06-3155 (SFD) Title 24TITLE 24
Energy Conservation
Standards Compliance Report
Calculations Based On 2005 Standards
CUSTOM RESIDENCE
LOT 16 - THE ESTANCIAS
79-315 BROOKVILLE
LA QUINTA
May 22, 2006 - Madlin's Job Number
Prepared For:
WALLING & McCALLUM LT:
45190 CLUB DRIVE
INDIAN WELLS, CA 92210
TELEPHONE (760) 360-0250
Madlin'9 s
enterprises
vvvvvvv
2�9� � & QUI
�P�R®�TY DEPT.
LU
CTTIO
AAT I Z-
Catherine M. Madlin, Certified Energy Analyst
Post Office Box 1443 -w Palm Springs, CA 92263
Phone 760-322-5004 / 760-323-3644 Fax
E-mail: Cmadlin@aol.com
Madlin's
enterprises
Catherine M. Madlin, Certified Energy Analyst - 760-322-5004 / 323-3644 Fax v . - ... -
Title 24 Energy Conservation Standards
Compliance Report
This proposed project has been reviewed for compliance with the 2005 State of
California Energy Conservation Standards, Title 24, by Madliri s Enterprises. The
building design described in this compliance report is in conformance with the
standards as outlined in the attached compliance forms and documentation.
.- Date: May 22, 2006
Job Number: 26290A
Designer's Name: WALLING & McCALLUM LTD.
Project Name: CUSTOM RESIDENCE — LOT 16 — THE ESTANCIAS
Project Location: 79-315 BROOKVILLE - THE ESTANCIAS, LA QUINTA
Method of Compliance: MICROPAS V7.1 CERTIFIED COMPUTER PROGRAM
Certified Energy Analyst
Catherine M. Madiin
r rr NR05-90-721
r
C A B E C R05-90-630
California Association of Building Energy Consultants
Post Office Box 1443 w Palm Springs, CA 92263
i
Ma d1in's
enterprises
Catherine M. Madlin, Certified Energy Analyst - 760-322-5004 / 323-3644 Fax ..... - -
ESCRIPTION OF BUILDING COMPONENT
MINIMUM COMPLIANCE REQUIREMENTS
Job Name
CUSTOM RES. — LOT 16 THE ESTANCIAS
Job Number / File Number / Compliance Method
26290A / Micro as V7.1 Computer Simulation
Total Conditioned Square Footage
5588 S .Ft. Main House & Guest House
Total Glazing % Floor/Glass Area Ratio
40.7%
Insulation: Roof / Ceiling
R-38 Batts
Roof Radiant Barrier
Required at Roof — Installed Per Mfg Secs
Insulation: Walls
R-21 Batts — 2x6 Wood Studs
Insulation: Floor - Slab on Grade
Not Required
Insulation: H.VA.C. Ducts] Location
R-4.2 / Attic (CEC Default Value
H.V.A.C. Duct Testing
Duct Testing Required — All Zones
Glazing: Exterior Shading
Overhangs as Shown on Plans
Thermal Mass Square Footage & %
2266 S .Ft. Floor Mass
H.V.A.C. System Type
Gas Heat / Electric Cooling — Multiple Systems
HVAC System Efficiency (heating/cooling)
80% AFUE
13.0 SEER / 12.0 EER w/ TX Valve
Zonal Control Credit Taken
Domestic Hot Water Heater
2 100 Gallon Gas + 1 50 Gallon Gas or Less
Energy Factor / Eff / Standby Loss
100 Gallon: 0.80 RE or Better / 50 Gal: 0.62 EF
R-12 Blanket on Tank
Yes — Required On 2 100 Gallon Units
Recirculating Pump for DHW —100 Gallon Units
Yes with Time and Temperature Controls
Third Party Certified Inspections for T24
Required for EER, TXV & Duct Testing
Other Requirements 1
Applicable Mandatory Measures
Fenestration Type
U Factor
maximum
SHGC
maximum
Tested Value
Fixed or Operable
0.40
0.352
Yes — NFRC
Patio Doors
0.61
0.374
Yes — NFRC
French Doors
0.61
0.380
Yes — NFRC
Special — Entry
1.25 Pane
Sin
Clear
No — CEC Default
Glass Block
0.71
0.75
No —CEC Default
Typical specifications: Dual Pane, Low E Coating, Aluminum Frame, Fleetwood or Equal Product
madlin-,s.
enterprises
Catherine M. Madlin, Certified Energy Aiwlyst . 760-322-5004 / 323-3644 (fax) .......
-Title 24 Compliance Forms
LW
CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD
Project Title..........
Project Address........
Documentation Author...
Climate Zone.. .....
