David Eldridge of Grumman / Butkus Associates present the ASHRAE Building Energy Quotient Labeling Program at the 2012 Chicago Energy Modeling Conference.
4. Information for Consumers to Allow
Educated Choices is Not New
Restaurant Sanitation Ratings
Car Fuel
Economy
Estimates
Nutrition Facts Label
5. Building Energy Labels. . .
Promote the value of energy efficiency
in the marketplace
Differentiate buildings with good
performance for potential
tenants/buyers
Enhance building owner’s ability to
identify energy efficiency
measures to help improve
operations
6. Building Energy Labels. . .
Provide clear communication of energy
performance to the public
Contribute to building performance
databases – potential and actual
energy use
Highlight the drive toward
Net Zero Energy Buildings
7. Current “Building Label” Efforts in the US:
– Energy Star
– DOE
– LEED Certifications
– Green Globes
– BOMA 360
All of these Programs are Voluntary
9. Why Should Professionals & Owners Care?
• Professionals
– An additional service for consulting firms and others
– Required certifications demonstrate competency
• Owners
– Benchmarking
– Recognition for participation can enhance a
company’s image and reputation
– Economic benefit of improving design and operation
– Potential for mandatory labeling and related
requirements in future
10.
11. Why ASHRAE?
• Over 100 years of experience in the
building sciences
• Strong technical expertise across all
aspects of building design and operation
• Historic focus on developing consensus-
based, non-commercial documents
• Respect and credibility within the building
community
• Proven history working with DOE and
other professional organizations
12. What is bEQ?
• A voluntary certification program
• A technical method that draws on
successful features of other US and
European building certifications
• Complements other green building
rating systems and energy certification
programs
• Can be a tool to stimulate adoption of
high performance building techniques
13. Developing bEQ
• bEQ Development Committee
– International team of experts
– Representatives from the Energy Star and EU
labeling programs
– Building energy modeling experts
– Representatives from utilities, government,
and advocacy community
• Technically sound and widely applicable
program
• Validate and enhance the program using
ASHRAE’s broad technical resource network
14. Types of Ratings
In Operation Rating (Operational)
• Actual measured energy use of a
building
• Based on combination of structure and
features of the building and how it is
operated
• Applicable for existing buildings
• Applicable for new buildings after 12-18
months of operation
15. Types of Ratings
In Operation Rating (Operational)
• Building characteristics
• Design goals (if applicable)
• Other certifications
• Conditioned area, floors, age, contact
• Building HVAC and envelope systems
• Energy calculations
• Normalized EUI compared to median value
• Raw utility usage
16. Types of Ratings
In Operation Rating (Operational)
• IEQ certification
• Thermal comfort – temperature and
humidity, air velocity, temperature
asymmetry
• Lighting quality – horizontal / vertical fc,
ballast types, daylight
• Indoor air quality –OA calculations from
design / measured rates
• Surveys – occupant survey from CBE
• Measurements to back up evaluation!
17. Types of Ratings
In Operation Rating (Operational)
Energy Use (kWh/ft2-yr)*
• Energy end-use breakdown
• Metered vs calculated Supply Fans
Exhaust/Return
Fans
16.2% 3.2%
Plug Loads
28.5%
Energy Use
End Use (kWh/ft2-yr)
Supply Fans 3.18 Cooling
Exhaust/Return Fans 0.62 Equipment
Cooling Equipment 1.62 8.2%
Lighting 4.22 Domestic Hot
Condenser Water Water
Pumping 0.99 0.5%
Electric Heat 3.34
Domestic Hot Water 0.09 Electric Heat
17.0% Lighting
Plug Loads 5.60
21.5%
Total Energy Entered 19.66
Condenser
Water Pumping
5.1%
18. Types of Ratings
In Operation Rating (Operational)
• Listing of possible energy efficiency
measures (EEMs) for the building
• ASHRAE Level 1 effort for rigor of
evaluation – focus on energy
savings, not necessarily cost savings
• Source energy comparison
19. Types of Ratings
In Operation Rating (Operational)
• Building characteristics
• Energy calculations
• IEQ certification
• Thermal comfort
• Lighting quality
• Indoor air quality
• Surveys
• Measurements
• Energy end-use breakdown
20. Types of Ratings
As Designed Rating (Asset)
• Assessment of the building based on design
components:
mechanical, envelope, orientation, and
lighting.
