1 / 56

2012 Kentucky Energy Code

2012 Kentucky Energy Code. Based on the 2009 IECC By: Eric N. George. Summary of Changes. Main focus is on the building “envelope” There are 3 “Compliance Paths” = Prescriptive, UA Alternative , and Performance Path Windows = U-factor .35, max = .48

preston
Download Presentation

2012 Kentucky Energy Code

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. 2012 Kentucky Energy Code Based on the 2009 IECC By: Eric N. George

  2. Summary of Changes • Main focus is on the building “envelope” • There are 3 “Compliance Paths” = Prescriptive, UA Alternative, and Performance Path • Windows = U-factor .35, max = .48 • Basement walls = R10 from footer to top • Slab insulation – R10 2 feet deep • Recessed lights – Must be ICAT-labeled (air-tight) • Attic Insulation over exterior top plates = R30 • Ducts located in unconditioned space • Supply ducts = R8 • All other ducts = R6 minimum

  3. Summary of Changes • Ducts in unconditioned space must be visually inspected for air-sealing OR duct-blaster tested • Max leakage to outside = 8 CFM/100 SF floor area • Air-tightness of building must be visually inspected before drywall and/or blower-door tested • Max air-leakage rate = 7 ACH@50 Pa • Attic hatches & doors to unconditioned space must be weather-stripped and insulated to same R-value as surrounding area

  4. Summary of Changes • Fireplaces must have gasketed doors & provide outside combustion air • Using the Performance Path, the efficiency of the HVAC system is not considered for compliance. • The building envelope’s annual energy use must be equal to the same-size house meeting the prescriptive requirements.

  5. Definitions Conditioned Space: Any area or room within a building that is heated or cooled, regardless of whether or not the area or room is considered “finished space”. Ex) Most unfinished basements are “conditioned”

  6. Definitions Building Thermal Envelope: The basement walls, exterior walls, floor, ceilings, and any other building element that enclose the conditioned space & separate indoors from outdoors

  7. Builders & Subcontractors The new energy code will effect all residential builders and their subs. Each sub needs to know what is expected • Builders • Framers • Windows & doors • Electricians, Plumbers, and HVAC • Insulators • Foundation crews • HERS Raters*

  8. Builders • Which compliance path to choose? • Will there be an HVAC system in the attic? • What type of HVAC system & efficiency ratings? • Where and how will the thermal boundary be established (insulation)? • Where and how the air-barriers will be installed? • What sub will be responsible for each function? • Must ensure that ALL mandatory provisions are met

  9. Builders • Provide blueprints with all insulation levels, window & door U-factors • Blueprints should include square footage per floor, all exterior dimensions, including window & door R.O. • Identify areas on blueprints that will need attention before drywall is installed • Knee walls facing attic space • Fireplaces & tubs/showers on exterior walls • Cantilevers • Bulkheads, soffits, and chase cavities • Double walls • Staircase walls

  10. Foundation Contractor

  11. Slab-On-Grade Floors • R10 perimeter insulation required (2” thick) • Downward from top of slab 24” minimum • Insulation can be vertical or extend horizontally under the slab or out from the building • For horizontal, insulation must be under 10” of soil • Can be angled or tapered off at 45 degree angle at edge

  12. Slab-On-Grade Floors

  13. Basement & Crawl Walls • For unfinished basements, you will need to insulate to R5 minimum, either exterior or interior • Prescriptively, R10 is required from footer to top of wall • Using the Performance Path, R5 on the top 4’ around the entire perimeter often passes • For “conditioned crawlspaces”, R5-R10 on the inside of the wall from footer to top

  14. Framing Contractor

  15. Framers Need to Know: • Optimal framing practices • “California corners”, ladder-T’s, insulated headers, etc • Will there be an HVAC system in the attic? • Is there an attic access inside the home? • Where blocking is needed for air-barriers • Knee walls – On attic side, includes a top & bottom plate • Cantilevered floors – Fill completely & block above foundation wall • Bonus rooms over garages – Block & seal openings to side attic spaces

  16. HVAC Platform

  17. Built-up Attic Hatch

  18. Corner Framing to Allow Insulation Exterior Interior

  19. Insulated Headers

  20. Prepping for Insulation

  21. Knee Wall Blocking

  22. Knee Wall Blocking

  23. Exterior Walls All wall cavities MUST have a six-sided air-barrier! Top, Bottom, Left, Right, Front, and Back No top-plate!