Compliance Method......
CF -1R Page 1
WALLING.LT.I6MAIN.ESTANCIA Date..05/16/06 14:05:03
LOT 16 THE ESTANCIAS *******
LA QUINTA *v7.10*
CATHERINE M. MADLIN *******
Madlin's Enterprises
P.O. Box 1443
Palm Springs, CA 92262
760-322-5004
15
Building Permit
P an C ec Date
Field Check/ Date
MICROPAS7 v7.10 for 2005 Standards by Enercomp, Inc.
MICROPAS7 v7.10 File-26290A2C Wth-CTZ15S05 Program -FORM CF -1R
User#-MP0207 User-Madlin's Enterprises Run -COMBO MAIN + GUEST
MICROPAS7 ENERGY USE SUMMARY
Energy Use Standard Proposed Compliance
(kTDV/sf-yr) Design Design Margin
Space Heating.......... 2.91 3.26 -0.35
Space Cooling.......... 76.76 73.58 3.18
Water Heating.......... 4.60 5.97 -1.37
Total 84.27 82.81 1.46
*** Building complies with Computer Performance ***
*** HERS Verification Required for Compliance ***
GENERAL INFORMATION
HERS Verification..........
Conditioned Floor Area.....
Building Type ..............
Construction Type .........
Fuel Type ....... .... ...
Building Front Orientation.
Number of Dwelling Units...
Number of Building Stories.
Weather Data Type..........
Floor Construction Type....
Number of Building Zones...
Conditioned Volume.........
Slab -On -Grade Area.........
Glazing Percentage.........
Average Glazing U -factor...
Average Glazing SHGC.......
Average Ceiling Height.....
Required
5588 sf
Single Family Detached
New
NaturalGas
Front Facing 15 deg (N)
1_
1
FullYear
Slab On Grade
4
69621 cf
5588 sf
40.7 % of floor area
0.54 Btu/hr-sf-F
0.4
12.5 ft
.CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF -1R Page 2
Project Title.......... WALLING.LTI6MAIN.ESTANCIA Date..05/16/06 14:05:03
MICROPAS7 v7.10 File-26290A2C Wth-CTZ15S05 Program -FORM CF -1R
User#-MP0207 User-Madlin's Enterprises Run -COMBO MAIN + GUEST
BUILDING ZONE INFORMATION
Floor
#
of
# of
Cond-
Thermo-
Vent Vent Verified
Area
Volume Dwell
Peop-
it-
stat
Height Area Leakage or
Zone Type
(sf)
(cf) Units
le
ioned
Type
(ft)
(sf) Housewrap
1.ZONE
Living
2833
39746
0.51
4.1
Yes
LivingSta
2.0 Standard No
2.ZONE
Sleeping
1420
16525
0.25
2.0
Yes
SleepingS
2.0 Standard No
3.ZONE
Sleeping
765
7650
0.14
1.1
Yes
SleepingS
2.0 Standard No
4.ZONE
Sleeping
570
5700
0.10
0.8
Yes
SleepingS
2.0 Standard No
OPAQUE
SURFACES
U-
Sheath-
Solar
Appendix
Frame
Area
fact-
Cavity ing
Act
Gains
IV Location/
-Surface
Type
(sf)
or
R-val R-val
Azm
Tilt
Reference Comments
1.ZONE
. 1 Wall
Wood
154
0.069
21
0
15
90
Yes
IV.9
A6
2 Wall
Wood
143
0.069
21
0
105
90
Yes
IV.9
A6
3 Wall
Wood
184
0.069
21
0
195
90
Yes
IV.9
A6
4 Wall
Wood
384
0.069
21
0
285
90
Yes
IV.9
A6
5 Wall
Wood
552
0.069
21
0
15
90
No
IV.9
A6
6 Wall
Wood
107
0.069
21
0
60
90
Yes
IV.9
A6
7 Wall
Wood
157
0.069
21
0
150
90
Yes
IV.9
A6
8 Wall
Wood
153
0.069
21
0
240
90
Yes
IV.9
A6
9 Wall
Wood
91
0.069
21
0
330
90
Yes
IV.9
A6
34 Door
Other
24
0.500
0
0
15
90
No
IV.28
A4
35 RoofRad
Wood
2833
0.025
38
0
n/a
0
Yes
IV.1
A18
2.ZONE
10 Wall
Wood
265
0.069
21
0
15
90
Yes
IV.9
A6
11 Wall
Wood
183
0.069
21
0
105
90
Yes
IV.9
A6
12 Wall
Wood
138
0.069
21
0
195
90
Yes
IV.9