• Based on results of a building energy model
• Applicable to both new and existing buildings
• Can be used to make choices between
potential building designs
21. Features of bEQ Program:
• Potential side-by-side comparison of As
Designed (asset) and In Operation (operational)
Ratings
• Building assessment identifies both
peak demand reduction and energy
management opportunities
• Recognizes energy use from on-site renewables
• Includes measurement-based Indoor
Environmental Quality (IEQ) indicators to assure
levels of service are maintained
22. Relationship to Other Programs
• Europe
– Directive 2002/91/EC on the energy performance of
buildings
– Standard EN 15217 Energy performance of
buildings—methods for expressing energy
performance and for energy certification of buildings
(2007)
– Explicit effort to learn from EU experience
Austria England & Wales Greece Italy
23. bEQ and Existing ―Green‖ Programs
like LEED or GreenGlobes?
• Focuses on a building’s energy use while
also ensuring adequate building IEQ
• Helps identify opportunities for
improving energy performance
24. bEQ and EPA’s Energy Star Program?
• Greater differentiation for high performing
buildings
• Emphasis on top performers and net zero
energy operation.
• Required site visit to validate information
and IEQ
• Applies to all building types
• Measures IEQ performance
• Expanded information provided for how to
improve energy performance
25. Visible Products of bEQ
The Label:
• Most visible component of the
program
• Simple to understand –
targets general public
• Suitable for display in building
lobbies and marketing materials
• Satisfies public disclosure
requirements at the state and
local level
26. Visible Products of bEQ
The Certificate:
Detailed Technical
information that
includes:
• Energy saving
features
• Emissions
• IEQ compliance
• History of
operational
ratings
27. Visible Products of bEQ
• bEQ is normalized Energy Use Intensity
– Energy per unit area
– Measured for the operational rating
– Modeled for the asset rating
– Represented as % Value
– Smaller number is better – percent of median
28. Visible Products of bEQ
The Certificate:
Detailed Technical
information that
includes:
• Energy saving
features
• Emissions
• IEQ compliance
• History of
operational
ratings
29. Visible Products of bEQ
The Certificate:
Detailed Technical
information that
includes:
• Energy saving
features
• Emissions
• IEQ compliance
• History of
operational
ratings
30. Visible Products of bEQ
The Certificate:
Detailed Technical
information that
includes:
• Energy saving
features
• Emissions
• IEQ compliance
• History of
operational
ratings
31. How Does The Rating Scale Work?
Technical potential scales can rate performance that falls outside
the current distribution, like net zero or net positive buildings
36. bEQ and Professional Certification
Building Certification Requires Certified
Professionals
• In Operation rating – Building Energy Assessment
Professional (BEAP)
• As Designed rating – Building Energy Modeling
Professional (BEMP)
• ASHRAE Certification information web page
http://www.ashrae.org/education--certification/certification
37. Building Energy Assessment Professional
• Certify ability to audit and analyze
residential, commercial, and industrial
buildings, including:
• determining project scope
• collecting data
• analyzing building performance
• interpreting results
• evaluating alternatives
• recommending energy conservation
• measures
• assisting with ECM implementation
• ~100 certified since start of program in
Feb. 2011
• Certificants from US, Argentina, Puerto
Rico
38. Building Energy Modeling Professional
• Certify ability to:
• Evaluate, choose, use and
calibrate interpret the results
of energy modeling software
when applied to building and
systems energy
performance and economics
for new and existing
buildings
• ~200 certified since start of
program in 2010
• Certificants from
US, Brazil, Canada, India, Irelan
d, Turkey, Brazil
41. About the Operational Pilot
Participation of Prominent Building
Owners/Developers
Participants:
42. What Tools?
Portable Equipment:
• Temperature, humidity, CO2, velocity, airflow
Utility usage data – spreadsheets!
Monitored energy end-use from meters/BAS
Standard Forms!
• Complete the standard forms (coming soon…)
• Components of a Level 1 Assessment
• Monitored energy end-use
43. Energy Modelers Report for Duty
The Asset Rating:
• An evaluation of the ―As-Designed‖ efficiency
• Can be applied to new and existing buildings
• Common set of assumptions –
COMNET, Appendix G
• Suitable for display in building
lobbies and marketing materials
• What is level of effort?
44. Energy Modelers Report for Duty
The Asset Rating:
• Current status – two pilot buildings
• Each being assessed by three BEMP consultants
• Will assessments agree?
