Post on 25-Dec-2015
KENTUCKY TRAINING 2009 IECC
RESIDENTIAL PROVISIONS
AcknowledgementsKentucky Department for Energy Development and Independence
Kentucky Department for Housing, Buildings and Construction
Acknowledgements
This project funded by the American Recovery and Reinvestment Act, through the combined efforts of the following organizations: Kentucky Department for Energy Development and Independence, the U.S. Department of Energy, and the Kentucky Division of Housing and Building Codes
BCAP – Building Codes Assistance Project
Non-profit, based in D.C. since 1994
Formed as a joint project of the Alliance to Save Energy, the Natural Resources Defense Council, and the American Council for an Energy Efficient Economy
Provide resources, education & advocacy assistance for adoption, implementation, & advancement of effective energy codes on behalf of the US Department of Energy and other funders
Speaker Intro, CV
• Speaker
Course Overview
• Introduction to Energy Codes– State & National Goals
• Proposed 2009 IECC– Residential Requirements– Compliance Approaches– 2009 IECC Residential Requirements
• Building Science Behind the Code
AIA/CES Credits (Commonwealth Cert. Instead?)
The Building Codes Assistance Project is a registered Provider with The American Institute of Architects Continuing Education Systems. Credit earned on completion of this program will be reported to CES Records for AIA members. Certificates of Completion for non-AIA members are available on request.
This program is registered with the 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.
Why do Energy Codes Matter?
Environmental Impact of Buildings
o 32% of total energy use in Kentuckyo 40% of total energy use in United Stateso 70% of total US electricity consumption
19% Residential
13% Commercial
Computers: 1%Cooking: 5%Electronics: 7%Wet Clean: 5%Refrigeration: 8%
Cooling: 12%Lights: 11%Water Heat: 12%Heating: 31%Other: 4%
Cooking: 2%Computers: 3%Refrigeration: 4%Office Equipment: 6%Ventilation: 6%
Water Heat: 7%Cooling: 13%Heating: 14%Lights: 26%Other: 13%
VALUE of Energy Codes
Affects ALL new buildings
By 2020: • 23.4 million new housing units• Over 1 trillion sq feet commercial floor space
By 2030: • Over 41 million new housing units• Over 2 trillion sq feet commercial floor space
Source: EIA, Annual Energy Outlook 2008
Also…
Beyond code activities such as high performance buildings, advanced standards,and green building initiativesprepare the market so that it can handle more energyefficient requirements through codes.
Buildings are critical to addressing energy and climate issues
Efficient buildings– Avoid global climate change– Reduce foreign oil
dependency– Reduce stress on power grid
and natural gas supplies– Improve air quality and public
health– Save consumers money
Why do Energy Codes Matter…For Kentucky?
Kentucky’s Energy Code
• 2007 Kentucky Residential Code– Based on 2006 IRC, with some modifications that weaken
the energy code• Ex: reduction of basement, crawl space, and duct insulation
requirements, not longer need to seal recessed light features
– Applies to single family dwellings, two-family dwellings and townhouses
• 2007 Kentucky Building Code– Covers commercial construction– Based on 2006 IBC– Energy efficiency portion of the IBC unaffected by
amendments
Where Kentucky Stands
• KY SEO received > $62M in federal stimulus package for energy programs.
• To receive state funding Gov. Beshear certified that KY would implement or surpass the national model energy codes
• 2009 IECC and ASHRAE 90.1-2007, with 90% compliance
• KY on it’s way with proposal review by Board of Housing
Code Improvements
• The 2009 IECC is at least 18% more efficient than KY’s current residential code– Based on difference between 2006 and 2009
IECC– Current residential code is less efficient than
2006 IECC• ASHRAE 90.1-2007 is approx. 5.6% more
efficient than KY’s current commercial code– Estimate also based on 2006 IECC
Potential Energy Savings
• If Kentucky updates to the 2009 IECC and begins implementation by 2011…– Homeowners will save $18 million each year by
2020, assuming constant 2006 energy prices– Average energy bill savings: $336 per household
• The impacts by 2030 will be…– $35 million each year in savings– 5.5 trillion Btu of energy saved each year– Over 387,000 metric tons of CO2 averted each year
Cost/Benefit of New Energy Code
o The cost of upgrading to the latest model energy code is not prohibitive to households and new homebuyers
Incremental Cost Energy Savings Simple payback
$773.92 $336 per year, per home 2.3 years
o BCAP estimates that payback to homeowners for their investment in energy efficiency is less than 3 years
o These estimates are conservative and represent the upper bound on incremental cost
o When these costs are rolled into a 30 year mortgage, the payback becomes a matter of months
Energy Code: Not the Perfect Solution by Itself
• Energy Codes are highly cost-effective, but to work they need:– Training:
Codes can be highly technical, and must be understood to be followed
– Enforcement:
Buildings must be checked for compliance, an adequate number of code officials is needed for this to be effective
What is the IECC?
A Required Minimum Level of Energy Efficiency in New Residential and Commercial Construction
The International Family of Codes
Coordinated family ofInternational Codes, INCLUDING IECC
Structure of the IECC• Chapter 1 Administrative• Chapter 2 Definitions• Chapter 3 Climate Zones• Chapter 4 Residential Energy Efficiency• Chapter 5 Commercial Energy Efficiency• Chapter 6 Referenced Standards
IECC/IRC Interrelationship
• IECC addresses only energy• In Kentucky– IRC Chapter 11 references
IECC for energy
Kentucky - 2009 IECC Overview
• Energy Code Update:– Residential Provisions and
Major Changes from the 2006 IECC/KY Energy Code
– Possible Implementation date: Late 2011/Early 2012
What’s Different From IECC 2006?
