Field Study Webinar Presentation
Transcript of Field Study Webinar Presentation
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December 7, 2015
Building Energy Codes Program Single Family Residential Energy Code Field Study
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BACKGROUND
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Compliance ≠ Energy Savings
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Project Organization
Three phases:
Year 1: Baseline field study
Years 2-3: Education and training using information from baseline study
Year 4: Follow-up field study
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Phase I Goal
Develop and test an energy-based methodology for energy code field studies. 1. Establish Energy Use Intensity (kBtu/sf/year) of code-
regulated energy in single family homes in a state 2. Identify code requirements with high savings
potential and low compliance to target with education and training
3. Calculate the potential energy, cost and emissions benefits from increased compliance with targeted requirements
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Field Study States
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DOE Overall Project Goals
1. Establish a national model methodology based on an Energy Use Intensity (EUI – kBtu/sf/year) metric
2. Establish a business case for private investment to increase energy code savings
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METHODOLOGY
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Ground Rules
• Single family new construction only • One visit per home Avoids influencing builder behavior Insufficient data to determine compliance for a single home • Code officials provide only addresses of qualifying homes • Not present for onsite data collection • Only pre-occupancy homes visited • Only observed, installed measures counted – no assumptions • No personally identifying information submitted to DOE or PNNL • Findings valid only at state level • Blower door & duct testing results shared with builders (upon request)
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Sampling Approach
• State-level sampling plan assigns the number of observations to be collected from specified jurisdictions based on:
• U.S. Census Bureau permit data • Average housing starts over past three years
• Proportional random sample = areas with more construction more heavily sampled
• Plans validated through kickoff meetings—stakeholder review & buy in is crucial
• Homes in sampled jurisdictions visited randomly • Selected from list of all homes by local building department • Homes visited until sampling plan is fulfilled
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– PNNL identified key individual code requirements with largest energy impacts:
• Envelope air tightness (ACH50) • Window SHGC & U-factor • Wall insulation (R-value) • Ceiling insulation (R-value) • Lighting (% HE lamps) • Foundation insulation (R-value) • Duct leakage
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Sampling Approach (cont.)
• Estimated expected distribution (variance) of field observations
• Standard statistical formulas used to determine 63 observations of EACH key item – Needed to detect statistically significant differences in pre- & post-
studies – Enable statewide sampling plan & energy metric – Practical limitations requires going to many more than 63 homes
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Data Collection
• Data collection forms customized for each state code & climate zone
• Key items drive sampling & analysis • Information on all code requirements collected
• Some non-code requirements collected for verification & analysis purposes (e.g., foundation type, HVAC type, home size, etc.)
• Blower door & duct leakage testing performed wherever possible
• Insulation installation quality graded • Quality assurance/control as part of handoff to PNNL
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Results to Date
State Project Lead Baseline
Code Homes Visited
Data Collection Complete
EUI Analysis Done
AL Institute for Market Transformation
2009 IECC 134 YES YES
AR Southeast Energy Efficiency Alliance
2009 IECC 181 In Progress Waiting
GA Southeast Energy Efficiency Alliance
2009 IECC 223 In Progress Waiting
KY Midwest Energy Efficiency Alliance
2009 IECC 140 YES YES
MD Maryland Energy Administration
2015 IECC 207 YES YES
MI Navigant 2009 IECC 124 YES YES
NC Appalachian State University NC Code 249 YES YES
PA Performance Systems Development
2009 IECC 171 YES YES
TX National Association of State Energy Officials
2009 IECC 133 YES YES
WV Appalachian Residential Consortium for Energy
Efficiency
2009 IECC 0 Not Started Yet Waiting
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RESULTS
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Initial Results Package
• Illustrates typical “initial” results presentation provided to the state project teams after analysis is complete – Key Items – EUIs – Energy savings, cost savings and emission reductions potential
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Envelope Tightness (ACH50) – Alabama
Envelope Tightness
Vertical line = 2009 IECC Requirement
n = 65
CZ 2
CZ 3 CZ 2 CZ 3
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Envelope Tightness (ACH50) – Alabama
Envelope Tightness
Vertical line = 2009 IECC Requirement
n = 65
CZ 2
CZ 3 CZ 2 CZ 3
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High Efficacy Lamps (%) – Alabama
HighEffLamps%
Vertical line = 2009 IECC Requirement
n = 71
CZ 2
CZ 3 CZ 2 CZ 3
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Duct Tightness – Alabama
Duct Tightness (cfm/100sf)
Vertical line = 2009 IECC Requirement
n = 83
CZ 2
CZ 3 CZ 2 CZ 3
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Ceiling R-Value – Alabama
R-Value
Vertical line = 2009 IECC Requirement
n = 84
CZ 2
CZ 3 CZ 2 CZ 3
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Frame Wall (Cavity) – Alabama
R-Value
Vertical line = 2009 IECC Requirement
n = 68
CZ 2
CZ 3 CZ 2 CZ 3
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Window U-Factor – Alabama
U-Factor
Vertical line = 2009 IECC Requirement
n = 92
CZ 2
CZ 3 CZ 2 CZ 3
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Window SHGC – Alabama
SHGC
Vertical line = 2009 IECC Requirement
n = 92
CZ 2
CZ 3 CZ 2 CZ 3
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Overview of the EUI Analysis
• Model Development – Single site-visit design results in incomplete sets of key item
observations for a given home – EnergyPlus requires a complete set of key item observations to create
a building energy model – Monte Carlo process used to bridge the gap by randomly sampling the
observed data to create 1500 complete sets of all key items – Each set used to build an energy model using DOE’s single-family
