0. Residential Building Energy Standards (RBES) and Commercial Building Energy Standards (CBES) Updates
Better Buildings by Design Conference - February 10, 2011
Navigant Consulting, Inc.
(Consultants to Vermont DPS)

1. Efficiency Vermont is a Registered Provider with The American Institute of Architects Continuing Education Systems (AIA/CES). Credit(s) earned on completion of this program will be reported to AIA/CES for AIA members. Certificates of Completion for both AIA members and non-AIA members are available upon request. This program is registered with AIA/CES for continuing professional education. As such, it does not include content that may be deemed or construed to be an approval or endorsement by the AIA of any material of construction or any method or manner of handling, using, distributing, or dealing in any material or product.
Questions related to specific materials, methods, and services will be addressed at the conclusion of this presentation.
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2. At the end of this program, participants will be able to:
Learning Objectives
At the end of this program, participants will be able to:
Gain a better understanding of the current VT residential and commercial energy codes
Understand challenges and issues related to implementation and enforcement of the energy code
Understand the overall process involved in current and future Vermont energy code updates
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4. Agenda Background and legislative history Stu Slote
Residential Building Energy Standards (RBES)
Lee Wood
Q & A
Commercial Building Energy Standards (CBES)
Tim Guiterman

5. RBES Update Process Code Update Process Last Update: 2003 VT RBES
ARRA Requirements: 2009 IECC
May 27, legislature adopted Act 45
Stakeholder meetings held to gather feedback
Advisory Committee meetings
DPS filed rule with ICAR (Interagency Committee on Administrative Rules)
DPS held public hearing
LCAR to conduct hearing and vote on rule
Rule to be adopted 15 days after filed
RBES handbook update

6. CBES Update Process Last Update: 2005 VT CBES
ARRA Requirements: 2009 IECC or ASHRAE
Technical Advisory Panel (TAP)
Meetings in June and July of 2010
Highlighted areas for improvement
Included changes from current 2012 IECC / ASHRAE update processes

7. Overall direction for CBES Update
CBES Update Process
Overall direction for CBES Update
Meet minimum 2009 IECC / ASHRAE
Add VT-specific amendments and improvements
Consider substantial changes to create 2012 IECC / ASHRAE
New VT CBES codebook (VT-specific version of IECC)
Continue to maintain reference to ASHRAE 90.1 standard and allow that as approved compliance path
Public hearing on proposed rule held Jan 27
Public comment period ended February 4
LCAR to conduct hearing and vote on rule
Rule to be adopted 15 days after filed

8. CBES Update Process Where are Commercial Codes Headed?
Source: NEEP Building Energy Codes Policy 3/1/2009

9. RESIDENTIAL Building energy standards (RBES)

10. Table of Contents Section 1: RBES Administration2
Section 2: Major Changes to RBES

11. Section 1 » RBES Administration
Administration and Enforcement
2003
2011
Self certification X
Certificate of compliance
Filing process to remain unchanged

12. Section 1 » RBES Administration
Applicability
2003
2011
New single family homes X
New multifamily homes
Change in occupancy or use
Change in space conditioning
Additions, alterations, renovations, or repairs

13. Section 1 » RBES Administration
Additions, alterations, renovations, or repairs
Conform as with new construction
Unaltered portions do not need to comply
Additions can comply alone or in combination with existing building
Exceptions
Storm windows over existing fenestration
Glass only replacements
Exposed cavities already filled with insulation

14. Section 1 » RBES Administration
Exemptions
2003
2011
Very low energy use buildings X
Unconditioned buildings
Existing Buildings
Historic Buildings
Owner Built Homes
Hunting Camps

15. Mandatory Requirements Prescriptive Approach
Section 1 » RBES Administration
RBES Compliance Paths
Start
Mandatory Requirements
Prescriptive Approach
Performance Approach
Either
There are mandatory requirements regardless of which approach you take.
We’ll be focusing on the requirements of the prescriptive approach today, which is the most rigid.
If you don’t want to follow this approach, the total UA alternative offers and performance approaches offer more flexibility and trade-offs.
R-Values Table
Total UA Alternative
REScheck
U-Factor Alternative Table
HERS Rating