• Stringency – some key differences• New requirements
– Building envelope tightness inspection/testing– Duct testing– Lighting equipment– Pool controls and covers– Snow melt controls
• Moisture control requirements moved to IRC – Vapor Retarders
• No mechanical trade-offs allowed
Energy Code Requirements
Mandatory Requirements (apply to all buildings):– Duct insulation and sealing – Infiltration control – Temperature controls– Pipe insulation
Climate Specific Requirements:– Roofs– Above grade walls– Skylights, windows, and doors– Foundations - Basements, Slabs, Crawlspaces– Kentucky is ALL Climate Zone 4
Who Must Comply?
PrescriptivePackage
REScheckSoftware
Basic (mandatory?) Requirements
Insulation & WindowRequirements
PerformanceSoftware
Compliance
Scope and General Requirements - 101
Residential Buildings that must comply:
IRC only for single-family, duplex, and townhouses
IECC has all low-rise (1-3 stories) houses, condos, and apartments [R-2, R-3, R-4], but not hotels/motels [R-1]
All buildings that are not “residential” by definition are “commercial”
What Buildings Must Comply?
• Residential buildings designated as R-2, R-3, or R-4 buildings three stories or less in height above grade.
Perhaps Simpler, Easier to Understand…
• All detached, semidetached, and attached structures, including single and multifamily structures up to three stories
Applicability/Exceptions – 101.4 • Very low energy use buildings
(<3.4 Btu/h-ft2 or 1 watt/ft2) for space conditioning (Section 101.5.2)
• Buildings (or portions of) that are neither heated nor cooled
• Buildings designated as historic (Section 101.4.2)
Additions, Alterations, Renovations, Repairs – 101.4
• Conform as relates to new construction• Unaltered portion(s) 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, existing ceiling, wall or floor
cavities already filled with insulation• Where existing roof, wall or floor cavity
isn’t exposed• Reroofing for roofs where neither
sheathing nor insulation exposed
Mixed Use Buildings – 101.4.6
• Mixed occupancies
– Treat the residential occupancy under the applicable residential code
– Treat the commercial occupancy under the commercial code
Definitions 202
Conditioned Space: The part of the building that is designed to be thermally
conditioned for the comfort of occupants or for other occupancies or for other reasons.
Building Envelope: The area that separates conditioned space from
unconditioned space or the outdoors.
Definitions - OthersAir Barrier
Water Resistive
Building Thermal envelope
C-Factor
Commercial Building vs. Residential
Fenestration
F-Factor
R-Value
Service Water Heating
SHGC
U-Factor
ConditionedSpace
Outdoors
Conditioned Space/Building Envelope
Building Envelope
• Building Envelope consists of:• Fenestration
• Windows, doors, skylights• Ceilings• Walls
• Above grade• Below grade• Mass walls
• Floors• Slab• Crawl space
Conditioned space
attic
The Building Envelope Can Be Deceiving
• Higher R-value = Better Insulated• A Material Specification• R-value Applies to:
– All Walls– Raised Floors– Roofs
R-Value
R-30
R-19
R-11
U-Factor
• Lower U-factor = Better Insulated• Associated with Assemblies• U-factor applies to:
– Windows– Skylights– Doors
• U=1/R• Includes
air films
Single PaneU ~ 1.05
Double PaneU ~ 0.50
Double PaneLow-E FilmU ~ 0.35
Who Must Comply?
PrescriptivePackage
REScheckSoftware
Mandatory Requirements
Insulation & WindowRequirements
PerformanceSoftware
Compliance
Materials and Equipment Information
Material and Equipment throughout the building should be easily identifiable
by the building inspector and homeowner. This includes R-Values,
U-Factors, and equipment identification on all mechanical
equipment.
Building Plans
Basic/Mandatory Requirements
Material Identification (303.1) ie..Insulation Identification
NFRC Window Information – 303.1.3
Material Identification – 303.1.1.1
• R-value identification mark must be on all batt insulation wider than 12”
• Blown in attic floor insulation must have a depth marker for every 300 sq ft
Compliance
Who Must Comply?
PrescriptivePackages
REScheckSoftware
Mandatory Requirements
Compliance Paths
PerformanceSoftware
Climate Zones—2009 IECC
Kentucky – All CZ - 4
Prescriptive Packages
• Section 402• U-factor R-value requirements based upon:
– Climate Zone– Building component (ceilings, walls, floors,
windows, doors)– Does allow some area-weighting (windows)– Footnotes Key– No Window ft2 calcs, ONE Table
• Also includes Mandatory requirements
Prescriptive Requirements – Table 402.1.1
Code ComparisonKY Energy Code vs. 2009 IECC
FENESTRATION U-Factor
SKYLIGHT U-FACTOR
GLAZED FENESTRATIO
N SHGC
CEILING R-
VALUE
WOOD FRAME
WALL R-VALUE
MASS WALL
R-VALUE
FLOOR R-
VALUE
BASEMENT WALL R-VALUE
SLAB R-
VALUE AND
DEPTH
CRAWL SPACE WALL
R-VALUE
Kentucky Residential Code
.40 .60 NR 38 13 5/10 19 4 4, 2 10/13
2009 IECC (Climate Zone 4)
.35 .60 NR 38 13 5/10 19 10/13 10, 2 10/13
Kentucky’s current code and the 2009 IECC aren’t so different:
Alternative U-Factor – Table 403.1.3
*Most Relevant for Use by REScheck Software
Prescriptive Special Cases – 402.2
• Glass- 15ft2 may be excepted – decorative, etc.
