HomeMy WebLinkAbout0095823-Building odk CITY OF OSHKOSH No 0095823
OSHKOSH BUILDING PERMIT APPLICATION AND RECORD
ON THE WATER
Job Address 1185 SAWTELL CT Owner KAREN L SCHUH/TAMI SCHMUDE Create Date 07/15/2002
Designer Contractor DOWLING CONSTRUCTION CO
Category 111 Single Family Addition Plan
Type Building 0 Sign 0 Canopy 0 Fence 0 Raze
Zoning Class of Const: Size
Unfinished /Basement 0 Sq. Ft. Rooms 0 Height 0 Ft. Projection
Finished /Living 0 Sq. Ft. Bedrooms 0 Stories Canopies 0
Garage 0 Sq. Ft. Baths 0 Signs 0
Foundation 0 Poured Concrete 0 Floating Slab 0 Pier 0 Other
Concrete Block 0 Post 0 Treated Wood
Occupancy Permit Flood Plain Height Permit
Park Dedication Dwelling Units 0 Structures 0
Use /Nature SFR/ Constructing a 16' x 24' addition which includes a new bedroom and bathroom.
of Work
HVAC Contractor GARTMAN MECHANICAL SERVICES Plumbing Contractor GARTMAN MECHANICAL
Electric Contractor ARROW ELECTRIC OF OSHKOSH
Fees: Valuation $30,000.00 Plan Approval $0.00 Permit Fee Paid $125.00 Park Dedication $0.00
Issued By: Date 07/15/2002 Final /O.P. 00 /00 /0000
Permit Voided
In the performance this work I agree t erform all work pursuant to rules governing the described construction.
Signature C c Date 7/ 15/0
Agent/Owner
Address PO BOX 3045 OSHKOSH WI 54903 3045 Telephone Number 235 -8021
ZONING/LAND USE COMPLIANCE CHECKLIST
JOB LOCATION: 1 ka). Saw�.z._\\ ZONING
PROPERTY OWNER/CONTRACTOR: c-J\ nj
CONSTRUCTION DATA: New Construction Addition Alteration
TYPE OF CONSTRUCTION: (i.e. fence, pool, parking lot, sign, etc,) 1 G, Seri t g,l!A
COMPLIANCE CHECKLIST RFcc,u) ecc
DEFICIENT Gr umo, r K 4%44,4-- COMMENTS
Use
Lot Width
Lot Area
Lot Area Per Family
Floodptain
Front Yard
Front Yard Side Street
Rear Yard
Side Yards
Building Area
Parking Standards
Off Street Loading Standards
Vision Clearance
Transitional Yard Standards
Landscape Standards
Height
Conditions of Approval
Compliance with P.C. or
BZA Conditions of Approval
Signage Standards
Drainage Plan
REVIEW AUTHORITY
As per Section 30 -5 Enforcement of the City Zoning Ordinance, the Director of Community Development,
designee, must approval all plans, except the following: (1) Alterations or interior work when the use is
conforming and when no change in use is proposed. (2) Maintenance items, e.g. siding, windows, etc.,
when the use is conforming and when no change is proposed.
APPROVED DENIED
Plan Commission Action Required
Variance(s) Required
REVIEWED BY: DATE: 7 /—`—UZ
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REC- C k� C Page 1
Wisconsin Uniform Dwelling Code
Energy Worksheet
Instructions: This worksheet is a Safety Buildings Division (S &BD)- approved method of manually showing
compliance with the energy conservation and heating equipment sizing requirements of the Uniform Dwelling Code
(UDC), for new dwelling permits submitted on or after May 1, 1999. It may be necessary for the user to purchase a
copy of the UDC from State Document Sales, (608)266 -3358. Additional information is printed in the UDC
Commentary, which is available for a fee, as are blank copies of this form, from S &BD at POB 2509, Madison, WI
53701, Tel. 608 267 -4405. Earlier editions of this worksheet may NOT be used. Numbers in brackets, [1], refer to
the footnotes printed on page 2.
You may also submit completed worksheets from the computer program WlScheck, which is available for free
downloading from http: /www.energycodes.org/ on the Internet.