16. Table of Contents Section 1: RBES Administration2
Section 2: Major Changes to RBES

17. Section 2 » Major Changes to RBES Piping insulation X Vapor Retarder
Mandatory Requirements
2003
2011
Piping insulation X
Vapor Retarder
Mechanical ventilation
Combustion safety
Air Sealing and verification
Lighting
Fenestration U-factors
Programmable thermostat
Duct sealing and testing
Equipment sizing
Snow melt system controls
Pools, hot tubs and spas
These are the mandatory requirements regardless of which approach you take

18. Component R-Value Exemptions 2003 2011 Ceiling
Section 2 » Major Changes to RBES
Building Envelope
Component
R-Value
Exemptions
2003
2011
R-38 if uncompressed
500 ft2 for vaulted ceilings
Ceiling 38 49
Attic access hatches and doors
17” initial blow of loose‐fill cellulose for an R‐49 settled R‐value
Source: US DOE

19. Building Envelope Section 2 » Major Changes to RBES Component R-Value
Notes
2003
2011
R-20 cavity or
R-13 cavity + R-5 sheathing
Wood Frame Wall 13
20 or
13 + 5
2”x 6” wall with high density FG batt
Source: DOE

20. Basement or Crawlspace Wall
Section 2 » Major Changes to RBES
Building Envelope
Component
R-Value
Notes
2003
2011
R-15 continuous or
R-20 cavity
Basement or Crawlspace Wall 13
15 / 20
2x6 with FG batt and air barrier
3” rigid XPS on exterior or interior if gypsum board is Installed
Source: Building Science Corp

21. Building Envelope Section 2 » Major Changes to RBES Component R-Value
Notes
2003
2011
Heated slabs must have R-15 beneath entire slab
Slab Edge
10, 4ft
15, 4ft
Source: Building Energy Codes Program

22. Fenestration Section 2 » Major Changes to RBES Component
Window U-Factor
Skylight U-Factor
2003
2011
Fenestration
0.40
0.32 NR
0.55
Notes
Area-weighted averages
15 ft2 of glazing exempt
One opaque door exempt

23. Air Leakage Section 2 » Major Changes to RBES Component RBES 2003
No testing requirements
Test: < 5
Visual Inspection Checklist
Source: RBES Handbook

24. Spillage Testing Section 2 » Major Changes to RBES Component RBES 2003
No testing requirements
Must establish draft without spillage within two minutes
Tested according to BPI gold standard or similar method
Whenever changes made that will affect spillage
Source: Saturn Resource Management

25. Section 2 » Major Changes to RBES Component RBES 2003 RBES 2011
Temperature Controls
Component
RBES 2003
RBES 2011
Programmable Thermostat
No requirement
MANDATORY
Lighting
Component
RBES 2003
RBES 2011
Lighting
No requirement
50% of lamps in permanent fixtures high-efficacy

26. Ducts Section 2 » Major Changes to RBES No verification requirement
COMPONENT
RBES 2003
RBES 2011
Duct Sealing
No verification requirement
Must be verified by:*
Post-construction test: Leakage to outdoors < 6 cfm per 100 ft2 of conditioned floor area (CFA)
Rough-in test: Total leakage < 3 cfm per 100 ft2 of conditioned floor area (CFA)
Duct Insulation
R-8
Same R-value as surrounding surfaces*
IECC 2009 requires that duct leakage must be tested unless ducts are within conditioned space. RBES 2011 also requires ducts to be insulated to the same level as adjoining surfaces, unless located within conditioned space. So, these requirements are encouraging you to locate ducts within conditioned space and save yourself these insulating and sealing hassles.
-Various means of verifying – duct blower, flow meter, flow hood, etc
* Unless located within conditioned space

27. Mechanical Ventilation
Section 2 » Major Changes to RBES
Mechanical Ventilation
COMPONENT
2003
2011
Balanced systems X
Exhaust-only systems
Supply-only systems
Supply only systems are rarely used in VT and can lead to moisture damage and indoor air-quality problems as warm moist air is pushed into building cavities where it condenses.