• One Single side hinged door < 24ft2
• Attic insulation when full height over exterior walls- RAISED HEEL OR OVERSIZED TRUSS
R-38 R-30 for KY
• Attic insulation with undersized rafters to allow R-38 in a CATHEDRAL CEILING allows:
R-30 for cathedral ceilings if: <500ft2 of total area, or:
<20% of total roof area
Insulation Installation
“Cut-To-Fit!”
Right Wrong
For Wiring
Right Wrong
Electrical Boxes
Insulation Installation
Insulation Installation
Insulation Installation
Insulation Installation
NO GAPS!
Insulation Installation – Nice Jobs!
Insulation Voids
% of air voids in cavity
Insulation R-Value
Insulation Installation (Video)
Knee Wall Insulation
Attic Insulation (Video)
Attic Hatches - 402.2.3
• Attic Hatches– Air Sealed– Same Insulation level as floors
around them
• Vertical “Hatches” (in Kneewalls)– Also Air Sealed and insulation
equal to WALL insulation level.
Skylights, roof windows, vertical windows, opaque doors, glazed block and combination opaque/glazed doors.
Fenestration- Definition
Windows, Glazed Doors and Skylights – 402.3
U-factor Requirements:• Rating for all
Manufactured Fenestration; or
• Tables 303.1.3 (1-3):U-factor Default Tables for
Windows, Doors and Skylights
Fenestration (Windows, Doors)
• An area weighted average of fenestration can be used to satisfy the U-factor requirements
– Area-weighted average U-factor is subject to hard limits, even in trade-offs
– NFRC rated and certified
• Replacement Windows – U-.35
Windows – U-Factors Limits - 405
• Strict limits on U-factor in central/northern U.S. (cannot be traded off)
– U-0.75 for skylights in Zones 4-8– These are based on building average; individual
windows or skylights can be worse if area-weighted average meets these requirements
– Impacts the REScheck and Performance Paths
Climate Zones U-Factor Maximum4-5 0.486-8 0.40
Roof/Ceiling – 402.2.1-2.3• R- Value Requirements
based on insulation framing between or above cavity
• Meet or exceed R-values
Easy to miss…Rim/Band Joist
Standard Roof Truss
• Ceiling insulation code requirements assume standard truss systems
Cold corners contribute to condensation and mold growth
Potential for ice dam formations
Raised Heel Truss
• Raised Heel/Energy Truss credit if insulation is full height over exterior wall
Above Grade Walls - 402
Insulate walls including those next to unconditioned spaces
Don’t forget to insulate rim/band
joists
Mass Wall Insulation – 402.2.4
• What type• Concrete block, concrete, insulated concrete
form (ICF), masonry cavity, brick (other than brick veneer), earth, and solid timber/logs
• Provisions• If 50% or more of the insulation R-value is
on the exterior or integral to the wall, the smaller R-value can be used
– R- 5 if on exterior for Climate Zone 4;
– R-10 if more than half R-value is interior
Photo Courtesy of Kanuf Insulation
Steel-frameEquivalency
Tables402.2.5
Wood Frame R-valueCold-Formed Steel Equivalent R-value
Steel Truss Ceilings
R-30 R-38 or R-30 + 3 or R-26 + 5
R-38 R-49 or R-38 + 3
R-49 R-38 + 5
Steel Joist Ceilings
R-30 R-38 in 2x4, 2x6, or 2x8R-49 any framing
R-38 R-49 2x4, 2x6, 2x8, or 2x10
Steel Framed Wall
R-13 R-13 +5 or R-15 +4, or R-21 +3
R-19 R-13 + 9 or R-19 +8 or R-25 +7
R-21 R-13 +10 or R-19 +9 or R-25 +8
Steel Joist Floor
R-13 R-19, 2x6R-19 +6 in 2x8 or 2x10
R-19 R-19 +6, 2x6R-19 +12 in 2x8 or 2x10
Photo Courtesy of Kanuf Insulation
Basement Walls – 402.2.7
• > 50% below grade• Zone 4: R10 (continuous) or
R13 (cavity)
IN KY:
Currently R-4
2’ Down f/Grade
Above Grade per Basement Wall Definition
Basement Walls
Grade Line
4’
4’
4’
4’
49%
49%
51%
51%
Above Grade Wall
Below Grade Wall
Exterior Foam
Interior Studding
Basement Walls – Good Job
Basement Walls – Weak Job
Floors – 402.2.6• Space can be an
unheated basement, a crawlspace or outdoor air
• Zone 4: R19
• Insulation must maintain permanent contact with underside of subfloor
• Example of poor insulation job
Crawlspaces
Crawlspaces – Weak Job
Crawlspaces – Nice Job
Crawlspace Wall Insulation
Crawl Wall Insulation: This practice eliminates the need for insulation in the raised floor above the crawl.