  24. Exterior Walls All wall cavities MUST have a six-sided air-barrier! Gable End Walls No top-plate!

  25. Cantilevered Floors How to insulate properly? Should be filled completely with blown-in insulation or batt that is thick enough to fill cavity. Air-seal blocking to framing with foam or silicone caulk

  26. Bulkheads & Dropped Soffits Must install blocking above and behind soffits if on exterior walls, or if unconditioned space is directly above.

  27. Skylight Air-Barrier Easiest way to insulate skylights is with spray-foam insulation, otherwise it’s very difficult to get the air-barrier right!

  28. Fireplace Wall Air-Barrier

  29. Garage Band Joist Air-Barrier

  30. Garage Band Joist Air-Barrier

  31. Air-Barrier Behind Tub/Shower Must extend the FULL height & width of shower or tub! Must be SECURED & SEALED to framing! How will this be insulated? Who will need to do it?

  32. Plumbers

  33. Plumbers Need to: • Install R2 on water lines in a circulating system • Must install automatic or manual shut-off for when system is not in use • Be conscious of the SIZE of the holes they cut! • Don’t make it any bigger than it has to be! • Ensure exterior walls behind tubs/showers are insulated with an interior air-barrier PRIOR to tub installation. • Can also blow-in insulation through air-barrier, then seal the holes

  34. Electricians

  35. Electricians Need to: • Install ICAT-labeled recessed lights adjacent to unconditioned space • ICAT = Insulation Contact Air-Tight • Prescriptively, install 50% or more CFL or LED lights in permanent fixtures • These do not have to be Energy Star “pin-based” fixtures

  36. Recessed Lights • IC-Rated and labeled with no penetrations between inside and outside of can. • Sealed with a gasket and/or can is caulked/foamed to drywall ceiling.

  37. HVAC Contractors

  38. HVAC Contractors Need to Know: • Location of the thermal boundary • Estimated air-leakage rate (for Manual J sizing) • Insulation levels throughout, including window & door performance data (for Manual J sizing) • Will there be a system located in an unconditioned attic?

  39. HVAC Contractors Need to Provide: • Heating & cooling load calcs using Manual J or other approved software • R-8 supply ducts in unconditioned space • If using Performance Path, use R-6 • R-6 for return airducts in unconditioned spaces • Sealed duct work with mastic, UL-181 metal tape, and/or silicone caulk

  40. HVAC Contractors Need to Provide: • One programmable thermostat for each forced-air system • Heat-pumps must have a control to prevent emergency heat from coming on too early • R-3 insulation on all piping carrying fluids over 105 degrees or under 55 These are all mandatory requirements!

  41. Duct Sealing is Critical • ALL duct work must be sealed, including those located inside conditioned space! • If all ducts are inside conditioned space, no duct leakage testing required, however must still do a visual inspection by independent 3rd party (HERS Rater) • Leakage to outside must be less than 8 CFM/100 SF of floor space serviced (each system) • A Duct Blaster will be used to quantify leakage to outdoors

  42. Duct Sealing is Critical

  43. Duct Sealing is Critical

  44. Duct Leakage Testing • HERS Rater must provide certification that ducts meet Post-Construction standards: • Leakage to outside <= 8 CFM per 100 SF floor area, OR • Total leakage <= 12 CFM per 100 SF floor area • Rough-in standards: • Total leakage with air-handler <= 6 CFM per 100 SF, OR • Total leakage without air-handler <= 4 CFM per 100 SF

  45. Air-Sealing

  46. Air-Sealing Requirements • Section 402.4.1 – Building Thermal Envelope • Requires the envelope to be sealed to limit air-infiltration • Use flexible, durable sealants to seal different building materials together. Example – Wood to metal, drywall to wood, etc • Windows & doors MUST be sealed to framing with minimal expansion foam. Stuffing fiberglass is NOT allowed! • All utility penetrations to exterior • Dropped ceilings, chases, bulkheads, etc that are adjacent to thermal boundary • Garage rim joists open to living space, between floors • Behind bath tubs, showers, and fireplaces on exterior walls • Double/common walls • Attic access openings

  47. Insulation

  48. Labels & Identification Section 303.1.1 – Insulation installers shall provide a certificate listing insulation type, manufacturer, and R-value installed

  49. Labels & Identification Section 303.1.1.1 – Blown or sprayed roof/ceiling insulation must have one depth marker (ruler) installed for every 300 SF of attic space. Ruler should face attic access to read easily.

  50. Insulation Installation Batt wall insulation should be cut to fit around electrical boxes, split around plumbing and electrical lines, and not compressed in any way. It should completely fill the cavity, including behind lateral framing and exterior corners Foundation insulation should be permanently secured Ceiling insulation should be even and continuous across exterior top-plates. R30 minimum at edges!

More Related