28. Domestic Hot Water Section 2 » Major Changes to RBES COMPONENT
Piping Insulation
Varied
R-3
Source: Saturn Resource Management

29. Other Requirements Section 2 » Major Changes to RBES COMPONENT
Snow Melt
Systems
No requirements
Mandatory automatic controls
Pool Heaters
Mandatory on / off switch
Pool Covers (heated pools)
Pool cover required
R-12 minimum for hot tubs and spas
Heater on/off switch to allow for turning off w/out adjusting thermostat
Timers allow for pre-set schedule of on/off

30. Log Homes Section 2 » Major Changes to RBES Component 2003 2011
Basement Wall U-Factor
0.10
0.05
Floor U-Factor
0.033
0.026
Ceiling U-Factor
0.020
Fenestration U-Factor
0.40
0.30
Standard for design and construction of log homes - structural, thermal, and settling provisions
Basement: R-20
Floor: R-38
Ceiling: R-49
Log walls must comply with ICC400 with average minimum wall thickness of 5” or greater, and have heating system AFUE of 90% (gas) or 85% (oil). Boilers must have outdoor temperature reset or thermal purge control.

31. Questions?

32. Commercial Building energy standards (CBES)

33. CBES Presentation » Overview
Key Items
Details on code update
Administration
Definitions
General Requirements
Envelope
Mechanical Systems
Service Water Heating
Electrical Power and Lighting

34. CBES Presentation » Key Items
2012 IECC and ASHRAE recently finalized in Fall 2010
Significant changes to 2012 IECC initiated by joint proposals
Department of Energy (DOE)
New Buildings Institute (NBI)
American Institute of Architects (AIA)
Presentation Format

35. Chapter 1 Administration

36. Introduction to Compliance Process
Must the Project Comply with the IECC?
Comply with the Envelope Requirements
Comply with the Mechanical/SWH Requirements
Comply with the
Power & Lighting Requirements
Section 502
90.1 Section 5
Sections 503 and 504
90.1 Section 6
Section 505
90.1 Section 9
Document Compliance with the IECC
Plan Review
Inspection

37. Chapter 1 » Administration
101.2 Scope
Code does not apply to farm structures or process applications (equipment / systems)
101.5 Compliance
Exempt Buildings
Low energy buildings (<3.4 Btu/h*ft2 for space conditioning)
Unconditioned buildings
Inflatable buildings
Context: Re-organizes exemptions from 2005 CBES. Inflatable & Unconditioned buildings added.

38. Chapter 1 » Administration
: Alterations, Additions, Renovations and Repairs
If energy use is not increased, following need not comply
Re-roofing where neither sheathing nor insulation is exposed
Alterations that replace < 50% of luminaires
Alterations that replace only bulb and ballast
Context: New in 2009 IECC

39. Chapter 1 » Administration
103: Construction Documents
Added: Additional information required on construction documents
Design ambient temperatures; interior temps. for heating / cooling modes; relative humidity setpoints; ventilation rates
Added: Additional info. required on mechanical equipment schedules
Equipment efficiencies; Fan and pump nameplate motor / brake horsepower; Hydronic system (if applicable) supply / return water design temps. for boilers and all terminal devices (e.g. baseboards, unit ventilators, etc); Steam system (if applicable) design pressure for boilers and all terminal devices
Context: Rarely included, but useful information for code review, commissioning, future energy audits, etc.

40. Chapter 2 Definitions

41. Chapter 2 » Definitions
Added
FENESTRATION PRODUCT, SITE-BUILT
BUILDING ENTRANCE
F-FACTOR
BUILDING SITE
HIGH-EFFICACY LAMPS
CONTINUOUS AIR BARRIER.
LINER SYSTEM (Ls)
CONTINUOUS INSULATION (C.I.)
METAL FRAMING
CURTAIN WALL
METAL FRAMING, ENTRANCE DOOR
DAYLIGHT ZONE
DEMAND CONTROL VENTILATION (DCV)
METAL FRAMING, FIXED
NONMETAL FRAMING
ENTRANCE DOOR
NAMEPLATE HORSEPOWER
FENESTRATION PRODUCT, FIELD-FABRICATED
STOREFRONT
Context: Definitions complement new/revised sections of code. Many are new in 2009 IECC and some from 2012 IECC.