Crawl space may not have ventilation openings to the outside
Must be mechanically ventilated or supplied with conditioned air (1cfm/50 sq.ft)
Crawl floor must be covered with an approved vapor retarder material
Crawlspace Wall Insulation – 402.2.9
When crawlspace walls are insulated, foundation vents are not required. Space should be mechanically vented or conditioned.
R-10/13 like Basement
Nice Job!
Crawl Space Wall Insulation
Is Venting This a Good Idea?
Are vents helping?
Crawlspaces To Vent, or NOT to VentBest Practice
Bunch of Stuff
EEBA Builders Guide
Building Science Corp.
Slab Edge Insulation – 402.2.8 • R-10 (typically 2 inches) insulation in Zone 4; Currently R-4 in
KY
• Downward from top of slab a minimum of 24”
• Insulation can be vertical or extend horizontally under the slab or out from the building (must be under 10 inches of soil),
• Can be angled at edge of slab
Slab Edge Insulation Slab Edge Insulation
Good Job!!
Slab Edge Insulation – Weak Job Slab Edge Insulation – Weak Job
Sunrooms – 402.3.5
Less stringent insulation R-value and glazing U-factor requirements
Sunroom definition:– Glazing area >40% glazing of
gross exterior wall and roof area
– Separate heating or cooling system or zone
– Must be thermally isolated (closeable doors or windows to the rest of the house)
Sunroom Requirements – 402.3.5• Ceiling Insulation
– Zones 4 R-19
• Wall Insulation– Zone 4 R-13
• Fenestration Maximum U-Factor– Zone 4 0.50
• Skylight Maximum U-Factor– Zone 4 0.75
New walls and new windows and doors separating a sunroom from the Conditioned space must meet the thermal envelope requirements.
Where Is Energy Lost?
-100
0
100
200
300
Ceilin
gs/R
oofs
Rim
/Ban
d Jo
ists
Abov
e Gr
ade
Wal
ls
Foun
datio
n W
alls Do
ors
Win
dows
/Sky
light
s
Fram
e Fl
oors
Slab
Flo
ors
Infilt
ratio
n
Ducts
Inte
rnal
Gai
ns
Who
le H
ouse
Ven
tilatio
n
$/yr
Cooling Cost
courtland
-400
-300
-200
-100
0
100
200
300
400
500
600
700
Cei
lings
/Roo
fs
Rim
/Ban
d Jo
ists
Abov
e G
rade
Wal
ls
Foun
datio
n W
alls Doo
rs
Win
dow
s/Sk
ylig
hts
Fram
e Fl
oors
Slab
Flo
ors
Infil
tratio
n
Duc
ts
Inte
rnal
Gai
ns
$/yr
Heating Cost
courtland
Air Leakage – 402.4
Air leakage, or infiltration, occurs when outside air enters a house
uncontrollably through cracks and openings. Properly air sealing such cracks and openings in your home
can significantly reduce heating and cooling costs, improve building durability, and create a healthier
indoor environment. Building Plans
Basic/Mandatory Requirements
Areas for Air Leakage (Infiltration)
• Windows and doors
• Between sole plates
• Floors and exterior wall panels
• Plumbing
• Electrical
• Service access doors or hatches
• Recessed lightfixtures
• Access hatches and doors
Air Leakage
Windwashing- air movement within the wall cavity that reduces the installed R-value.
Air Leakage
• Effects of Windwashing– Reduces insulation's effectiveness/installed R-value– Reduces overall comfort– Places unnecessary stress on HVAC system– Increases energy consumption– Introduces moisture to unwanted areas– Can cause building/space depressurization,
backdrafting
Effect of Air Movement on Installed R-Value
14
12
10
8
6
4
2
0
0 5 10 15 20 25 Wind Speed (M.P.H.)
Effective R-Value of wall without proper air sealing
Wall System Installed R-Value
(°F x sq.ft. x h/BTU)
*Test data by Holimetrix. ASTM E283,ASTM E1424,C976
Air Leakage Control
Air Leakage Control
*Must be tested to ASTM for use in fire-rated assemblies
Chimney Chases
Chimney Chase Air SealingFlashing, caulk (possibly fire rated) at each sideSee IRC 1001.11
Rock wool with heavy duty aluminum foil rolled around it -- Caulk to chimney and framing
Duct Penetrations…
Plumbing Services…
Bath Plumbing Penetrations
Overhang/cantilever Air Sealing
conditioneduncondition
ed(e.g. - garage,
balcony)
blocking
Seal Foundation Penetrations!
Foundations!
Air Barrier and Insulation Inspection Table/Checklist – 402.4.2
Comply with Air Barrier
and Insulation Inspection Checklist
OR…..
OR…A Blower Door TestBlower Door Test
Depressurizes the House to Measure the Over-all Air Leakage Rate
When tested, the tightness must be at or below 7 Air Changes per Hour at a 50 Pa pressure difference
Air Leakage can account for a major amount of home heat loss, and lead to other performance problems
Formula:ACH50=CFM50*60/Volume
Air Infiltration
We have learned much over the years from the “Blower Door Test”
Air Leakage Can Be More Than a Third of the Total Heat Loss in a Conventionally Built Home
An Important ENERGY STAR®
label Homes Requirement is an Air Tightness Test or Blower Door Test
Fireplaces – 404.4.3
• New wood-burning fireplaces shall have gasketed doors and outdoor combustion air.