A required U value is the maximum acceptable heat transmittance for an element. A required insulation R value is
the minimum acceptable level of resistance to heat transmittance. (U- values and R- values are reciprocals of each
other.) If a component includes two or more areas of different insulation levels, either use the less insulating value for
both areas, or use the Optional Weighted Average table in the Prescriptive Package Method section or enter separate
areas and insulation values in the System Design Method. All "U" values must be.carried to four places after the
decimal point, rounded to three places. Other values may be rounded to the whole number.
Window and door U values must be tested and documented by the manufacturer in accordance with the National
Fenestration Rating Council (NFRC) test procedures or be taken from the glazing U -value table in s. Comm 22.05.
Center -of -glass U- values cannot be used. If a door contains glass, and an aggregate U -value rating for that door is not
available, then include the glass area of the door with your windows and use the opaque door U -value to determine
compliance of the door.
A slab on grade is a earth supported floor slab that is above, or less than 12" below, adjacent grade.
High efficiency heating equipment is given a credit by the code. "High- Efficiency" means a furnace or boiler with an
AFUE of 90% or more, or a heat pump with an HSPF of 7.8 or more without the use of electric resistance backup heat
of greater than 3 kilowatts. If you plan to install more than one piece of heating equipment, the equipment with the
lowest efficiency must meet or exceed the efficiency required by the selected package.
Choice of Method: You have the choice of using the Prescriptive Package Method or the System Design Method to
show code compliance. For the simpler Prescriptive Package Method which is recommended for standard designs,
complete Sections A., B., F., and G. Instructions are on page 2. You will be first calculating component areas, then
comparing your planned insulation levels to the required insulation levels of the Prescriptive Packages. You will then
calculate infiltration and ventilation heat losses to size your heating equipment. If you cannot comply with one of the
prescriptive packages, you may be able to show compliance by the System Design Method.
For the System Design Method, which is recommended for alternative designs in which more insulation is installed in
one component to offset less in another, complete Sections A., C., D., E., F. and G. You will be first calculating
component areas, then a code allowed heat loss factor, then component U- and R- values and then your calculated heat
loss factor which you will compare to the code allowed heat loss factor. You will then calculate infiltration and
ventilation heat losses to size your heating equipment.
The County Zone Table below is use for determining the temperature difference for sizing your heating plant in
Section G. You may submit to your local code official more exact calculations to size your heating equipment.
Zone 1 95 degrees Zone 2 90 degrees Zone 3 85 degrees Zone 4 80 degrees
Ashland, Barron, Bayfield, Adams, Buffalo, Clark, Eau Claire, Brown, Calumet, Columbia, Crawford, Jefferson, Kenosha,
Burnett, Chippewa, Douglas, Jackson, Juneau, LaCrosse, Langlade, Dane, Dodge, Door, Fond du Lac, Milwaukee, Ozaukee,
Dunn, Florence, Forest, Iron, Marathon, Marinette, Menominee, Grant, Green, Green Lake, Iowa, Racine, Rock,
Lincoln, Oneida, Pierce, Polk, Monroe, Portage, Shawano, Oconto, Kewaunee, LaFayette, Manitowoc, Walworth,
Price, Rusk, Saint Croix, Pepin, Trempeleau, Vernon, Marquette, Outagamie, Richland, Sauk, Washington,
Sawyer, Taylor, Vilas, Washburn Waupaca, Wood Sheboygan, Waushara, Winnebago Waukesha
SBD -5518 (R. 5/00)
Page 2
r
Detailed Instructions for Section B. Prescriptive Package Method:
R value requirements are for insulation only and do not include structural components.
For a component with two or more areas of different insulation levels, either use the least insulating value for both
areas or use the Weighted Average tables on page 4.