42. Chapter 3 General Requirements

43. Chapter 3 » General Requirements
301: Design Conditions
2005 CBES: broad allowance for adjustments
2011 CBES: adjustments for
Winter heating design temperatures for projects located at either:
Elevation of 1,500 feet or higher
Caledonia, Essex or Orleans counties
2. As approved by code official or other authority having jurisdiction
Context: Improve language from 2005 VT CBES which allowed adjustments for “local design conditions”

44. Section 502 Building Envelope

45. Building Envelope 502.2.1: Roof Assembly
Added: Requirement to insulate skylight and mechanical curbs to at least R-5
Context: Skylight curbs included in proposal for 2012 IECC. Mechanical curb recommended by TAP.

46. Building Envelope Table 502.2 (1) Envelope Tables
Envelope R-Values/U-Factors only for Vermont Climate Zone (CZ) 6
Added additional metal building description and U-factor reference tables
Maximum Vertical fenestration area is 40% of above-grade wall area, same as 2009 IECC CBES was 50% maximum

47. R - 30 + R - 5ci (with R - 5 thermal blocks)
Building Envelope - Opaque Assemblies
Roofs
2005
CBES
2009 IECC /
2011
Roof: Insulation entirely above deck
R - 24 ci U
R - 20 ci U
R - 30 ci U
Metal Buildings
R R - 10
or R - 30 U
R R - 19 U
R R - 13ci U
Steel Joist
R R - 5ci (with R - 5 thermal blocks) U
N / A
Attic and other
R - 38 U
Note Version sent out said R-5. R-3 is correct.

48. Building Envelope - Opaque Assemblies
Walls-Above Grade
2005
CBES
2009 IECC /
2011
Mass
R ci U
R ci U
Metal building
R - 19 or
R R - 13 U R
R ci U
R R ci U
Metal-framed
R R ci U
Wood-framed and other
R - 19 or R - 12 ci or R R ci U
R R ci or
R R ci or
R - 23
2005 VT CBES-Equal to 2009 IECC

49. Building Envelope - Opaque Assemblies
Walls-Below Grade
2005
CBES
2009 IECC /
2011
Below Grade Wall
R - 10 ci C
R ci C
Note: VT was already ahead of 2009 IECC. Recommendation to maintain current 2005 VT CBES values.

50. Building Envelope - Opaque Assemblies
Floors
2005
CBES
2009 IECC /
2011
Mass
R - 10ci U
R ci U
Joist / Framing-Metal*
R - 30 U U
Joist / Framing-Wood and Other*
You have to look at the balance of assemblies for floors.  See Appendix A of Standard 90.1 for descriptions and tables.  A steel joist floor with R-38 is listed as in Table A5.3.  This includes not only the thermal bridging of the joists, but also interior and exterior air films (total of R-1.38), R-1.23 for carpet and pad, R-0.25 for a 4” concrete slab and R-0 for a metal deck.  A wood joist floor with R-38 is listed as U in Standard (Table A5.4), so there may be some minor round-off.  This includes the resistance of a 13.25” wood joist, the same air films, the same carpet and pad, and R-0.94 for ¾” wood subfloor.  The big difference is the wood subfloor is better than the concrete slab.  Bottom line is that metal joist floors and wood joist floors are not assumed to have the same overall construction.  There are more differences than just the joists. 
*Note: Final version will consolidate 2 categories into one, per 2009 IECC

51. R - 10 for entire slab (under slab and perimeter)
Building Envelope - Opaque Assemblies
Slab-on-Grade Floors*
2005
CBES
2009 IECC/
2011
Unheated
R - 10 for 48 inches F
R - 10 for 24 inches below F
F **
Heated
R - 10 for entire slab (under slab and perimeter)
R - 15 for 24 inches below F
The insulation shall extend downward from the top of the slab for a minimum distance as shown in the table or to the top of the footing, whichever is less, or downward to at least the bottom of the slab and then horizontally to the interior or exterior for the total distance shown in the table
* Insulation shall be placed on the exterior of the foundation
** Change to F-Value from 2005 CBES to reflect vertical installation (Or downward to bottom of slab and then horizontally for total distance shown in table)

