture of just how much energy your facility uses.
M E E T A PMonthElectricity Consumed(kW)Hours of OperationkWh
January0.00
February0.00
March0.00
April0.00
May0.00
June0.00
July0.00
August0.00
September0.00
October0.00
November0.00
December0.00
DO NOT EDIT SUMMARY TABLE
Table Summary Grinder Pumps
Grinder Pump 1Enter Meter Number Here
MonthTotal Energy Consumption(kWh)Total Consumption Charges($)Total Daily Average Energy Use (kWh/day)Total Metered Charges($)Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)
January0.00$0.000.00$0.00ERROR:#NAME?
February0.00$0.000.00$0.00ERROR:#NAME?
March0.00$0.000.00$0.00ERROR:#NAME?
April0.00$0.000.00$0.00ERROR:#NAME?
May0.00$0.000.00$0.00ERROR:#NAME?
June0.00$0.000.00$0.00ERROR:#NAME?
July0.00$0.000.00$0.00ERROR:#NAME?
August0.00$0.000.00$0.00ERROR:#NAME?
September0.00$0.000.00$0.00ERROR:#NAME?
October0.00$0.000.00$0.00ERROR:#NAME?
November0.00$0.000.00$0.00ERROR:#NAME?
December0.00$0.000.00$0.00ERROR:#NAME?
TOTAL0$00$0TOTALERROR:#NAME?0$00$0
Grinder Pump 2Enter Meter Number HereGrinder Pump 3Enter Meter Number Here
Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
TOTALERROR:#NAME?0$00$0TOTALERROR:#NAME?0$00$0
Grinder Pump 4Enter Meter Number HereGrinder Pump 5Enter Meter Number Here
Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
TOTALERROR:#NAME?0$00$0TOTALERROR:#NAME?0$00$0
Grinder Pump 6Enter Meter Number HereGrinder Pump 7Enter Meter Number Here
Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
TOTALERROR:#NAME?0$00$0TOTALERROR:#NAME?0$00$0
Grinder Pump 8Enter Meter Number HereGrinder Pump 9Enter Meter Number Here
Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
TOTALERROR:#NAME?0$00$0TOTALERROR:#NAME?0$00$0
Grinder Pump 10Enter Meter Number HereGrinder Pump 11Enter Meter Number Here
Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)Start billing periodEnd billing period# Billing DaysTotal Energy Consumption(kWh)Total Consumption Charges($)Daily Average Energy Use (kWh/day)Total Metered Charges($)
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
ERROR:#NAME?ERROR:#NAME?
TOTALERROR:#NAME?0$00$0TOTALERROR:#NAME?0$00$0
Grinder Pump Instructions
Convert to kWh
Natural Gas Use and Cost
Natural Gas Use and Monthly Cost
Total therms used11700000000000000Month123456789101112Total Charges ($)25860.1400000000000
Month
Natural Gas (therms)
Natural Gas
We are always looking for ways to improve the energy tracking tool. Contact Vanessa Durant at [email protected] or 608-264-7651 with suggestions and comments.
1. Gather your natural gas bills- If your facility uses natural gas, collect all utility bills for natural gas and sort by meter.
2. Enter data from each meter's bill into the approripate columns- some data may already be calculated for you on your bill (e.g. billing days, daily average use) if these numbers are already available on your bill, enter them directly into the appropriate cell.
3. View your facility's natural gas usage and cost on the Natural Gas Use and Cost tab- a chart will be automatically generated based on the Natural Gas Summary table below.
Table 2 Natural Gas Use
MonthTotal therms usedTotal Charges ($)Therms/DayNatural Gas Use MmbtuAverage Cost ($/therm)M E E T A P
1117,000.0025,860.144.5211,700.00$0.22
20.000.00ERROR:#DIV/0!0.00ERROR:#DIV/0!
30.000.00ERROR:#DIV/0!0.00ERROR:#DIV/0!
40.000.00ERROR:#DIV/0!0.00ERROR:#DIV/0!
50.000.00ERROR:#DIV/0!0.00ERROR:#DIV/0!
60.000.00ERROR:#DIV/0!0.00ERROR:#DIV/0!
70.000.00ERROR:#DIV/0!0.00ERROR:#DIV/0!
80.000.00ERROR:#DIV/0!0.00ERROR:#DIV/0!