Wall R values represent the sum of the wall cavity insulation plus insulating sheathing, if used. Do not include
exterior siding, structural sheathing or interior drywall. For example, an R -20 requirement could be met EITHER by
R -15 cavity insulation plus R -5 sheathing OR R -13 cavity insulation plus R -7 sheathing. Note that there are separate
tables for walls with structural sheathing only and for walls with insulating sheathing. To use a table for insulating
sheathing, the sheathing used must be at least R -4, except that at least R -2 insulation may be provided over corner
bracing. Table wall R- Values apply to wood -frame or mass (concrete, masonry, log) wall assemblies, but not to metal
frame construction. If metal frame is planned, use the adjusted R- Values from the Metal -Frame Wall Tables of the
UDC Appendix. Table wall values apply to boxsills.
Ceiling R values represent the sum of the cavity insulation plus insulating sheathing, if used. For ventilated ceilings,
any insulating sheathing must be placed between the conditioned space and the ventilated portion of the roof. Ceiling
R- values with "RT" indicates that a raised -heel truss or oversized truss construction must be used so that the insulation
achieves the full insulation thickness over the exterior walls.
"Floor" requirements apply to floors over unconditioned spaces (such as un- insulated crawlspaces, basements and
garages). Other floors that are over outside air shall have a Uoverall 0.033 or R -30 added insulation.
"Heated Slab" requirements apply to slabs that contain heat ducts or pipes. All slab insulation must extend at least 48
inches either 1) down from the top of the slab, or 2) down from the top of the slab to the bottom of the slab and then
horizontally underneath the slab, or 3) down from the top of the slab to the bottom of the slab and then horizontally
away from the slab, with pavement or at least 10 inches of soil covering the horizontal insulation.
Walls of basements below un- insulated floors must be insulated from the top of the basement wall to the level of the
basement floor. Conditioned basement windows and glass doors must be included with the other glazing. Exterior
basement doors must meet the door U -value requirements. If more than 50% of the basement is exposed, then all of the
basement walls must instead meet the above foundation wall requirements.
Crawl space wall R value requirements are for walls of unventilated crawlspaces. The crawlspace wall insulation
must extend from the top of the wall (including the sill plate) to at least 12 inches below the outside finished grade. If
the distance from the outside finished grade to the top of the footing is less than 12 inches, the insulation must extend
vertically downward plus horizontally for a total distance of 24 inches from the outside finished grade.
Footnotes for worksheet:
[1] Opaque wall area is wall area minus opening areas of doors and windows.
[2] These below -grade U- values have the insulating value of the soil added to the code required U- values which apply to the building materials
only. See Sect. D.2. for typical insulated component U- values.
[3] These slab -on -grade F- values are derived from the code required U- values and include the heat loss through the edge and body of the slab.
See Sect. D.2.
[4] For building additions, show that the existing heating equipment, if used to heat the addition, is large enough. To do so, you must calculate
the heat loss of the whole building.
[5] If desired manufacturer does not have a furnace of this size, then a designer may select the manufacturer's next larger size.
Page 3
Submit completed worksheet pages 3 6 with dwelling plans to local enforcing municipality.
Project Address:
Builder: tvw\∎ Cto Owner: Sc 1,w.vcSrt.
Worksheet Completed By: C7MS) I nc. Date: 7-10-09,
Does dwelling unit have three kilowatts or more input capacity of permanently installed electrical space heating equipment?
YES (see below) 0'NO
You will need to apply the stricter standards shown for electrically- heated homes if you answered "YES" to the above question.
A. Area Calculations Enter appropriate dimensions to obtain area values. Some calculations will not be necessary depending on
home design or calculation method. These calculated areas are referenced elsewhere on this worksheet, for example, "(A.1.)
1. Window, Skylight Patio Door Area (overall unit area) 2. Opaque Door Area
a. In Above Foundation Walls b. In Foundation Walls a. In Above- Foundation Walls b. In Foundation Walls
V sq. ft. sq. ft. sq. ft. sq. ft.
c. Total (a. b.) c. Total (a. b.)
3. Gross Exposed Basement Wall Area 4. Basement Wall Area Below Grade
sq. ft. sq. ft.
5. Opaque [1] Basement Wall Area (A.3. A.4. A.1.b.- 6. Gross Heated Above Foundation Wall Area, including boxsill
A.2.b.)
sq. ft.
If the exposed area of A.3.is greater than the below grade area of sq. ft.
A.4., add A.S. to A.7 and cross out the number in this cell.