Recessed Lighting Fixtures – 402.4.5
• Type IC rated, and labeled with no penetrations between the inside of the recessed fixture and ceiling cavity (sealed and caulked)
• Sealed with a gasket or caulk between housing and wall or ceiling covering
• Type IC rated, in accordance with ASTM E 283 to be an “Air-Tight”enclosure
Vapor Retarder
A vapor barrier or vapor diffusion retarder (VDR) is a material that
reduces the rate at which water vapor can move through a material.
NOW IN IRC!!
N/A for CZ4 - KY
Building Plans
Basic Requirements
No longer a requirement in the IECC
Vapor Retarders No longer a
requirement of the IECC – in IRC
NOT required in Climate Zone 4
Siding
Sheathing
Studs & Insulation
Vapor Vapor RetarderSheet Rock
Zone 1-4 ExemptZones 5-8 Have exceptions(see IRC Chapter 6,
IBC Chapter 14)
Vapor Retarders
One Example:Poly Vapor Retarder(probably a bad idea in any climate)
Another Example:Kraft-Faced Insulation
Why – Diffusion vs. Air Movement
.
EEBA BFG
Crawl Floor Vapor Barrier
Class I Vapor retarder – 0.1 Perm or less
Vapor Diffusion
Ducts – 403.2In new home construction or in
retrofits, proper duct system design is critical. In recent years, energy-
saving designs have sought to include ducts and heating systems
in the conditioned space
Building Plans
Basic/Mandatory Requirements
HVAC Duct Insulation
Ducts – 403.2.1
• Insulation– Supply and Return Ducts
outside the building envelope shall be
insulated to R-8 in attics – everywhere else R-6
• Building framing cavities shall not be used as supply ducts (return ducts still OK- but not recommended)
Duct Sealing – 403.2.2
• Seal all ducts, air handlers, filter boxes, and building cavities used as ducts.
• Seal and securely fasten all joints, transverse seams and connections with:– welds– gaskets– mastics– mastic-plus-embedded fabric systems– tapes
• Unlisted duct tape is not permitted as a sealant on any metal ducts – must be UL-181 A/B listed –per IRC
Duct Sealing Requirements – 403.2.2
• Locate All Ductwork in Conditioned Space,
OR…
• duct tightness test must be performed on the system:
or
Duct Testing – 403.2.2 (1-2)Heating and cooling systems not 100% in conditioned space must be tested at 0.1” w.c. (25 Pa) and pass either
1.Post-construction test: Max leakage to outside of 8 cfm/100 ft2 of CFA or,Max total leakage less than or equal to 12 cfm/100 ft2 CFA
2. Rough-in test: Max total leakage of 6 cfm per 100 ft2 CFA or,Max total leakage w/o air handler 4 cfm per 100 ft2 CFA
e.g. 2,000 square foot finished houseMax leakage to outside= 160 cfmMax total leakage= 240 cfm
Duct Systems Air Sealing
Duct Installation
• Avoid Tight Bends
• Minimize Sagging
• Size Properly
• Place Inside the Envelope (good practice)
What’s the Big Deal about Ducts?
Well, it depends…
More Like It….
This Can Be the Big Deal
Supply in dropped soffit
Transfer grille
Ducts Inside Conditioned Space
Big Duct Holes and the Code
Leaky Supply Ducts and Panned Stud Bays/Floor Joists.
Don’t worry, this is only a $2 Million dollar home!
Deal with Pressure Imbalances!!
Deal with Pressure Imbalances!!
Door Closure Effect
Transfer Grille for Pressure Relief and Return Air Flow
The “Jump Duct” Option
Bedroom
Bedroom
…Or simple, inexpensivestraight-thru transfer grilles like R.A.P. or
Xenon !!
Deal with Pressure Imbalances!!
Mechanical/Electrical Equipment
• Temperature Controls• HVAC • Piping Insulation• Service Hot Water Systems• Swimming Pools• Lighting• Snow Melt Controls
Building Plans
Basic Requirements
Mandatory Requirements Systems – 403.1
• Controls – 1 T-stat for each separated heating and cooling system.