90.000.00ERROR:#DIV/0!0.00ERROR:#DIV/0!
100.000.00ERROR:#DIV/0!0.00ERROR:#DIV/0!
110.000.00ERROR:#DIV/0!0.00ERROR:#DIV/0!
120.000.00ERROR:#DIV/0!0.00ERROR:#DIV/0!
Meter #1Enter Meter Number Here
Start billing periodEnd billing period# Billing DaysNatural Gas Consumed(therms)Total Energy Charges($)Daily Average Gas Use (therms/day)Natural Gas Use MMbtuAverage Cost ($/therm)Average Outside Temperature (F)
8/15/159/10/15ERROR:#NAME?117,000.00$25,860.14ERROR:#NAME?11,700.00$0.22
ERROR:#DIV/0!0.00ERROR:#DIV/0!
ERROR:#DIV/0!0.00ERROR:#DIV/0!
ERROR:#DIV/0!0.00ERROR:#DIV/0!
ERROR:#DIV/0!0.00ERROR:#DIV/0!
ERROR:#DIV/0!0.00ERROR:#DIV/0!
ERROR:#DIV/0!0.00ERROR:#DIV/0!
ERROR:#DIV/0!0.00ERROR:#DIV/0!
ERROR:#DIV/0!0.00ERROR:#DIV/0!
ERROR:#DIV/0!0.00ERROR:#DIV/0!
ERROR:#DIV/0!0.00ERROR:#DIV/0!
ERROR:#DIV/0!0.00ERROR:#DIV/0!
TOTALERROR:#NAME?117,000$25,860ERROR:#NAME?$11,700ERROR:#DIV/0!$0
Meter #2Enter Meter Number Here
Start billing periodEnd billing period# Billing DaysNatural Gas Consumed(therms)Total Energy Charges($)Daily Average Gas Use (therms/day)Natural Gas Use MmbtuAverage Cost ($/therm)Average Outside Temperature (F)
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
TOTALERROR:#NAME?0$0ERROR:#NAME?$0ERROR:#DIV/0!$0
Meter #3Enter Meter Number Here
Start billing periodEnd billing period# Billing DaysNatural Gas Consumed(therms)Total Energy Charges($)Daily Average Gas Use (therms/day)Natural Gas Use MmbtuAverage Cost ($/therm)Average Outside Temperature (F)
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
TOTALERROR:#NAME?0$0ERROR:#NAME?$0ERROR:#DIV/0!$0
Meter #4Enter Meter Number Here
Start billing periodEnd billing period# Billing DaysNatural Gas Consumed(therms)Total Energy Charges($)Daily Average Gas Use (therms/day)Natural Gas Use MmbtuAverage Cost ($/therm)Average Outside Temperature (F)
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
ERROR:#NAME?ERROR:#NAME?0.00ERROR:#DIV/0!
TOTALERROR:#NAME?0$0ERROR:#NAME?$0ERROR:#DIV/0!$0
Natural Gas Instructions
24
Output- All electricity consumed and cost for entire facility
23
Input- electricity usage in administrative offices (anything not machinery or equipment
• RESOURCES • Focus on Energy Ag, Schools, and
Government Program (888.947.7828 or • https://www.focusonenergy.com/sites/default/files/2017%20
Advisor%20Map_links.pdf • Office of Energy Innovation • MEETAP program:
http://www.stateenergyoffice.wi.gov/section.asp?linkid=1844&locid=160
26
Who Are You Going to Call?
https://www.focusonenergy.com/sites/default/files/2017%20Advisor%20Map_links.pdfhttps://www.focusonenergy.com/sites/default/files/2017%20Advisor%20Map_links.pdfhttp://www.stateenergyoffice.wi.gov/section.asp?linkid=1844&locid=160http://www.stateenergyoffice.wi.gov/section.asp?linkid=1844&locid=160
Thank you! WI Office of Energy Innovation: Municipal Energy Efficiency Technical Assistance Program
608-266-5054 [email protected]
Adam Zoet State of Minnesota
Sea of Tools Discussion B3 Benchmarking Tool Adopted for Wastewater
Sector
Buildings, Benchmarks & Beyond (B3) History
•Established in 2004 for the State of Minnesota as part of Buildings, Benchmarks & Beyond (B3)
•Benchmarking has ability to track and measure public building types
•Benchmarking now used by over 8,500 public buildings across Minnesota
•Benchmarking is continuously improved to enhance the capabilities of tracking, measuring and reporting portfolios
Wastewater Treatment Plant Benchmark Overview
• Allows cities to track energy savings potential of WWTPs alongside their other buildings.