A6
13 Wall
Wood
40
0.069
21
0
285
90
Yes
IV.9
A6
14 Wall
Wood
110
0.069
21
0
15
90
No
IV.9
A6
15 Wall
Wood
246
0.069
21
0
60
90
Yes
IV.9
A6
16 Wall
Wood
196
0.069
21
0
150
90
Yes
IV.9
A6
17 Wall
Wood
52
0.069
21
0
240
90
Yes
IV.9
A6
18 Wall
Wood
35
0.069
21
0
330
90
Yes
IV.9
A6
36 RoofRad
Wood
1420
0.025
38
0
n/a
0
Yes
IV.1
A18
3.ZONE
19 Wall
Wood
139
0.069
21
0
15
90
Yes
IV.9
A6
20 Wall
Wood
162
0.069
21
0
105
90
Yes
IV.9
A6
21 Wall
Wood
56
0.069
21
0
195
90
Yes
IV.9
A6
22 Wall
Wood
141
0.069
21
0
255
90
Yes
IV.9
A6
-23 Wall
Wood
210
0.069
21
0
15
90
No
IV.9
A6
24 Wall
Wood
82
0.069
21
0
60
90
Yes
IV.9
A6
25 Wall
Wood
108'0.069
21
0
150
90
Yes
IV.9
A6
-26 Wall
Wood
80
0.069
21
0
330
90
Yes
IV.9
A6
37 RoofRad
Wood
765
0.025
38
0
n/a
0
Yes
IV.1
A18
4.ZONE
27 Wall
Wood
35
0.069
21
0
15
90
Yes
IV.9
A6
CERTIFICATE OF_COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF -1R Page 3
Project Title.......... WALLING.LTI6MAIN.ESTANCIA Date..05/16/06 14:05:03
MICROPAS7 v7.10 File-26290A2C Wth-CTZ15S05 Program -FORM CF -1R
User#-MP0207 User-Madlin's Enterprises Run -COMBO MAIN + GUEST
OPAQUE SURFACES
U- Sheath- Solar Appendix
Frame Area fact- Cavity ing Act Gains IV Location/
Surface Type (sf) or R-val R-val Azm Tilt Reference Comments
28 Wall Wood 6 0.069 21 0 105 90 Yes IV.9 A6
29 Wall Wood 80 0.069 21 0 15 90 No IV.9 A6
30 Wall Wood 174 0.069 21 0 60 90 Yes IV.9 A6
31 Wall Wood 129 0.069 21 0 150 90 Yes IV.9 A6
32 Wall Wood 320 0.069 21 0 230 90 Yes IV.9 A6
33 Wall Wood 143 0.069 21 0 15 90 Yes IV.9 A6
38 RoofRad Wood 570 0.025 38 0 n/a 0 Yes IV.1 A18
PERIMETER LOSSES
Appendix
Length F2 Insul Solar IV Location/
Surface (ft) Factor R-val Gains Reference Comments
1.ZONE
39 SlabEdge 113 0.730 R-0 No IV.26 Al
43 SlabEdge 97 0.730 R-0 No IV.26 Al
2.ZONE
40 SlabEdge 129 0.730 R-0 No IV.26 Al
44 SlabEdge 11 0.730 R-0 No IV.26 Al
3.ZONE
41 SlabEdge 104 0.730 R-0 No IV.26 Al
45 SlabEdge 21 0.730 R-0 No IV.26 Al
4.ZONE
42 SlabEdge 101 0.730 R-0 No IV.26 Al
46 SlabEdge 8 0.730 R-0 No IV.26 Al
FENESTRATION SURFACES
Area U- Act
Orientation (sf) factor SHGC Azm Tilt
1. ZONE
13
Wind
Left
14
Wind
Left
15
Wind
Back
16
Door
Back
17
Wind
Back
18
Wind
Back
19
Door
Back
20
Wind
Left
21
Wind
Back
•22
Wind
Back
23
Wind
Right
24
Door
Back
-25
Door
Left
26
Door
Back
27
Wind
Back
28
Wind
Back
Exterior
Shade
Type Location/Comments
(SE) 13.8 0.400 0.352 150 90 Standard W13/Metal Fixed Low E2
(SE) 60.5 0.400 0.352 150 90 Standard W14/Metal Fixed Low E2
(S) 33.8 0.400 0.352 195 90 Standard W15/Metal Fixed Low E2
(S) 148.5 0.610 0.374 195 90 Standard W16/Metal Patio Door Low
(SW) 38.5 0.400 0.352 240 90 Standard W17/Metal Fixed Low E2
(SW) 59'.4-0.400 0.352 240 90 Standard W18/Metal Fixed Low E2
(S) 129.3 0.610 0.374 195 90 Standard W19/Metal Patio Door Low
(SE) 21.8 0.400 0.352 150 90 Standard W20/Metal Fixed Low E2
(SW) 39.9 0.400 0.352 240 90 Standard W21/Metal Fixed Low E2
(SW) 39.9 0.400 0.352 240 90 Standard W22/Metal Fixed Low E2
(NW) 29.0 0.400 0.352 330 90 Standard W23/Metal Fixed Low E2