• Heat pump supplementary heat• HVAC piping insulation R-3 (>105 or <55 degrees)
• Circulating hot water systems: R-2– Circ. Pump on/off switch
readily accessible
Ventilation and Equipment Sizing – 403.6 and IRC M 1401.3
• Ventilation– Outdoor air intakes and exhausts shall have automatic or gravity dampers
that close when the ventilation system is not operating
• Equipment Sizing– IECC references Section M1401.3 of the IRC
– Load calculations determine the proper capacity (size) of equipment
• Goal is big enough to ensure comfort but no bigger
– Calculations shall be performed in accordance
with ACCA Manual S and Loads from ACCA
Manual J or other approved methods
(Long-Hand ASHRAE Handbook of Fundamentals)
HVAC Systems
Typical Heating and Cooling Systems
Furnace
A/C Unit
Ductwork
Heating and Cooling Efficiency
Temperature &Humidity ControlsAuto Setback Thermostat
Duct Installationand Insulation
Pipe Insulation
Programmable T-stat for Furnaces
Pool Requirements (403.9)
• Pool heaters (403.9.1)– Readily accessible on-off switch– Natural gas or LPG fired pool heaters will not have
continuously burning pilot lights
• Time switches (403.9.2)– Automatic controls required to operate pool heaters
and pumps on a preset schedule– Exceptions
• Where public health standards require 24 hour operation
• Where pumps are required to operate solar and waste heat recovery pool heating systems
Pool Covers (403.9)• Heated pools required to
have a pool cover• Pool cover must be
vapor retardant• Pools heated to over 90oF
• Minimum R-12 insulation
• Exception• Pools deriving > 60%
energy for heating from site-recovered energy or solar source
High-Efficiency Lamps Required (404.1)
• Applies to permanently installed lighting fixtures
• Requires 50% to be Compact Fluorescent T-8 Linear Fluorescent Meet minimum efficacy
requirements (see definition)• Applies to interior and exterior
lighting• Can be met with CFLs• Lamps NOT fixtures
Snow Melt Controls for Residential and Commercial Projects – 403.8
• Snow detector that will activate the system from the idle mode to the snow melt mode
• Require a slab temperature sensor that turns the system off when the surface temperature is above 50oF
• Temperature control that shuts the system down when the outdoor temperature is above 40oF
Compliance/Documentation/Inspections405.4
• Code Official has final authority– Software, worksheets– Above Code Programs
• Electronic media can be used• Construction work for which a
permit is required is subject to inspection
• Certificate is required- electric panel
Compliance/Documentation/Inspections
• Code Officials Inspection– Successive and final inspections, and re-
inspections if necessary• Code Validity
– Code deemed to be illegal or void shall not affect the remainder of the code
• Fees– Must be paid before permit is issued– Required in accordance with schedule
Certificate (401.3)• Permanently posted on the electrical distribution
panel• Don’t cover or obstruct other required labels• Includes the following:
– R-values of insulation – building envelope & insulated ducts
– U-factors for fenestration– HVAC efficiencies and types– SWH equipment– SHGC for fenestration – Not Required in KY CZ 4
• If a gas-fired unvented room heater, electric furnace, or baseboard electric heater is installed
While We’re At It – Water and Moisture IssuesCovered in the IRC, BUT
An Issue costing the Construction Industry over $9B/Year!
Residential Code Section 703 – Exterior Covering - 703.1 – Intent to prevent moisture from getting into wall - 703.2 – Water–resistant sheathing paper or material tested to ASTM D
226 (Housewraps, other building papers or felts) - Most Stone veneer and stucco applications require 2 layers-R703.6.3 - 703.7.5 and .8 - Flashing required, vague around siding other than Stone
or Brick - Required around openings, doors, windows, fairly vague - Stone veneer and stucco claddings also require a weep screed
Window Leaks
JUMP!!
Where is the water going to go?
And if you don’t…
Everything Has to Work
Perhaps Too Drastic
Everything…
Water Management Fundamentals
• Builders are used to applying basic water management principles daily– Shingles– Building paper
• Where do we mess up?– Almost always at the joints
and connections where different things come together
Water Management Simplicity
Let’s look at the basic components of wall water management.
One Solution…
Deal With Window and Door Penetrations!
Preparing for the Window…
Sill Flashing
• Can use continuous or multi-piece flashing approach
• Key is integration into whole wall system
Integrate Windows
Continuous Drainage Plane
Who Must Comply?
PrescriptivePackage
REScheckSoftware
Basic Requirements
Insulation & WindowRequirements
Compliance Path
U-Factor and Total UA Compliance Path – 402.1.4
(Enables REScheck Approach)
• Total UA Alternative– Same as U-factor alternative but allows trade-offs
across all envelope components• Approach used in REScheck software
• REScheck DOES have some Performance elements – Window Orientation, Area (limited)
REScheckTM
Desktop Software Tools Web-Based Tools
Windows version orMac version
Download/access at www.energycodes.gov
REScheck Steps
• Select the Appropriate Code• Enter Project Information• Enter Building Components• Enter Mechanical Equipment
(optional)• View/Print the Compliance Report• Save the Data File and the Report
Appropriate Code
• Applicable Energy Code
(Code Menu)• Default• Preferences
Project Information
• Project location• Project type• Project details for
report (optional)– Title/Site/Permit– Owner/Agent– Designer/Contractor– Notes
Compliance
• UA– “Max UA”– “Your UA”
• 2009 IECC-based projects– New Construction
• Must enter a roof, walls, and floor assembly– Check Compliance button
• NO High-efficiency HVAC Tradeoff• Performance alternative if UA calculation
fails
Screen Operations
Status BarCompliance Bar
Compliance Reports
• Project complies• View/Print Report
Compliance Certificate
Building Components
Project Information
Compliance Statement
Project Notes
Inspection Checklist
• Mandatory requirements
• Code presumes these requirements are met
• First of three pages
Panel Certificate
Under 2009 IECC-based codes, panel certificate option
Files
• Data (File>Save)• Report (File>Save Report)• Exchange
REScheck Example
Sylvan ResidenceLexington KY
• Building Envelope
Unexcavated
16' 0
"
24' 0
"
76' 0"
Crawlspace
Conditioned Basement
Conditioned Main Floor
Building Section
WD
BEDROOM #2DEN
LIVINGROOM
NOOK
KITCHEN
3 CAR GARAGE
DECK
MASTERBEDROOM
UTILITY
MSTRBATH
DININGROOM
FAMILYROOM
ENTRY
BASEMENT2x6 furred/insulwall (typ)R-19 batt insulation
CRAWLSPACE
• Ceiling Area
Ceiling Area2415 s.f.