• ENERGY STAR Portfolio Manager (ESPM) provides a 1-100 percentile score for primary, secondary and advanced treatment plants meeting certain conditions (mainly plants > 0.6 MDG).
• Benchmarking functionality was enhanced to track required data for WWTPs and utilize existing ESPM integration that is in place for buildings.
EnergyStar® Portfolio Manager (ESPM)
• Supported by EnergyStar® • Compares facilities’ energy use
nationally • Requires:
– Utility information – Flow and influent/effluent BOD
• Accounts for climate and operations
Effluent Flow (million gal/day)
Electricity Cost ($0.10/kWh)
Energy Star® Score
0.52 $142,000 5
0.57 $45,000 57
100 0
B3 Organization Level Energy Summary
B3 Site Level Summary – New WWTP
B3 Site Level Summary – Complete WWTP
Energy Assessment - City of St. Peter
Low Energy Star® benchmark score (< 10) • Two Opportunities
– Aeration Control and VFD – Biosolids Blower VFD
• Savings Potential – 436,000 kWh electricity per
year – $43,000 annual operation
cost • Utility partnership
Questions?
Access our project website here: http://www.mntap.umn.edu/POTW/wwtp.html
Follow up questions, please contact [email protected]
http://www.mntap.umn.edu/POTW/wwtp.htmlmailto:[email protected]
Michael Muller Analytical Energy Solutions
50001 Ready Tools Overview
84
50001 Ready Tools - Overview
EnPI Lite 50001 Ready Navigator
DOE Energy Footprint Tool
85
50001 Ready Navigator
Provides Step-by-Step Energy Management System Guidance The 50001 Ready Navigator is an online application that provides step-by-step guidance for implementing and maintaining an energy management system in conformance with the ISO 50001 Energy Management System Standard.
25 Tasks with Detailed Guidance
86
50001 Ready Navigator - highlights
• Straight forward guidance, each task includes the following sections: • Getting It Done – what specifically needs to be accomplished • Task Overview – how does this task connect with ISO50001 • Full Guidance – comprehensive guidance about the task • Optional Transition Tips – from other ISO management systems or ENERGY STAR
• Track and update task progress • Form teams and assign tasks • Add task specific notes • Download guidance • Create multiple projects • Access over 100 related resources • DOE 50001 Ready Recognition!
87
50001 Ready Navigator – task guidance
88
EnPI Lite
EnPI Lite is a web based calculator that estimates energy savings relative to relevant variables, like production levels and weather, using linear regression.
EnPI Lite Steps: 1. Input Energy Consumption
and Relevant Variable Data Input Options: • Energy Footprint Tool • ENERGY STAR Portfolio Manager
2. Regression Analysis (automatic) 3. Adjust Data / Models as needed 4. Download Results
Note: Provides the same fundamental analysis as the other DOE EnPI tools with similar options
89
Energy Footprint Tool
The Energy Footprint Tool is an Excel-based energy consumption and relevant variable tracking tool designed to be easy to use with significant built-in documentation. Detailed labels and pop-up help windows on all sheets allow users quickly begin using all features.
What data needs to be gathered?
Monthly Energy Bills should provide all of the required Energy Consumption data.
Depending on the Relevant Variables, these may or may not be tracked at the plant (ex. production, operating hours) and might need to be looked up (ex. degree days)
Energy Uses may or may not be individually tracked by the plant and could potentially be estimated based on energy consumption or possibly directly measured
90
Related Links
• 50001 Ready Navigator – https://energy.gov/50001ready/navigator
• EnPI Lite – https://energy.gov/50001ready/enpilite
• DOE Energy Footprint Tool – https://energy.gov/eere/amo/downloads/energy-footprint-tool – Guide:
https://ecenter.ee.doe.gov/EM/tools/Documents/downloads/EnergyFootprintGuide.pdf
– Tutorial Video: https://www.youtube.com/watch?v=JxJJobiVBRs&feature=youtu.be
https://energy.gov/50001ready/navigatorhttps://energy.gov/50001ready/enpilitehttps://energy.gov/eere/amo/downloads/energy-footprint-toolhttps://ecenter.ee.doe.gov/EM/tools/Documents/downloads/EnergyFootprintGuide.pdfhttps://www.youtube.com/watch?v=JxJJobiVBRs&feature=youtu.be
Jose Cueto Miami-Dade County, FL
MDWASD Leveraging Energy Efficiency for a Resilient Utility
Energy Tools
94
MDWASD’s Energy Tools 02 Energy Tools
Leveraging Energy Efficiency for a Resilient Utility
• Miami-Dade County utilizes EnergyCAP county-wide for tracking of utility bills.