(SW.) 93.5 0.610 0.374 240 90 Standard W24/Metal Patio Door Low
(SE) 82.5 0.610 0.374 150 90 Standard W25/Metal Patio Door Low
(S) 72.5 0.610 0.374 195 90 Standard W26/Metal Patio Door Low
(SW) 80.0 0.400 0.352 240 90 Standard W27/Metal Fixed Low E2
(S) 42.5 0.400 0.352 195 90 Standard W28/Metal Fixed Low E2
CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF -1R Page 4
Project Title.......... WALLING.LTI6MAIN.ESTANCIA Date..05/16/06 14:05:03
MICROPAS7 v7.10 File-26290A2C Wth-CTZ15S05 Program -FORM CF -1R
User#-MP0207 User-Madlin's Enterprises Run -COMBO MAIN + GUEST
FENESTRATION SURFACES
Exterior
Area U- Act Shade
Orientation (sf) factor SHGC Azm Tilt Type Location/Comments
29 Door Back (S) 30.0 0.610 0.380 195 90 Standard W29/Metal Patio Door Low
30 Wind Right (W) 16.0 0.710 0.750 285 90 Standard W30/Glass Block
39 Wind Left (E) 44.6 0.400 0.352 105 90 Standard W39/Metal Fixed Low E2
40 Wind Front (NE) 13.0 0.400 0.352 60 90 Standard W40/Metal Fixed Low E2
41 Wind Front (NE) 27.6 0.400 0.352 60 90 Standard W41/Metal Fixed Low E2
42 Wind Front (N) 27.1 0.400 0.352 15 90 Standard W42/Metal Fixed Low E2
43 Door Front (N) 62.3 1.250 0.800 15 90 Standard W43/Entry Door
44 Wind Front (N) 21.3 0.400 0.352 15 90 Standard W44/Metal Fixed Low E2
45 Wind Front (N) 46.8 0.400 0.352 15 90 Standard W45/Metal Fixed Low E2
2.ZONE
1 Door Front (N) 21.4 0.610 0.380 15 90 Standard W1/Metal Patio Door Low
2 Wind Front (N) 8.0 0.400 0.352 15 90 Standard W2/Metal Fixed Low E2
3 Wind Front (N) 12.0 0.400 0.352 15 90 Standard W3/Metal Fixed Low E2
4 Wind Front (NE) 15.0 0.400 0.352 60 90 Standard W4/Metal Fixed Low E2
5 Wind Left (E) 30.0 0.400 0.352 105 90 Standard W5/Metal Fixed Low E2
6 Wind Left (SE) 11.7 0.400 0.352 150 90 Standard W6/Metal Fixed Low E2
7 Wind Back (S) 42.8 0.400 0.352 195 90 Standard W7/Metal Fixed Low E2
8 Door Back (SW) 56.3 0.610 0.374 240 90 Standard W8/Metal Patio Door Low
9 Wind Back (S) 10.1 0.400 0.352 195 90 Standard W9/Metal Fixed Low E2
10 Wind Back (S) 77.0 0.400 0.352 195 90 Standard W10/Metal Fixed Low E2
11 Wind Back (SW) 18.0 0.400 0.352 240 90 Standard W11/Metal Fixed Low E2
12 Door Back (SW) 134.8 0.610 0.374 240 90 Standard W12/Metal Patio Door Low
46 Wind Front (N) 10.7 0.710 0.750 15 90 Standard W46/Glass Block
47 Wind Front (N) 10.7 0.710 0.750 15 90 Standard W47/Glass Block
48 Wind Front (NE) 18.0 0.710 0.750 60 90 Standard W48/Glass Block
3.ZONE
31 Wind Left (E) 18.0 0.710 0.750 105 90 Standard W31/Glass Block
32 Door Front (NE) 100.0 0.610 0.374 60 90 Standard W32/Metal Patio Door Low
33 Wind Front (N) 16.0 0.710 0.750 15 90 Standard W33/Glass Block
34 Wind Front (N) 32.0 0.400 0.352 15 90 Standard W34/Metal Fixed Low E2
35 Wind Right (W) 24.0 0.400 0.352 285 90 Standard W35/Metal Fixed Low E2
36 Door Front (N) 100.0 0.610 0.374 15 90 Standard W36/Metal Patio Door Low
37 Wind Back (S) 14.0 0.400 0.352 195 90 Standard W37/Metal Fixed Low E2
38 Wind Left (E) 21.0 0.400 0.352 105 90 Standard W38/Metal Fixed Low E2
4.ZONE