WD
BEDROOM #2DEN
LIVINGROOM
NOOK
KITCHEN
3 CAR GARAGE
DECK
MASTERBEDROOM
UTILITY
MSTRBATH
DININGROOM
FAMILYROOM
ENTRY
North
Raised Heel or Energy Truss
• Exterior Wall Areas
North 9’ Ceilings
9’ Ceilings 12’ Ceilings
9’ Exterior Walls - 2180 s.f.North – 690 s.f.South – 600 s.f.East – 440 s.f.West – 450 s.f.
12’ Exterior Walls - 689 s.f.
North – 221 s.f.
South – 234 s.f.
East – 52 s.f.
West – 182 s.f.
3’ knee walls (between 9’&12’ sections) – 153 s.f.
West – 69 s.f.
East – 84 s.f.
WD
BEDROOM #2DEN
LIVINGROOM
NOOK
KITCHEN
3 CAR GARAGE
DECK
MASTERBEDROOM
UTILITY
MSTRBATH
DININGROOM
FAMILYROOM
ENTRY
• Including Rim Joists in the Exterior Wall Area
9'
C o m p . R o o f i n g
7 / 1 6 " o r 1 / 2 " R o o f S h e a t h i n g1 5 # F e l t U n d e r l a y m e n t
P r e M a n u f . R o o f T r u sse s @ 2 4 " o . c .
4 " b a se m e n t s l a b
2 x 1 2 f l o o r j o i s t s @ 1 6 " o . c .
2 x 1 2 f l o o r j o i s t s @ 1 6 " o . c .
1 / 2 " g y p su m w a l l b o a r d c e i l i n g
1 / 2 " p a r t . b o a r d u n d e r l a y3 / 4 " T & G p l y w d . su b f l o o r
M A I N L E V E L
B A S E M E N T
T Y P . E X T E R I O R W A L L :st u c c o'T y v e k ' i n f i l t r a t i o n b a r r i e r7 / 1 6 " O S B su b sh e a t h i n g2 x 6 @ 1 6 " o . c . f r a m i n g
1 / 2 " g y p . w a l l b o a r d ( G W B )
T Y P . F L O O R :
C o n c r e t e P a t i o
10
'9
'
2 4 " d e e p
24
"
R - 3 8 b a t ti n su l a t i o n
R - 1 9 b a t t i n su l a t i o n
R - 1 9 b a t t i n su l a t i o n
R - 5 r i g i d i n su l a t i o n
B A S E M E N T S E C T IO N @ E X T E R IO R W O O D W A L L
• Basement Walls -– below grade
>50% below grade =below grade concrete basement wall
Above Grade Bsmt Walls (exterior wood) = 837 s.f. (93’ x 9’) (entered as wood frame wall not a basement wall)
Below Grade Bsmt Walls = 1044 s.f.
Side basement walls = 360 s.f.
• West Wall – 144 s.f
• East Wall – 216 s.f.
Back basement wall = 684 s.f. (76’x9’)
(solid concrete or masonry)
3/0
linen
2/0 2/0
3' x 4' SHWR
2/6
storagehot water
fireplaceBa t h
Crawlspace
CrawlspaceUnexcavat ed
B edroom #4
B edroom #3
Family Room
Mech/ S t orage
16' 0"
24' 0"
76 ' 0 "
Concret e Pat io
• Basement Wall Areas
Above GradeBmst Walls (exterior wood) – 837 s.f. (93 ln. ft. x 9’ height)
144 s.f.684 s.f.
216 s.f.
North
• Basement Walls -– REScheck inputs
“back” below grade basement wall
(entire back wall is adjacent to crawlspace
“side” below grade basement walls
8 :12 pit c h (t yp)
bed room #2 clo m a inba t h
m a st erbed room
clo
B A S E M E NT2 x 6 f u r r e d /in su lw a ll ( ty p )R - 1 9 b a tt in su la tio n
CRA WLS P A CE
• Floor Area Crawlspace Area - 783 s.f.
North
Unexcavated
16' 0
"
24' 0
"
76' 0"
Crawlspace
• Slab Perimeter
Slab Perimeter - 93 linear feet
Line represents the slab edge to be calculated in linear feet.
Unexcavated
16' 0
"
24' 0
"
76' 0"
Crawlspace
Perimeter Slab Insulation
8 :12 pit c h (t yp)
bed room #2 clo m a inba t h
m a st erbed room
clo
B A S E M E NT2 x 6 f u r r e d /in su lw a ll ( ty p )R - 1 9 b a tt in su la tio n
CRA WLS P A CE
9'
C o m p . R o o f i n g
7 / 1 6 " o r 1 / 2 " R o o f S h e a t h i n g1 5 # F e l t U n d e r l a y m e n t
P r e M a n u f . R o o f T r u sse s @ 2 4 " o . c .
4 " b a se m e n t s l a b
2 x 1 2 f l o o r j o i s t s @ 1 6 " o . c .
2 x 1 2 f l o o r j o i s t s @ 1 6 " o . c .
