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IPMVP Inc. – Organizational Issues Recent Efforts
New Construction Renewable Energy Technologies Baseline Development in DR Programs Quantifying emissions reductions from
EE projects
The Organization
IPMVP Inc. is a non-profit organization responsible for maintaining existing and developing new protocols under the IPMVP umbrella
Supported by US Department of Energy, LBNL, and Charter Members
Charter Members
Bonneville Power Administration Energy Foundation Federal Energy Management Program General Services Administration NYSERDA Sacramento Municipal Utility District Southern California Gas
Mission Statement
“To develop and maintain an international, consensus framework for creating measurement and verification (M&V) protocols to quantify such metrics that determine the financial value of any energy efficiency projects.”
IPMVP Sphere of Influence
IPMVPInc.
RenewableEnergyTech.
Energy/Water EfficiencyRetrofits
PerformanceBenchmarkingof New Const.
IndoorEnvironmental
Quality
QuantifyingEmissionsFrom EE Projects
BaselineDetermination
in DRPrograms
Objectives - I
Maintain a stable and financially self-sustaining organization, while remaining faithful to the organization’s mission.
Establish and maintain internationally accepted M&V standards for energy and water efficiency and demand reduction projects.
Reach out and effectively involve the finest international talents and expertise in developing protocols and in avoiding duplicate efforts.
Objectives - II Maintain contact with practitioners and market
place to ensure relevance of the protocol. Effectively disseminate the IPMVP guidelines
around the world, work with our international partners to encourage the translation of the Protocol for faster and more effective adoption and application of the IPMVP concepts.
Develop training and certification material to educate and train professionals in the field of measurement and verification of energy savings.
M&V of New Construction
Baseline Development Basics Appropriateness of Benchmark
Energy codes/standards, design standards Rigor
Use appropriate M&V methods and defensible assumptions
Reasonableness/Repeatability Come up with a reasonable baseline
estimate with a provision to adjust based on post-construction findings
M&V of New Construction
Approaches to Performance Verification Component Verification Whole Building Benchmarking Calibrated Simulation
M&V Options in New Const.
M&V Options Typical Applications A. Partially Measured ECM IsolationPartial measurement of system energy use. Some operating parameters are stipulated.
Lighting system or constant speed motors - power draw periodically measured, operating hours stipulated.
B. ECM IsolationFull measurement of energy use and operating parameters of system.
Variable speed control of a fan motor – Continuous measurement of energy use throughout M&V period.
C. Whole Building ComparisonSavings determined at whole-building level by measuring energy use at main meters or with aggregated sub-meters.
Government agency wishes to determine order-of-magnitude savings level associated with a building design incentive program.
D. Calibrated SimulationSavings are determined at whole-building or system level by calibrating simulated energy use to measured energy use
Savings determination for the purposes of a new building performance contract, with the local energy code defining the baseline.
M&V of NC - Process MapDetermine the appropriate baseline
High Rigor: Building CodesLow Rigor: Existing Market Standards
Select Analysis Type:Whole Building or Component
Select Component Verification:Performance & Usage Performance
Use Option ABaseline is relevant codes or design
standards for components with usage stipulations
Use Option BBaseline is relevant codes or design
standards for components
Use Option DBaseline is relevant codes or design
standards for whole buildings
Use Option CBaseline is normalized average
energy performance of the control group
Use Option CBaseline is published or reported normalized energy performance of buildings with similar
functions, operational characteristics and climate
Are Similar Buildings Available
for Compariso
n
Yes
No
Performance& Usage
Performance
Component
Whole buildingor major system
M&V of Renewable Energy Technology (RET) Status
In Final Draft Form Before the Technical Committee
What’s New Consistent With the Latest IPMVP
Concepts and 2001 IPMVP Volume I Format
More Examples
M&V of RET
Key Issues Renewables supply energy rather than reduce
the amount of energy used. M&V strategy for renewables must be able to
differentiate between an energy supply and a reduction in the load.
The performance of renewable energy systems is a function of environmental conditions (solar radiation and wind speed), which are outside the control of the project developers and should be accounted for.
M&V of RET
Baseline Applications Control Group Before and After – Before and After On and Off Calculated Reference
M&V of RET
Key Issues Renewables supply energy rather than reduce
the amount of energy used. M&V strategy for renewables must be able to
differentiate between an energy supply and a reduction in the load.
The performance of renewable energy systems is a function of environmental conditions (solar radiation and wind speed), which are outside the control of the project developers and should be accounted for.
M&V of RET Option A: Partially Measured Retrofit Isolation - It
measures the ability of the system to deliver energy, capacity, and other claimed benefits and applies the measured result to an assumed set of operating conditions.
Option B: Retrofit Isolation - It involves long-term measurement of energy delivery directly by metering the plant’s output or indirectly by determining savings based on analysis of end-use meters.
Option C: Whole Building Analysis - It involves inferring savings by the statistical analysis of whole-facility energy consumption without end-use metering of the renewable energy system.
Option D: Calibrated Simulation Models – It involves predicting the long-term performance of a system or whole building by calibrating a computer model based on data from a short-term test.
M&V protocol for Calculating Demand Reductions
Sponsor California Energy Commission
Jointly developed by Xenergy and IPMVP Analysis performed by Xenergy Review conducted by IPMVP Inc.
Goal Calculation of the baseline against which reductions
are calculated. Help increase participation in DR programs of small-
and medium-sized customers by reducing the barriers related to inconsistency and confusion about baseline methods.
M&V protocol for Calculating Demand Reductions Criteria for a Good Baseline Method
Simplicity Accuracy Minimize gaming Predictability Consistency (with other ISOs)
M&V protocol for Calculating Demand Reductions Recommendations
A method that generally works well for a range of load types is the simple average of the last 10 days, by hour of the day, with additive adjustment to the 2 hours prior to the curtailment period. This method can be recommended for both weather-sensitive and non-weather-sensitive accounts, with both low and high variability, for summer and nonsummer curtailments.
Emissions Initiative In developmental stages Motivation
Guarding EE community’s interests Key Issues
Site Vs. Source Program Vs. Project Where IPMVP Can Make a Difference Build on the Strength of IPMVP Need for aggregation
Emissions Initiative – Proposed Strategy Illustrate candidate approaches to convert energy savings into
emission credits based on the uncertainties inherent in the M&V option selected to quantify energy savings;
Develop simple, practical, repeatable, and cost-effective monitoring, evaluation, and verification approaches
Role of IPMVP in different trading program such as Cap and Trade, Offsets, and Set-asides.
Emission factors for typical fuel burning appliances or reference to a range of resources;
Link to national or state registry of emissions factors at least at an aggregate level;
Better guidance for the EE community on the difficulties of off site emissions for electricity and district heat/cool;
Current list of relevant environmental authorities/rule makers and their web sites;
Related bibliography;