49 Door Left (SE) 76.0 0.610 0.374 150 90 Standard W49/Metal Patio Door Low
50 Wind Left (E) 24.0 0.710 0.750 105 90 Standard W50/Glass Block
51 Wind Left (SE) 10.0 0.710 0.750 150 90 Standard W51/Glass Block
52 Door Right (NW) 52.0 0.610 0.374 330 90 Standard W52/Metal Patio Door Low
53 Wind Front (NE) 36.0 0.400 0.352 60 90 Standard W53/Metal Fixed Low E2
CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF -1R Page 5
Project Title.......... WALLING.LTI6MAIN.ESTANCIA Date..05/16/06 14:05:03
MICROPAS7 v7.10 File-26290A2C Wth-CTZ15S05 Program -FORM CF -1R
User#-MP0207 User-Madlin's Enterprises Run -COMBO MAIN + GUEST
Surface
1. ZONE
13 Window
14 Window
15 Window
16 Door
17 Window
18 Window
19 Door
20 Window
21 Window
22 Window
23 Window
24 Door
25 Door
26 Door
27 Window
28 Window
2. ZONE
1 Door
2 Window
3 Window
4 Window
5 Window
6 Window
7 Window
8 Door
9 Window
10 Window
11 Window
12 Door
3. ZONE
32 Door
33 Window
35 Window
36 Door
OVERHANGS
Window Overhang
Area Left Right
(sf) Width Height Depth Height Extension Extension
13.8
5.5
2.5
4.5
4
n/a
n/a
60.5
5.5
11
4.5
0.5
n/a
n/a
33.8
13.5
2.5
4
4
n/a
n/a
148.5
13.5
11
4
4
n/a
n/a
38.5
3.5
11
4
0.5
n/a
n/a
59.4
23.7
2.5
4
0
n/a
n/a
129.3
11.7
11
10
0
n/a
n/a
21.8
3
7.25
10
1
n/a
n/a
39.9
5.5
7.25
6
1
n/a
n/a
39.9
5.5
7.25
6
1
n/a
n/a
29.0
4
7.25
10
0
n/a
n/a
93.5
8.5
11
20
1
n/a
n/a
82.5
8.25
10
10
1
n/a
n/a
72.5
7.25
10
4
1
n/a
n/a
80.0
8
10
5
0
n/a
n/a
42.5
17
2.5
3
0
n/a
n/a
21.4
2.67
8
2.5
0
n/a
n/a
8.0
1
8
2.5
0
n/a
n/a
12.0
1.5
8
2.5
0
n/a
n/a
15.0
2.25
6.67
4
0
n/a
n/a
30.0
4.5
6.67
2.5
0
n/a
n/a
11.7
1.75
6.67
4
2
n/a
n/a
42.8
4.75
9
2.5
2
n/a
n/a
56.3
6.25
9
2.5
0
n/a
n/a
10.1
6.75
1.5
2
0
n/a
n/a
77.0
7
11
4.5
0
n/a
n/a
18.0
12
1.5
2
0
n/a
n/a
134.8
12.2
11
12
0.5
n/a
n/a
100.0
10
10
3
0
n/a
n/a
16.0
2
8
1
0
n/a
n/a
24.0
3
8
2
0
n/a
n/a
100.0
10
10
1.5
0
n/a
n/a
SLAB
SURFACES
Area
Slab Type
(sf)
2. ZONE
Standard Slab 1420
3.ZONE
Standard Slab 765
4.ZONE
Standard Slab 570
CERTIFICATE OF
COMPLIANCE: RESIDENTIAL COMPUTER METHOD
CF -1R
Page 6
Project Title.......... WALLING.LTI6MAIN.ESTANCIA
Date..05/16/06
14:05:03
MICROPAS7 v7.10 File-26290A2C Wth-CTZ15S05 Program -FORM CF -1R
User#-MP0207 User-Madlin's Enterprises Run -COMBO MAIN + GUEST
THERMAL MASS
Area Thick Heat Conduct- Surface
Mass Type (sf) (in) Cap ivity UIMC R -value Location/Comments
1. ZONE
1 SlabOnGrade 2266 3.5 28.0 0.98 4.60 R-0.0 Exposed
2 S1abOnGrade 567 3.5 28.0 0.98 1.80 R-2.0 Covered
HVAC SYSTEMS
System
Type
1. ZONE
Furnace
ACSplit
2.ZONE
Furnace
ACSplit
-3.ZONE
Furnace
ACSplit
4.ZONE
Furnace
ACSplit
Verified
Number
Verified Verified
Verified Verified
Maximum
of
Minimum
Refrig
Charge Adequate Fan Watt
Cooling
Systems
Efficiency
EER or TXV Airflow Draw
Capacity
2.0
0.800 AFUE
n/a
n/a
n/a n/a
n/a
2.0
13.00 SEER
12.0
Yes
No No
No
1.0
0.800 AFUE
n/a
n/a
n/a n/a
n/a
1.0
13.00 SEER
12.0
Yes
No No
No
1.0
0.800 AFUE
n/a
n/a
n/a n/a
n/a
1.0
13.00 SEER
12.0
Yes
No No
No
1.0
0.800 AFUE
n/a
n/a
n/a n/a
n/a
1.0
13.00 SEER
12.0
Yes
No No
No
HVAC SIZING
Verified
Total
Sensible
Design