7. Above Foundation Code Wall Area (A.6. Al.b. A.2.b.) 8. Opaque [1] Above Foundation Wall Area (A.6. A1.a. A.2.a.)
sq. ft. f/02 sq. ft.
9. Floor Area Over Interior Unconditioned Spaces Less Than 10. Insulated Roof Or Ceiling (less skylights)
50
sq. ft. sq. ft.
11. Floor Over Outside Air (Overhangs) 12. Crawl Space Wall Area
sq. ft. sq. ft.
13. Slab On Grade (above or less than 12 inches below grade) 14. Total Heated Envelope Area (A.5 A.7 A.9 A.10 +A.11
A.12 +(A.13. x 2'))
61 lineal feet of slab perimeter /d c2 sq. ft.
15. Percent Glazing (for Prescriptive Package Method, 16. Windows Description Above Foundation Windows:
Section B, only) (A.1.c. A.7. x 100 Frame type: Wood or Wood Clad Vinyl Metal
Glazing type: Triple Dual w /storm panel
Dual Glazing Air Space: 1/4' 3/8" 151/2" or more
Features: OLow -E Argon-filled Suspended film
Foundation Windows: Vinyl Metal
SBD -5518 (R. 5/00)
Page 4
B. Prescriptive Package Method (Skip this section if using the System Design Method of Sections C -F)
The prescriptive package method is the simplest method for determining compliance with the UDC insulation and window
requirements. To use the prescriptive package method, enter your actual design values in the "Actual row below. For a component,
with two or more areas of different insulation levels, such as windows, either use the least insulating value for both areas or use the
Weighted Average tables below. Multiply your glazing by the glazing U -value to obtain your "Glazing Factor Find the
Prescriptive Table that applies to your space heating fuel and sheathing type. Select a package from the table that most closely
matches the construction indicated on your plans. Do not exceed the package U- values or glazing factor or fall below the package
R- values with your design. Transfer the R- Values and U- values to the blank table below in the "Allowed" row. Then proceed to
Section F. See page 2 for detailed instructions for this section.
Package glazing U glazing Glazing Factor R wall R ceiling R Bsmt, Crawl U door U Equip.
glazing x U Space, Slab or overall Eff.
glazing) Floor
Actual //,'%(A.15) 3 S .D., j'K /11,s -/lr
Allowed v Max Min Pie Min Min Max .42] Aio rim,/
(Please go to Section F.)
Optional R- Value/U -Value Weighted Av a e Table for Component:
Component Construction Descripti R Value U -Value Area U -Value x Area
(1 =R Value) (sq ft) (UA)
Total Area Total UA
(Total UA) (Total Area) (Weighted Average U -Value (for windows or doors))
(Total Area) (Total A) (Weighted Average R -Value (for all other components))
Optional R- Value/U -Value We' ted Avera e Table for Component:
Component Constructio escription R Value U -Value Area U -Value x Area
(1 =R Value) (sq ft) (UA)
Total Area Total UA
(Total UA) (Total Area) (Weighted Average U -Value (for windows or doors))
(Total Area) (Total UA) (Weighted Average R -Value (for all other components))
C. Code Allowed Heat Loss For System Design Method
Enter area values from Section A as notated and temperature differences per footnote 2 into this table and then multiply across by he
electric or non electric code required U- value. Total the right column to find the total allowed heat loss factor.