• EnergyCAP is a family of energy management – Leveraged for tracking, managing,
processing, reporting, benchmarking, and analyzing utility bills
• Interfaces with EPA Energy Star Portfolio Manager.
95
EnergyCAP 02 Energy Tools
Leveraging Energy Efficiency for a Resilient Utility
• EnergyCAP has been configured to group and catalog water and wastewater facility energy assets for tracking.
• Hourly tracking of energy data from billing meters (Florida Power and Light)
• Integration with Portfolio Manager allows for normalization of energy metrics (footprint, flow, loading, etc.)
96
MDWASD Energy Baselines 02 Energy Tools
Leveraging Energy Efficiency for a Resilient Utility
• Wastewater Treatment Facilities: 140 million kw-hr/year • Water Facilities: 150 million kw-hr/year • Pumping Stations: 73 million kw-hr/year • Energy Bill: ~US$ 30 million per year
97
MDWASD’s Energy Tools (cont.) 02 Energy Tools
Leveraging Energy Efficiency for a Resilient Utility
• Although MDWASD utilizes EnergyCAP, process specific data not available
• Partial submetering in place utilizing Siemens WinnPM.Net
• System installed to monitor power quality and consumption
• Integration of WinnPM.Net data with utility SCADA system
• MDWASD working to expand submetering efforts and integrate data with EnergyCap
QUESTIONS?
Josenrique Cueto, P.E., Assistant Director MDWASD [email protected]
Jay Wrobel Advanced Manufacturing Office, U.S. Department of Energy
100
CHP for Resiliency Accelerator overview
Goal: To develop a guided experience to assess the built environment for CHP opportunities incorporating differing criteria for defining critical infrastructure and political, planning or utility priorities.
1. How Does CHP Support CI Resiliency
Policymaker and utility resources Output is knowledge, terms and facts, case studies, etc
2. ID the Potential for CHP Look at and Prioritize CI buildings Rank order political priorities to consider (safety, energy independence, location, costs, availability) High level ranking of buildings to consider
3. Evaluate Priority Applications Portfolio analysis of most critical buildings Screening tool with VG/G/Not CHP candidate CHP TAPs to support with more in depth Qualification Screening
4. CHP Implementation Support Steps to get DOE TAP support Resources and tools for further decision making Best practices and project profiles (see it in action)
Grace Richardson Alexandria Renew Enterprises
Sea of Tools: EnPI and 50001 Navigator
Transform water today, inspire for tomorrow
May 2017
Energy Performance Indicator Tool
• EnPI Tool developed by Department of Energy • Regression analysis-based tool • Excel Add-In • Helps to:
• Establish normalized energy baseline • Identify key variables affecting energy performance • Track annual progress
EnPI Tool
EnPI Tool
• Used in conjunction with “Bottom-Up” energy savings calculations to assess achievement level.
• Useful tool
• When it works.
• Has some limitations
• Low resolution (only monthly data) • Will use best-fit model, which may or may not be valid in reality
Excel
• Can store fairly large amount of data • Flexibility in visualization options • Easy import from AlexRenew data gathering
software
50001 Navigator • Useful online tool to track progress in
establishing Energy Management System • Divides EnMS development into simple steps • Allows users to establish a team of multiple
users • User-friendly interface • Automatic Reports
Questions?