Maximum
Heating
Cooling
Cooling
Cooling
System
Load
Load
Capacity
Capacity
Type
(Btu/hr)
(Btu/hr)
(Btu/hr)
(Btu/hr)
1.ZONE
Furnace
71522
n/a
n/a
n/a
ACSplit
n/a
62080
77041
n/a
2.ZONE
Furnace
33160
n/a
n/a
n/a
ACSplit
n/a
26015
32284
n/a
3.ZONE
Furnace
23588
n/a
n/a
n/a
ACSplit
n/a
20220
25093
n/a
4.ZONE
Furnace
17846
n/a
n/a
n/a
ACSplit
n/a
15088
18725
n/a
Total
146116
123403
153143
n/a
Sizing Location...
........
LA QUINTA
Winter Outside Design......
26 F
Winter Inside Design.......
70 F
Summer Outside Design......
111 F
CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD. CF -1R Page 7
Project Title.......... WALLING.LTI6MAIN.ESTANCIA Date..05/16/06 14:05:03
MICROPAS7 v7.10 File-26290A2C Wth-CTZ15S05 Program -FORM CF -1R
User#-MP0207 User-Madlin's Enterprises Run -COMBO MAIN + GUEST
Summer Inside Design....... 75 F
Summer Range .............., 34 F
DUCT SYSTEMS
WATER HEATING SYSTEMS
Heater
Tank Type Type Distribution Type
DHW
1 Large
DHW GH
'2 Storage
System
DHW
1 Large
Number Tank External
in Energy Size Insulation
System Factor (gal) R -value
Gas Recirc/TimeTemp 2 n/a 100 R-12
Gas Standard 1 0.62 50 R- n/a
WATER HEATING SYSTEMS DETAIL
Standby Internal Tank
Recovery Rated Loss Insulation Pilot
Efficiency Input Fraction R -value Light
0.80 n/a 0.03 R-n/a 0
SPECIAL FEATURES AND MODELING ASSUMPTIONS
*** Items in this section should be documented on the plans, ***
*** installed to manufacturer and CEC specifications, and ***
*** verified during plan check and field inspection. ***
This building incorporates a HERS verified Refrigerant Charge test
or a HERS verified Thermostatic Expansion Valve (TXV). If a
,cooling system is not installed, then HERS verification is not necessary.
This building incorporates HERS verified EER.
This building incorporates HERS verified Duct Leakage.
Verified
Verified
Verified
System
Duct
Duct
Duct
Surface
Buried
Type
Location
R -value
Leakage
Area
Ducts
1.ZONE
Furnace
Attic
R-4.2
Yes
No
No
ACSplit
Attic
R-4.2
Yes
No
No
2.ZONE
Furnace.
Attic
R-4.2
Yes
No
No
ACSplit
Attic
R-4.2
Yes
No
No
3.ZONE
Furnace
Attic
R-4.2
Yes
No
No
ACSplit
Attic
R-4.2
Yes
No
No
4.ZONE
Furnace
Attic
R-4.2
Yes
No
No
ACSplit
Attic
R-4.2
Yes
No
No
WATER HEATING SYSTEMS
Heater
Tank Type Type Distribution Type
DHW
1 Large
DHW GH
'2 Storage
System
DHW
1 Large
Number Tank External
in Energy Size Insulation
System Factor (gal) R -value
Gas Recirc/TimeTemp 2 n/a 100 R-12
Gas Standard 1 0.62 50 R- n/a
WATER HEATING SYSTEMS DETAIL
Standby Internal Tank
Recovery Rated Loss Insulation Pilot
Efficiency Input Fraction R -value Light
0.80 n/a 0.03 R-n/a 0
SPECIAL FEATURES AND MODELING ASSUMPTIONS
*** Items in this section should be documented on the plans, ***
*** installed to manufacturer and CEC specifications, and ***
*** verified during plan check and field inspection. ***
This building incorporates a HERS verified Refrigerant Charge test
or a HERS verified Thermostatic Expansion Valve (TXV). If a
,cooling system is not installed, then HERS verification is not necessary.