Area Heat Loss
Component From Sect A. x Required U -Value UA
NON -ELEC ELECTRIC
1. Opaque Basement Wall [2] (A.5.) 0.077 0.077
2. Above Foundation Code Wall (A.7.) 0.110 0.080
3. Floor Over Interior Unconditioned Space (A.9.) 0.050 0.050
4. Roof or Ceiling (A.10.) 0.026 0.020
5. Floor Over Exterior (A.11.) 0.033 0.033
6. Crawl Space Wall (A.12.) 0.060 0.060
7. Slab On Grade[3] Unheated 0.72 `F' 0.68 `F'
Heated (A.13.) Lin. ft. 0.70 `F' 0.68' F'
8. Subtotal
9. Credit for High Efficiency Heating Plant: 1.18 for furnace or boiler >90% AFUE; 1.15 for heat pump 7.8 HPSF, x
Otherwise use 1.0
10. Total Code Allowed Heat Loss Factor
Page 5
D. System Design Method Actual `U' Values Of Your Home's Components
D.1. Above Foundation Components If applicable, check the appropriate typical component constructions listed below, and use
the pre- calculated U values. If your wall construction is not listed, you may obtain a pre calculated U value from the default U -Value
tables in the UDC Appendix. (Note that the default Table 2 Wood Frame U- values assume no insulating sheathing which penalizes
you if your wall does have insulating sheathing, then you may need to use the Manual Calculation section below.) If you are using
exterior metal framing, then you must use the Metal -Frame Wall U -Values of the UDC Appendix. If your component construction is
not listed here or in the default tables, you need to use the Manual Calculation section below to manually enter R -values for the
different layers of building materials from the Typical Thermal Properties of Building Materials Table of the UDC Appendix,
ASHRAE Fundamentals Manual or manufacturer's specifications. Total them across and then obtain the U -value by taking the
reciprocal (l/R) of the total R -value.
Above Foundation Walls 2X4, 16" O.C., R -13 batt, R -1 board: U .079 2X4, 16" O.C., R -13 batt, R -5 board: U .061
2X6, 16" O.C., R -19 batt, R -1 board: U .059 2X6. 16" O.C., R -19 batt, R -5 board: U .049
Other describe: U from Default Table
Roof or Ceiling 2X4 truss, 24" O.C., with R -38 insulation: U .030 2X4 truss, 24" O.C., with R -52 insulation: U .025
2X12 cathedral ceiling, 16" O.C., with R -38 insulation U .027
Other describe: U from Default Table
Floor Over Outside Air or Unconditioned Space 2X10 joists, 16" O.C., R batt: U .047
Other describe: U from Default Table
Manual U -Value Calculation (if assembly not listed above)
Cavity Or Ext. Ext. Insulation Shea- Framing Insulation Inter- Int. Total U -Valu
Component Solid If Air Finish Over thing Or Solid Within for Air R- (!/R
Name Applicable Film* Framing Cavity Finish Film* Value
Cavity
Solid
Cavity
Solid
Air Film R- Values
Location Heat Flow Direction
Upwards Horizontal Downwards
Exterior .17 .17 .17
Interior .61 .68 .92
D.2. Foundation And Slab On Grade Components Check appropriate boxes for planned type of construction to determine pre
calculated overall `U- value' including air films, wall, insulation, soil and cavity /solid differences. Slab on grade F- values are per
lineal foot of slab perimeter.
Component Type U -Value
Foundation Wall Basement Crawl Space
Masonry or concrete wall without insulation 0.360 0.477
Masonry or concrete wall with R -5 insulation board for full height 0.115 0.136
Masonry or concrete wall with R -10 insulation board or R -11 insulation batt and 2X4's for full height 0.072 0.081
Permanent wood foundation with R -19 batt for full height 0.054 0.059
Basement or crawl space floor without insulation 0.025 0.025
Slab On Grade (or within 12" of grade) F Value
Slab -on -grade without insulation 1.04
Slab -on -grade with R -5 insulation for 48" total horizontal and vertical application 0.74
Slab -on -grade with R -10 insulation board for 48" total application 0.68
D.3. Windows And Doors Use manufacturer's specifications for window and glazed door values, if they were determined per
NFRC Std 100, to enter into Table E. Otherwise see default tables of UDC s. Comm 22.05 for U- values.
SBD -5518 (R. 5/00)
Page 6 I
E. System Design Method Calculated Envelope Heat Loss Factor Of Your Home
Enter values into table from elsewhere on this worksheet and multiply across to find the actual heat loss factor of each component. If
using pre calculated component U- values, do not calculate separate cavity and solid figures or apply wood frame factors. Total
component heat loss factors in right column to find total envelope heat loss factors.
Cavity Or Area x x
Component Solid If From Wood Frame Actual `U' Value From Heat Loss Fac r
Applicable Sect. A Factor Sect. D (UA)
Above- Foundation Windows (A.1.a.)