1 / 2 " g y p su m w a l l b o a r d c e i l i n g
1 / 2 " p a r t . b o a r d u n d e r l a y3 / 4 " T & G p l y w d . su b f l o o r
M A I N L E V E L
B A S E M E N T
T Y P . E X T E R I O R W A L L :st u c c o'T y v e k ' i n f i l t r a t i o n b a r r i e r7 / 1 6 " O S B su b sh e a t h i n g2 x 6 @ 1 6 " o . c . f r a m i n g
1 / 2 " g y p . w a l l b o a r d ( G W B )
T Y P . F L O O R :
C o n c r e t e P a t i o
10
'9
'
2 4 " d e e p
24
"
R - 3 8 b a t ti n su l a t i o n
R - 1 9 b a t t i n su l a t i o n
R - 1 9 b a t t i n su l a t i o n
R - 5 r i g i d i n su l a t i o n
• Insulation Levels
Roof/Ceiling - R-38 batts
Wall - R-19 batts
Floor - R-19 batts
Slab - R-5 rigid (24” vertical)
• Window/ Door Area
Window Area - 533 s.f.;
U-value = 0.40 & SHGC .40
North – 369 s.f.
South – 149 s.f.
West – 15 s.f.
North
South
East
West
Glass Doors <50% glass - 40 s.f.; U-value = 0.50
North – 40 s.f.
Opaque Doors - 40 s.f.; U-value = 0.50
South – 40 s.f.
Overhang/Projection Factor (PF)
CRAWLSPACE
9' 1-
1/8"13
' 6" 2 '
PF= A/B
PF=0.15
Performance Approach – 405.5, 405.6
ProposedDesign
(“Proposed Building Meeting the Energy Code Requirements”)
StandardDesign
Energy Useof Proposed Design less
than
Energy Useof Standard
Design
Energy Estimation
Tool
<
In KY – Most Likely Software Used will be REMRate
Simulated Performance• Requires computer software with specified capabilities (local official
may approve other tools)• Includes both envelope and orientation• Allows greatest flexibility. Credits features such as:
– Tight building envelope– Tight ducts (must be leak tested) or hydronic systems– Exterior shading, favorable orientation, thermal mass, SHGC,
etc.• Section 405 specifies “ground rules”
– These will generally be “hidden” in compliance software calculation algorithms
– Very similar ground rules are used in new home federal tax credits and ENERGY STAR Home guidelines
Simulated Performance Alternative (Section 405)
• Analysis includes– Proposed R-values/U-factors– Solar Gain– Various duct and distribution efficiencies– Service Water Heating– Infiltration – Duct tightness– Orientation
• Mandatory requirements necessary– Sections 401, 402.4, 402.5 and 403
Our Implementation Challenges
Codes are not being well Implemented:• Training of Trades, Builders and Code Officials
• Requirements unclear and how to build them into buildings
• Compliance Low
• We’re NOT getting the projected energy savings OR building better buildings
State ResourcesKentucky Home Performance with Energy StarRecovery Act-funded program to provide technical and financial assistance to homeowners to assesses and finance the energy efficiency of their existing homes and to help contractors get into the business of performing energy evaluations and retrofits www.Kyhomeperformance.org
Kentucky HousingProgram for low-income households to make their homes more energy efficient. Funds retrofits up to $6,500. http://www.kyhousing.org/page.aspx?id=2327
Midwestern Energy ConferenceConference coming up in March (offered each year) where contractors can learn more about building science and programs to help fund energy efficiency and grow their businesseshttp://www.midwestenergyconference.com/2011/2011index.htm
Energy Star Homesorganization actively promoting ENERGY STAR new homes programhttp://www.hbak.com/
Resources
www.energycodes.govtechsupport@becp.pnl.gov
National Level - National Model Building Energy Code & Standards
COMMERCIAL
Standard 90.1 2010; 30 % Target (Achieved about 25%)
Currently:
• Standard 189.1 (Completed 2009)
• International Green Construction Code (IgCC) 2nd draft 11/4/2010
• LEED, Global Green, Advanced Energy Design Guides, Core Performance, ENERGY STAR
National Level - National Model Building Energy Code & Standards
RESIDENTIALInternational Energy Conservation Code; 30%
improvement underway-2012 IECC
Currently, • 2009 IECC (several significant new provisions to
boost energy efficiency 15% on average nationally for 2012 IECC)
• ENERGY STAR• LEED RESIDENTIAL, BUILDING AMERICA ICC 700, Build it Green
ICC 700 National Green Building Standard
New Housing Energy Continuum
Conventional homesComplies with existing energy codes with 100% reliance on utility supplied energy.High performance homesSaves 30 to 50% of utility energy costs over conventional homes using efficiencyand renewable energy technologies.Near-zero energy homesSaves 60 to 90% utility energy costsover conventional homes.Net-zero energy homesProduces as much energy as it uses, saving 100% utility energy costs.Zero-carbon homesProduces more energy than it uses and exporting at least 20% electricity to the grid.
Percentage of Projected Energy Savings
Courtesy of Anthony Floyd City of Scottsdale AZ
Conclusions
• National, State and Local governments are paying attention to energy codes.
• Increased federal funding toward energy codes.
• Governor assurance letters included energy code provision to have 90% compliance with the 2009 IECC by 2017
• Energy codes are a critical part of building design.
Thank You!Joe Speaker
XXX XXX
XXX Ave.,
XXX, KY
Building Codes Assistance Project
1850 M Street, Suite 600
Washington, D.C. 20036
www.bcap-ocean.org