This building incorporates HERS verified EER.
This building incorporates HERS verified Duct Leakage.
CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF -1R Page 8
Project Title.......... WALLING.LTI6MAIN.ESTANCIA Date..05/16/06 14:05:03
MICROPAS7 v7.10 File-26290A2C Wth-CTZ15S05 Program -FORM CF -1R
User#-MP0207 User-Madlin's Enterprises Run -COMBO MAIN + GUEST
SPECIAL FEATURES AND MODELING ASSUMPTIONS
This building incorporates,a Zonally Controlled HVAC System.
This building incorporates a Radiant Barrier.
This building incorporates a High Mass Design.
This building incorporates a non-standard Water Heating System.
HERS REQUIRED VERIFICATION
*** Items in this section require field testing and/or ***
*** verification by a certified home energy rater under ***
*** the supervision of a CEC-approved HERS provider using ***
*** CEC approved testing and/or verification methods and ***
*** must be reported on the CF -4R installation certificate. ***
'This building incorporates a HERS verified Refrigerant Charge test
or a HERS verified Thermostatic Expansion Valve (TXV). If a
cooling system is not installed, then HERS verification is not necessary.
This building incorporates HERS verified EER.
This building incorporates HERS verified Duct Leakage. Target leakage is
calculated and documented on the CF -4R. If the measured CFM is above the
target, then corrective action must be taken to reduce the duct leakage and
then must be retested. Alternatively, the compliance calculations could be
redone without duct testing. If ducts are not installed, then HERS
verification is not necessary.
REMARKS
The values and materials used in this compliance portfolio are
the minimum required to show compliance with Title 24 Energy
Conservation Standards. The owner may (at his/her option) install
better materials without additional compliance calculations.
This proposed residence will have multiple HVAC systems. The
quantity of units listed in this compliance report has no bearing
on the compliance results. This number is included in the calc-
ulation to provide the building department and HERS raters with
an estimated number of units. For compliance purposes each unit's
AFUE, SEER and EER rating(s) shall be equal to or better than the
values listed.
The HVAC load calculations included in this compliance report
.are for permit purposes only. The installing HVAC contractor
is responsible for determining the HVAC design loads and
equipment selection(s). The HVAC design shall be done in accord-
ance with industry standards. The load calculation in this report
considers only ambient temperature loads, solar heat gain,
people and a fixed percentage for latent heat gain. This basic
load must be adjusted for additional design conditions and
CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF -1R Page 9
Project Title.......... WALLING.LTI6MAIN.ESTANCIA Date..05/16/06 14:05:03
MICROPAS7 v7.10 File-26290A2C Wth-CTZ15S05 Program -FORM CF -1R
User#-MP0207 User-Madlin's Enterprises Run -COMBO MAIN + GUEST
REMARKS
system/equipment performance.
All contractors and subcontractors are responsible to meet the
requirements of Title 24 Mandatory Measures related to their
work.
Compliance Form CF -6R Installation Certificate is required to be
completed by installing contractors during various phases of
construction. These include the plumbing, HVAC, fenestration/
glazing and insulation contractors. The form is to be posted at
the job site unless otherwise directed by the local enforcement
agency.
A night setback thermostat is required to be installed with each
HVAC system.
CERTIFICATE OF COMPLIANCE: RESIDENTIAL COMPUTER METHOD CF -1R Page 10•
Project Title.......... WALLING.LTI6MAIN.ESTANCIA Date..05/16/06 14:05:03 .
MICROPAS7 v7.10 File-26290A2C Wth-CTZ15S05 Program -FORM CF -1R
User#-MP0207 User-Madlin's Enterprises Run -COMBO MAIN + .GUEST
COMPLIANCE STATEMENT
This certificate of compliance lists the building features and performance
specifications needed to comply with Title -24, Parts 1 and 6 of the
California Code of Regulations, and the administrative regulations to
implement them. This certificate has been signed by, the individual with
overall design responsibility.
DESIGNER or OWNER
Name.... JOHN WALLING
Company. WALLING & McCALLUM LTD
Address. 45190 CLUB DRIVE
INDIAN WELLS, CA 92210
Phone... 760-360-0250
License.
Signed.. oc
ate)
EN ORCEMENT AGENCY
Name....
Title..