Foundation Windows (A.1.b)
Doors (A.2.c)
Opaque Basement Wall (A.5.)
Opaque Above Foundation Wall Cavity
Solid (A.8.)
Floor Over Unconditioned Spaces Cavity
Solid (A.9.)
Roof or Ceiling Cavity
Solid (A.10.)
Floor Over Outside Air Cavity
Solid (A.11.)
Crawl Space Wall (A.12.)
Slab On Grade (A.13.)Lin. ft. F -Value
Total Calculated Envelope Heat Loss Factor- Not to exceed Total Code Allowed Heat Loss
Factor of line 10 of Section C. (Enter here: )by more than 1%
Adjustment Factors For Wood Framed Components Do not apply if your are using a pre calculated or default U- Value.
Spacing Of Framing Stud Walls Joists/R afters
Members Cavity Solid Cavity Solid
12" .70 .30 .86 .14
16" .75 .25 .90 .10
24" .78 .22 .93 .07
F. Heat Loss Factor Due to Air Infiltration (for heating equipment sizing)
Enter appropriate values. A maximum infiltration air change rate of 0.5 per hour is allowed in addition to exhaust fan ventilation
losses.
x Fan x x
Floor Area Height Capacity Constant Air Changes Heat Loss
Level (sq ft) (ft) (cfm) Per Hour Factor(UA)
Basement .018
Level 1 ?eW 7 .018 0 I.f „P`' r
Level 2 .018
Level 3 .018
Exhaust Fan Ventilation (..C .432 6
Total Infiltration Ventilation Heat Loss Factor j) 7
G. Heating Equipment Sizing
Enter appropriate value to determine the maximum and minimum allowable heating equipment capacity in BTUs/HR. A more
detailed calculation may be submitted to the local code official. [4]
Prescriptive
Package AD 3 x /D le a D O
Method: U overall from selected Prescriptive Total Envelope Area /42.
Package of Section B (A.14.)
OR System Design Method: Calculated Heat Loss Factor from Sect. E.
Infiltration Ventilation Heat Loss Factor (from Sect. F.) 50, f
Total Heat Loss Factor (UA) ■7
Temperature Difference from County Zone Table on page 1 x
Minimum Heating Equipment Output /7 5/
Allowable Heating Equipment Size Margin Multiplier x 1.15
Maximum Allowable Heating Equipment Output [5] fp
Planned Furnace Output Or Boiler IBR Rating
Make Model if High Efficiency Credit has been taken:
c •ml' r. f.`4 f X /51,-.' .4' r e.
T
Page 7
Prescriptive Package Tables (Corrected)
(See notes on page 2 of Energy Worksheet; I insulating sheathing, RT raised heel roof truss)
Table 8-1 Prescriptive packages, Non electric Heat, Structural Sheathing only
Package Glazing Factor R wall R ceiling R basement U door U overall HVAC Equipment Efficiency
1 0.0370 R21 R42 R7 0.35 0.073 Normal
2 0.0264 R21 R51, RT R5 0.35 0.073 Normal
3 0.0333 R15 R42 R10 0.35 0.073 Normal
4 0.0440 R19 R33 R10 0.35 0.073 Normal
5 0.0330 R13 R42 Rll 0.35 0.073 Normal
6 0.0480 R19 R33 RI1 0.35 0.073 Normal
7 0.0600 R21 R47 R11 0.35 0.073 Normal