residential building prototype making it easier to isolate influence of the code
• Simulation Results – Energy Use Intensity (EUI) only represents “code-regulated” loads – EUI results not based on actual energy use of occupied homes – EUI results are compared to code prescriptive minimum for each
climate zone
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EUI – Climate Zone 2A – Alabama
Red line = prescriptive code EUI
18.01 20.58
Purple line = mean EUI based on field data
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EUI – Climate Zone 3A – Alabama
Red line = prescriptive code EUI
20.32 22.93
Purple line = mean EUI based on field data
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EUI – Statewide – Alabama
19.8 22.4
Red line = prescriptive code EUI
Purple line = mean EUI based on field data
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Key Drivers – Savings Potential
• Distribution of observed key items – Used to create energy models to generate a distribution of EUIs for the
state – Used to identify areas with savings potential
• Applicable code requirements – Influence observations for some key items – Define the “baseline” against which observed model EUIs are
compared in order to calculate savings potential
• Distribution of savings by fuel type – Only influences energy cost savings and emission reduction potential
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Estimating the Savings Potential
• Overall Savings Potential – Isolate models that have a total EUI greater than the prescriptive code
EUI • Includes interactions between all measures as well as the impact of
random sampling, resulting in a conservative savings estimate
• Measure-Level Savings Potential – Use only worse-than-code observations for a particular measure to
conduct new simulations to isolate potential savings from that specific measure
• Ignores interactions between the measure under consideration and other building components, resulting in an optimistic savings estimate
• Use the estimated average energy and cost savings along with projected annual construction to estimate overall savings potential for each state
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Savings Potential
• Calculated in two ways for multiple needs – Whole-building level (most conservative = lower bound) – Measure level (upper bound)
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Savings Potential
• Whole-building level, lower bound estimate for North Carolina:
Item NC Code – 1yr
Energy Savings Potential– Million Btu/year 26,805
Total Dollars Savings Potential per year $427,428
Emissions Reduction Potential – metric tons (CO2e per year) 1,149
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Savings Potential (cont.)
• Measure level, upper bound estimate for North Carolina:
Measure (1 yr)
Total Energy Savings Potential (MMBtu)
Lighting 16,128
Envelope Tightness 14,107
Duct Leakage 18,084
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Interesting Results / State Comparisons
• Lighting • Envelope Tightness • Windows • Duct Leakage • Above-Grade Frame Walls
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Lighting
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Lighting
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Window U-Factor
Total observations = 91 Better/equal to code = 89 Worse than code = 2
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Window U-Factor
Total observations = 92 Better/equal to code = 92 Worse than code = 0
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Window U-Factor
Total observations = 107 Better/equal to code = 104 Worse than code = 3
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Window U-Factor
Total observations = 84 Better/equal to code = 84 Worse than code = 0
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Window U-Factor
Total observations = 135 Better/equal to code = 132 Worse than code = 3
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Window U-Factor
Total observations = 160 Better/equal to code = 160 Worse than code = 0
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Window U-Factor
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Window SHGC
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Envelope Tightness
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Envelope Tightness
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Envelope Tightness
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Envelope Tightness
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Duct Leakage
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Duct Leakage
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Above-Grade Frame Walls (Cavity)
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CONCLUSIONS
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Preliminary Conclusions
• Builders and building officials are doing a very good job meeting adopted codes.
• On average, homes are using less energy than would be expected based solely on the prescriptive code in 5 of 6 six states analyzed.
• There is still significant savings potential from individual code requirements that do not comply.
• Individual Requirements – Some are consistently better than code (e.g., windows) – Some are inconsistent with code (e.g. lighting) – Some are virtually always exactly at code (e.g. walls) – Nothing is consistently worse than code
• Similar studies underway in MI, AR, GA, WV. More data to come! • Field studies are critical to understanding the patterns of
compliance and their impact on energy.
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Planning a Study?
• Budgeted cost was $115,000 per baseline study. Budget adequate in almost all states.
• PNNL services available free to those following methodology: – Sample design – Customized data collection forms – Analysis
• Commercial methodology not yet available but is in development. Target date is late 2017.
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Available Resources
• Spreadsheets containing all field data (available now) • Webinar presentation slides (available now) • Methodology guideline (coming soon) • Methodology technical support document (coming soon) • State reports (coming soon) • Overall project report (available at the end of Phase III)
All resources available from: https://www.energycodes.gov/residential-energy-code-field-study
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Residential Field Code Study Contacts
• Jeremy Williams, DOE, [email protected] • Rosemarie Bartlett, PNNL, [email protected]
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Visit: www.energycodes.gov
Contact: Jeremy Williams, Project Manager [email protected]
2016 National Codes Conference March 21-24, 2016 | Tucson, AZ
The only national conference dedicated to all things energy codes!
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