• One of these is ASHRAE HQ
• LEED Platinum, advanced IAQ
systems
45. For More Information:
• Visit the ASHRAE bEQ web site:
http://www.buildingeq.com/
• Illinois ASHRAE Chapter Members
David Eldridge – dse@grummanbutkus.com
Benny Skelton – bskelton@bmgsc.com
• Contact ASHRAE staff:
Lilas Pratt – Manager, Special Projects
Phone: 678-539-1193
Email: lpratt@ashrae.org
• ASHRAE bEQ Committee Chair, 2011-12
Thomas Phoenix
Phone: 336-373-9800
Email: thphoenix@mmpa.com
49. Level of Effort for bEQ
• Estimated at roughly 35 to 40 hours
• Not intended to be a cursory review
50. Case Study: Durst Organization
One Bryant Park, New York, NY
1155 Avenue of the
Americas, New York, NY
4 Times Square, New York, NY
51. Case Study: Durst Organization
One Bryant Park, New York, NY
1155 Avenue of the
Americas, New York, NY
4 Times Square, New York, NY
52. Case Study: Public Buildings
Coleman A. Young
Municipal
Center, Detroit, MI
John W. McCormack, State
Building, Boston, Ma.
Plymouth Trial
Court, Plymouth, Ma.
City Hall Annex, Cambridge, MA.
53. Case Study: Research Buildings
Sarofim Research Building, University
of Texas Health Science
Center, Houston, TX
Omega Center for Sustainable
Living, Rhinebeck, NY
57. Next Steps for ASRHAE bEQ
The Asset Rating:
• Current status – two pilot buildings
• Each being assessed by three BEMP consultants
• Will assessments agree?
• Does modeling produce EUIs in-line with operational
rating?
Operational Rating
• Develop marketing plan
• Issue forms to public
• Additional normalizations for building types
Notas del editor
How do you spell it? It is shown both as “bEQ” and “BeQ”
Building Energy Labeling: What's the Point? A building energy labeling program provides information on the potential and actual energy use of buildings.Beyond the benefit received by individual building owners and managers, the increased availability of building data will be a valuable research tool for the building community.Building owners and operators can see how their building compares to peer buildings to establish a measure of their potential for energy performance improvement. Building owners can use the information provided to differentiate their building from others to secure potential buyers or tenants. Potential buyers or tenants can gain insight into the value and potential long-term cost of a building. Operations and maintenance staff can use the results to inform their decisions on maintenance activities and influence building owners and managers to pursue equipment upgrades and demonstrate the return on investment for energy efficiency projects.
You can’t change what you can’t measure.Informed decisions by purchasers and renters of property.Differentiation between peer group of high-performing buildings.
Current Efforts Related to Labeling• Significant efforts in the international community - European Union, Singapore, Canada and others• U.S. efforts include various rating systems:• EPA ENERGY STAR – Energy rating with baseline IEQ criteria• USGBC LEED – Sustainability rating• GBI Green Globes – Sustainability rating• BOMA 360 – Energy is one of six O&M-focused criteria• State programs– California, New York, DC, Massachusettes• ASHRAE is working with ENERGY STAR, DOE Energy Efficient Building Hub in U.S. and CIBSE internationally
EUIAs-Built: Source energy use of actual building design computed using standard occupancy and operational schedules, Site-source conversion based on typical conversion factorsEUIStandard: Representative middle-of-distribution performance
Communication scale for bEQOther scales – ENERGY STAR is a statistical scale
System EUIs – the need to compare this data is specialized – repeated here
The Coleman A. Young Municipal Center is a government office building in Downtown Detroit. The international style, high-rise building was constructed in 1951 and completed in 1954. It is 20 floors high, with one basement floor, for a total of 21. The building is used as a library, a court-house, a county government facility and as a city hall, replacing the now-demolished Detroit City Hall. McCormack:Built in the mid 1970s, the 21-story building is located directly across from Massachusetts State House and houses many state executive branches and state agencies. The building was designed as an open floor office building with minimal enclosed offices and a dedicated main frame information technology system. In addition, it was designed to provide comfort through a municipal steam fed mechanical system. Throughout the years, the building has experienced many changes, including change in the mechanical system, the floor spaces where individual offices and the main frame has been replaced by servers, desktop PCs and printers. City Hall Annex is a 4 story office building encompassing approximately 32,000 square feet. It is a LEED Gold rated building that was gutted and renovated about 6 years ago. The building has a ground source heat pump/forced air system, with no conventional backup. There is also a 26.5 kW solar PV system on the roof. City Hall Annex is located at 344 Broadway in Cambridge, MA.