52. Upward-Acting or Sectional
Building Envelope - Opaque Assemblies
Opaque Doors
2005
CBES
2009 IECC/
2011
Swinging U U U
Roll-Up or sliding
R - 10
Upward-Acting or Sectional
N / A
Note:
The insulation shall extend downward from the top of the slab for a minimum distance as shown in the table or to the top of the footing, whichever is less, or downward to at least the bottom of the slab and then horizontally to the interior or exterior for the total distance shown in the table
Note:
2009 IECC / ASHRAE 90.1 only provides U-Factors
Upward-Acting or Sectional is new and unique to VT code

53. Building Envelope - Fenestration
Category
2005 CBES
2009 IECC
2011 CBES
Vertical Fenestration (Maximum %)
50%
40%
Framing Materials other than Metal with or without Metal Reinforcement or Cladding
U-0.35
Metal framing with or without Thermal Break
Curtain Wall/Storefront
U-0.45
U-0.42
Entrance Door
U-0.80
All Other
U-0.50
U-0.55
SHGC-All Frame Types
PF < 0.25
U-0.40
0.25 < PF < 0.5 NR
PF >= 0.5
Skylights (Maximum %) 5% 3%
Skylights, Glass
U-0.60
SHGC-0.40
Skylights, Plastic
Plastic Not Specified
SHGC-0.62

54. Building Envelope 502.4. Air Leakage Context
2005 CBES and 2009 IECC: broad language
2011 CBES: Mandatory continuous air barrier
Air barrier compliance options
Option 1: Materials
Option 2: Assemblies
Option 3: Building Test (0.31 cfm/ft2 of shell 50 Pa)
Air Barrier penetrations-explicit language on air sealing
Fenestration air leakage table
Context
Substantial part of joint DOE/NBI/AIA proposal to 2012 IECC
Originally adapted from MA building code, so “field-tested” and regionally appropriate

55. Building Envelope 502.4.7 Vestibules Context
Revised to reflect changes in proposed 2012 IECC
Utilizes new definition of “Building Entrance”
VT - specific:
If vestibule is tempered, max temperature setting of 55° F; Cooling prohibited
If tempered, shall be constructed according to envelope provisions
If tempered, thermostat shall be programmable and inaccessible to public
Context
Improved language from model IECC codes
TAP recommended changes due to extensive issues with energy use due to heating and cooling of vestibules

56. Section 503 Building Mechanical Systems

57. Building Mechanical Systems
Overview of changes due to 2009 IECC
Revises equipment efficiency tables for water-chilling packages; minimum equipment efficiencies changed
Requires snow melt control
Requires demand control ventilation (DCV) for certain spaces
Removes exception for energy recovery ventilation for lab fume hood systems ≤ 15,000 cfm
Lowers the system capacity for economizer requirement for most climate zones
Introduces fan power limitations
Introduces supply air temperature reset controls for multiple-zone systems

58. Building Mechanical Systems
Electric Resistance Space Heating
Prohibition on electric resistance space heating
Carried over from 2005 VT CBES
Ventilation
References ASHRAE rather than IMC
Added language emphasizing ventilation rates to be based on expected occupancy levels versus default IMC / ASHRAE 62.1 rates
Context
Important prohibition on electric resistance heating that has worked for VT
2. Prevents designers from using worst-case ventilation rates when better information is available

59. Building Mechanical Systems
: Demand Controlled Ventilation
2005 CBES had no DCV requirement
2011 CBES (2009 IECC): DCV must be provided for each zone with spaces > 500 ft² and average occupant load > 40 people / 1000 ft² of floor area where HVAC system has:
An air-side economizer, or
Automatic modulating control of outdoor air damper, or
Design outdoor airflow > 3,000 cfm
Changed from 2006 IECC.
Demand control ventilation (DCV): ventilation system capability that provides for automatic reduction of outdoor air intake below design rates when actual occupancy of spaces served by system is less than design occupancy

60. Building Mechanical Systems
: Duct and Plenum Insulation and Sealing
2005 CBES (Also 2009 IECC): Minimum R-5 (unconditioned space) and R-8 (outside building)
2011 CBES : “All supply and return ducts located in unconditioned spaces shall be insulated to meet same R-value requirement that applies to immediately proximal surfaces.”
Context: Altered to align with RBES
Public comments raised to address this language
Clarify
Feasibility
Changed from 2006 IECC.