8 0.0407 R13 R44 R13 0.35 0.073 Normal
9 0.0600 R19 R42 R13 0.35 0.073 Normal
10 0.0680 R21 R38, RT R13 0.35 0.073 Normal
11 0.0296 R13 R49 R5 0.35 0.086 High 1
12 0.0440 R19 R30 R5 0.35 0.086 High ii
13 0.0520 R21 R33 R5 0.35 0.086 High
14 0.0720 R13 R47 R10 0.35 0.086 High
15 0.0784 R19 R38 R10 0.47 0.086 High
16 0.0640 R13 R33 R11 0.47 0.086 High
17 0.0896 R19 R49 R11 0.35 0.086 High
18 0.0896 R21 R34 R11 0.35 0.086 High
19 0.0920 R19 R.34 R11 0.47 0.086 High
20 0.0840 R13 R49 R13 0.35 0.086 High
21 0.0840 R19 R30 R13 0.47 0.086 High
22 0.0896 R21 R31 R13 0.47 0.086 High
Package Glazing Factor R wall R ceiling R crawl U door U overall HVAC Equipment Efficiency
23 0.0520 R19 R34 R19 0.47 0.070 Normal
24 0.0672 R13 R36 R19 0.47 0.083 High
25 0.0720 RI3 R33 R19 0.47 0.083 High
Package Glazing Factor R wall R ceiling R slab U door U overall HVAC Equipment Efficiency
26 0.0560 R21 R36 R5 0.47 0.103 Normal
27 0.0728 R13 R36 R5 0.47 0.121 High
28 0.0760 R13 R34 R5 0.47 0.121 High
Package Glazing Factor R wall R ceiling R heated -slab U door U overall HVAC Equipment Efficiency
29 0.0560 R21 R47 R5 0.47 0.101 Normal
30 0.0728 R13 R42 R5 0.47 0.120 High
31 0.0760 R13 R38 R5 0.47 0.120 High
Package Glazing Factor R wall R ceiling R floor U door U overall HVAC Equipment Efficiency
32 0.0480 R19 R47 R19 0.35 0.065 Normal
33 0.0728 R19 R36 R19 0.47 0.077 High
34 0.0560 R13 R34 R19 0.47 0.077 High
Table B-2 Prescriptive packages, Non electric Heat, Insulating Sheathing
Package Glazing Factor R wall R ceiling R basement U door U overall HVAC Equipment Efficiency
35 0.0370 R20, I R42 R7 0.35 0.073 Normal
36 0.0363 R28, I R38, RT R5 0.35 0.073 Normal
37 0.0552 R18, I R44 R10 0.35 0.073 Normal
38 0.0560 R20, I R47 R10 0.35 0.073 Normal
39 0.0560 R23, I R34 R10 0.35 0.073 Normal
40 0.0560 R18, I R47 RI I 0.35 0.073 Normal
41 0.0616 R23, I R42 R11 0.35 0.073 Normal
42 0.0546 R18, I R44 RI l 0.35 0.073 Normal
43 0.0672 R23, I R40 R13 0.35 0.073 Normal
44 0.0720 R25, I R36 R13 0.35 0.073 Normal
45 0.0504 R18, I R40 R5 0.35 0.086 High
46 0.0560 R19, I R47 R5 0.35 0.086 High
47 0.0560 R23, I R38 R5 0.47 0.086 High
48 0.0600 R25, I R38 R5 0.47 0.086 High
49 0.0680 R26, I R42 R5 0.35 0.086 High
50 0.0680 R28, I R47 R5 0.47 0.086 High
51 0.0672 R26, I R47 R5 0.35 0.086 High
52 0.0672 R28, I R38 R5 0.35 0.086 High
53 0.0720 R20, I R42 R7 0.47 0.086 High
54 0.0855 R18, I R36 RI l 0.35 0.086 High
SBD -5518 (R. 5/00)
Page 8
55 0.0896 R23, I R33 Rl l 0.47 0.086 High
56 0.0861 R18, I R36 R13 0.47 0.086 High
57 0.1000 R23, I R33 R13 0.47 0.086 High
Package Glazing Factor R wall R ceiling R crawl U door U overall HVAC Equipment Efficiency.