Grace Richardson Engineering Project Manager Alexandria Renew Enterprises
30 MIN SESSION BREAK Return 12:05 pm
15 MIN Important Takeaways
Kudos to all our speakers for having such great initiatives in the EE space in WW
Megan Levy, State of Wisconsin Adam Zoet, State of Minnesota
Jose Cueto, Miami-Dade County, FL Grace Richardson, Alexandria Renew Enterprises
Jay Wrobel, U.S. Department of Energy Michael Muller, Analytical Energy Solutions
Special thanks to Andre Defontaine, Charles Satterfield, Brittany Ryan for helping organize this
workshop
If you need anything or would like to follow up please contact Sapna Gheewala [email protected]
202-287-1649
Thank You
Provide feedback on this session in the new Summit App! Download the app to your mobile device or go to bbsummit.pathable.com
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Leveraging Partnerships to Accelerate Energy Efficiency Improvement: Wastewater TreatmentPanelistsMegan Levy�����State of Wisconsin Tracking Energy Use in Wisconsin’s Wastewater Treatment PlantsPresentation ContentsOffice of Energy Innovation�f/k/a State Energy Office f/k/a Office of Energy IndependenceOEI, who are we continued. . .First Step:�Check the code!#1 Expense for smaller municipalitiesCompliance Maintenance Annual �ReportAnd- an energy audit is a new requirement for a Clean Water Fund Loan�Slide Number 12Slide Number 13Slide Number 14Slide Number 15Slide Number 16What is Focus on EnergyWhat does Focus on Energy do?2017 Energy Advisor Territory MapTracking Energy Use =�$$Bills, Bills, BillsSlide Number 22Thank you!Adam Zoet�����State of Minnesota Slide Number 25Slide Number 26Wastewater Treatment Plant (WWTP) Efficiency Opportunities�DOE SEP Project OverviewWastewater Treatment Plant (WWTP) Efficiency Opportunities�Project TeamWhy Energy Efficiency in WWTPs? Value of BenchmarkingBenchmarking and PartnershipsBenchmarking as Tool to Promote Energy Savings in MinnesotaSlide Number 33Jose Cueto�����Miami-Dade County, FL Slide Number 35Slide Number 36Slide Number 37Slide Number 38Slide Number 39Slide Number 40Slide Number 41Slide Number 42Slide Number 43Slide Number 44Slide Number 45Slide Number 46Slide Number 47Slide Number 48�Grace Richardson����Alexandria Renew Enterprises Pool of Partnerships:�Department of Energy and VCSSuperior Energy PerformanceSuperior Energy PerformanceSlide Number 53 Who are we? Slide Number 56Why international cooperation?Areas of cooperationPersonal experiencesQuestions?30 MIN SESSION BREAK��Return 10:45am����15 MIN Important Takeaways������PanelistsMegan Levy�����State of Wisconsin Slide Number 65Slide Number 66Slide Number 67Slide Number 68Slide Number 69Slide Number 70Thank you!Adam Zoet�����State of Minnesota Slide Number 73Buildings, Benchmarks & Beyond (B3) HistoryWastewater Treatment Plant Benchmark Overview EnergyStar® Portfolio Manager (ESPM)B3 Organization Level Energy SummaryB3 Site Level Summary – New WWTPB3 Site Level Summary – Complete WWTPEnergy Assessment - City of St. PeterSlide Number 81Michael Muller�����Analytical Energy SolutionsSlide Number 8350001 Ready Tools - Overview50001 Ready Navigator50001 Ready Navigator - highlights50001 Ready Navigator – task guidanceEnPI Lite Energy Footprint ToolRelated LinksJose Cueto�����Miami-Dade County, FL Slide Number 92Slide Number 93Slide Number 94Slide Number 95Slide Number 96Slide Number 97Slide Number 98Jay Wrobel�����Advanced Manufacturing Office, U.S. Department of EnergyCHP for Resiliency Accelerator overview�Grace Richardson����Alexandria Renew Enterprises Sea of Tools:�EnPI and 50001 NavigatorEnergy Performance Indicator ToolEnPI ToolEnPI ToolExcelSlide Number 10750001 NavigatorQuestions?30 MIN SESSION BREAK��Return 12:05 pm����15 MIN Important Takeaways������Kudos to all our speakers for having such great initiatives in the EE space in WW��Megan Levy, State of Wisconsin�Adam Zoet, State of Minnesota�Jose Cueto, Miami-Dade County, FL�Grace Richardson, Alexandria Renew Enterprises�Jay Wrobel, U.S. Department of Energy�Michael Muller, Analytical Energy Solutions���Special thanks to Andre Defontaine, Charles Satterfield, Brittany Ryan for helping organize this workshop ��If you need anything or would like to follow up please contact Sapna Gheewala�[email protected]�202-287-1649� ���������Thank You