61. Building Mechanical Systems
: Systems Performance Verification and Completion
Buildings ≥ 50,000 SF
Requirements for independent, third-party commissioning agents to perform basic functional testing to verify efficient “as-designed” operation of systems specified in other parts of code, limited to:
Economizers
VAV fan control
Part-load hydronic controls
Prescriptive testing requirements
FAIL

62. Building Mechanical Systems
Systems Performance Verification and Completion (Continued)
Context
2012 IECC dedicates separate chapter to commissioning (Cx) requirements
Cx for buildings > 50K ft2 as starting point for code requirements
Current proposal provides testing ground for future Cx requirements in VT, utilizing only large buildings
Feedback from use of 2012 IECC and VT requirements will be helpful for next update of VT code
Performance verification should ensure systems comply with code intent and operating at maximum energy efficiency
Performance verification improves building performance, hopefully reduces contractor call-backs, issues

63. Building Mechanical Systems
Revised Economizers and Economizers (Complex HVAC Systems)
Economizers required on all systems ≥ 54,000 Btu / h (2005 CBES ≥ 65,000 Btu/h)
Defined allowable economizer sequences to align w/ASHRAE
Clarified section using improved language from 2012 IECC proposals
Design Capacity
Maximum Pressure Drop
Integrated Economizer Control
Context
Matches 2009 IECC capacity threshold
Need to clarify 2005 VT CBES and Economizer sections in 2009 IECC vague
National IECC code also using these changes to align w/ ASHRAE 90.1

64. Building Mechanical Systems
VAV Fan Control / Hydronic Systems Controls /
Added: Static Pressure Sensor Location language
Revised: Hydronic variable flow systems language
Added: Chilled and Hot Water Temperature Controls
Context
Language not in 2009 IECC but existed in ASHRAE
Language taken from

65. Section 504 Service Water heating

66. Service Water Heating 504.1.1 Electrical Water Heating Limitation
Added: Electric service water heating units shall be limited to a maximum of 5 kW total power input
Context: Carried over from 2005 VT CBESES
Yes, that is David Hasselhoff

67. Section 505 Electrical Power and lighting systems

68. Electrical Power and Lighting
Major changes to electrical power / lighting due to 2009 IECC
Adds high-efficacy lighting requirement for dwelling units
Requires separate controls for daylight zones
Allows for use of photocell in tandem with other controls on certain exterior lighting applications
Adds exempted lighting applications that can be excluded from total connected interior lighting power calculations
Revises additional lighting power allowance calculations for retail areas
Creates four exterior lighting zones based on lighting need

69. Electrical Power and Lighting
Interior Lighting Power Allowances
Building Area Method and Space by space Method included
LPD values taken from proposed 2012 IECC values
Context
2005 VT CBES contained both methods but 2009 IECC still only used Building Area Method
2012 IECC will have both methods
2005 VT CBES values identical to 2009 IECC
2012 IECC values include revised categories, higher efficiency for certain categories, and scaled back values for others
2011 VT CBES will be aligned with 2012 IECC and ASHRAE

70. Electrical Power and Lighting
Interior Lighting Power Allowances
Changes to Building Area Method Spaces
All others unchanged from 2005 CBES
Some changes in space-by-space types:
Revised categories, higher efficiency for certain categories, and scaled back values for others
2005
CBES
2009 IECC
2011
Office
1.0
0.9
Retail
1.5
1.4
Fire Station
0.8
Warehouse
0.6

71. Electrical Power and Lighting
Motors and Transformers
Added NEMA efficiency tables for motors
Added NEMA efficiency tables for transformers
Context
VT CBES included these. Maintained in 2011 VT CBES. Motor tables are included in ASHRAE
VT CBES included these. Maintained in 2011 VT CBES.

72. Questions?