58 0.0546 R18, I R38 R19 0.47 0.070 Normal
59 0.0784 R15, I R30 R19 0.47 0.083 High
60 0.0880 R15, I R38 R19 0.47 0.083 High
Package Glazing Factor R wall R ceiling R slab U door U overall HVAC Equipment Efficiency
61 0.0640 R23, I R36 R5 0.47 0.103 Normal
62 0.0896 R15, I R36 R5 0.47 0.121 High
63 0.0960 R15, I R38 R5 0.47 0.121 High
Package Glazing Factor R wall R ceiling R heated -slab U door U overall HVAC Equipment Efficiency
64 0.0640 R23, I R34 R5 0.47 0.101 Normal
65 0.0840 R15, I R31 R5 0.47 0.121 High
66 0.0920 R15, I R33 R5 0.47 0.121 High
Package Glazing Factor R wall R ceiling R floor U door U overall HVAC Equipment Efficiency
67 0.0480 R20, I R44 R19 0.35 0.065 Normal
68 0.0728 R20, I 1236 R19 0.47 0.077 High
69 0.0560 R14, I R38 R19 0.47 0.078 High
Table B-3 Prescriptive packages, Electric Heat, Structural Sheathing Only
Package Glazing Factor R wall R ceiling R basement U door U overall HVAC Equipment Efficiency
E 70 0.0396 R21 1237, RT R19 0.35 0.059 Normal
E 71 0.0429 R21 R42, RT R19 0.35 0.059 Normal
E 72 0.0520 R21 R49 R13 0.35 0.068 High
E 73 0.0640 R19 R42, RT R19 0.35 0.068 High
E 74 0.0693 R21 R49, RT R19 0.47 0.068 High
Package Glazing Factor R wall R ceiling R crawl U door U overall HVAC Equipment Efficiency
E 75 0.0429 R21 R54, RT R30 0.35 0.054 Normal
E 76 0.0480 R21 R45, RT R19 0.35 0.062 High
E 77 0.0627 R21 R54, RT R30 0.47 0.062 High
Package Glazing Factor R wall R ceiling R slab U door U overall HVAC Equipment Efficiency
E 78 0.0396 R26 R51, RT R10 0.35 0.083 Normal
E 79 0.0480 R21 R49 R7 0.35 0.095 High
E 80 0.0528 R21 R49, RT R5 0.35 0.095 High
Package Glazing Factor R wall R ceiling R floor U door U overall HVAC Equipment Efficiency
E 81 0.0363 R21 R54, RT R30 0.35 0.052 Normal
E 82 0.0520 R21 R49 R30 0.35 0.060 High
E 83 0.0528 R21 R44, RT R30 0.47 0.060 High
Table B-4 Prescriptive packages, Electric Heat, Insulating Sheathing
Package Glazing Factor R wall R ceiling R basement U door U overall HVAC Equipment Efficiency
E 84 0.0480 R25, I R48, RT R16 0.35 0.059 Normal
E 85 0.0495 R25, I R48, RT R16 0.35 0.059 Normal
E 86 0.0462 R28, I R40 R16 0.35 0.059 Normal
E 87 0.0429 R25, I R36 R18 0.35 0.059 Normal
E 88 0.0528 R23, I R58, RT R18 0.35 0.059 Normal
E 89 0.0462 R25, I R42 R18 0.35 0.059 Normal
E 90 0.0560 R25, I R46, RT R10 0.35 0.068 High
E 91 0.0640 R23, I R48, RT R13 0.35 0.068 High
E 92 0.0600 R25, I R42 R13 0.35 0.068 High
E 93 0.0600 R23, I R37 R18 0.47 0.068 High
E 94 0.0759 R25, I R46, RT R18 0.47 0.068 High
Package Glazing Factor R wall R ceiling R crawl U door U overall HVAC Equipment Efficiency
E 95 0.0429 R25, I R48, RT R23 0.35 0.054 Normal
E 96 0.0520 R23, I R38 R23 0.35 0.062 High
E 97 0.0561 R25, I R44 R23 0.47 0.062 High
Package Glazing Factor R wall R ceiling R slab U door U overall HVAC Equipment Efficiency
E 98 0.0396 R25, I R48, RT R10 0.35 0.083 Normal
E 99 0.0560 R23, I R44 R7 0.35 0.095 High
E 100 0.0594 R25, I R46, RT R5 0.47 0.095 High
Package Glazing Factor R wall R ceiling R floor U door U overall HVAC Equipment Efficiency
E 101 0.0429 R25, I R46, RT R30 0.35 0.052 Normal
E 102 0.0560 R23, I R44 R30 0.35 0.060 High
E 103 0.0627 R25, I R44, RT R30 0.47 0.060 High