Agency.:
Phone...
Signed..
(date)
DOCUMENTATION AUTHOR
Name.... CATHERINE M. MADLIN
Company. Madlin's Enterprises
Address. P.O. Box 1443
Palm Springs, CA 92262
Phone... 760-322-5004
Signed.. -
( (date)
S ,e, •ob
Certified Energy Analyst
Catherine M. Madiin
r r NR05-90-721
r
C A B E C R05-90-630
Califomia Association of Building Energy Consultants
MANDATORY MEASURES SUMMARY: RESIDENTIAL (Page t of 2) MF -1R
Note: Low-rise residential buildings subject to the Standards must contain these measures regardless of the compliance approach used.
More stringent compliance requirements from the Certificate of Compliance supersede the items marked with an asterisk (") below.
When this checklist is incorporated into the permit documents, the features noted shall be considered by all parties as minimum
component performance specifications for the mandatory measures whether they are shown elsewhere in the documents or on this
checklist only.
Instructions: Check or initial applicable boxes when completed or check NA if not applicable.
DESCRIPTION
NA
Designer
Enforce
-ment
Building Envelope Measures:
✓
✓
✓
' §I50(a): Minimum R-19 in wood frame ceiling insulation or equivalent U -factor in metal frame ceiling.
❑
In
❑
§I50(b): Loose fill insulation manufacturer's labeled R -Value:
Q�
❑
❑
' §150(c): Minimum R-13 wall insulation in wood framed walls or equivalent U -factor in metal frame walls (does not apply
to exterior mass walls).
11❑
§150(d): Minimum R-13 raised floor insulation in framed floors or equivalent U -factor.
(�
❑
❑
§I50(e): Installation of Fireplaces, Decorative Gas Appliances and Gas Logs.
1. Masonry and factory -built fireplaces have:
a. closeable metal or glass door covering the entire opening of the firebox
❑
[�
❑
b. outside air intake with damper and control, flue damper and control
❑
2. No continuous burning gas pilot lights allowed.
❑
(r
❑
§150(f): Air retarding wrap installed to comply with §151 meets requirements specified in the ACM Residential Manual.
[r
❑
❑
§ 150(g): Vapor barriers mandatory in Climate Zones 14 and 16 only.
&r
❑
❑
§150(1) : Slab edge insulation -water absorption rate for the insulation material alone without facings no greater than
0.3% water vapor permeance rate no greater than 2.0perm/inch.
Gr
❑
❑
§118: Insulation specified or installed meets insulation installation quality standards. Indicate type and include CF -6R
Fonn:
❑
20'
❑
§116-17: Fenestration Products, Exterior Doors, and Infiltration/Exfiltration Controls.
1. Doors and windows between conditioned and unconditioned spaces designed to limit air leakage.
❑
2,
❑
2. Fenestration products (except field -fabricated) have label with certified U -factor, certified Solar Heat Gain
Coefficient SHGC , and infiltration certification.
❑
52r
❑
3. Exterior doors and windows weatherstripped; all joints and penetrations caulked and sealed.
❑
120,
❑
Space Conditioning, Water Heating and Plumbing System Measures:
§110-§113: HVAC equipment, water heaters, showerheads and faucets certified by the Energy Commission.
❑
[x
❑
§150(h): Heating and/or cooling loads calculated in accordance with ASHRAE, SMACNA or ACCA.
❑
[a'
❑
§150(i): Setback thermostat on all applicable heating and/or cooling systems.
❑
E2r
❑
§1500): Water system pipe and tank insulation and cooling systems line insulation.
❑
02(
❑
I. Storage gas water heaters rated with an Energy Factor less than 0.58 must be extemally wrapped with insulation
having an installed thermal resistance of R-12 or greater.
❑
2. Back-up tanks for solar system, unfired storage tanks, or other indirect hot water tanks have R-12 external insulation or
R-16 internal insulation and indicated on the exterior of the tank showing the R -value.
�'
❑
❑
3. The following piping is insulated according to Table 150-A/B or Equation 150-A Insulation Thickness:
1. First 5 feet of hot and cold water pipes closest to water heater tank, non -recirculating systems, and entire length
ofrecirculating sections of hot water pipes shall be insulated to Table 150B.
❑
d
❑
2. Cooling system piping (suction, chilled water, or brine lines), piping insulated between heating source and
indirect hot water tank shall be insulated to Table 150-B and Equation 150-A.
❑
53"
❑
4. Steam hydronic heating systems or hot water systems >15 psi, meet requirements of Table 123-A.
EiK
❑
❑
Residential Compliance Forms April 2005
MANDATORY MEASURES SUMMARY: RESIDENTIAL (Page 2 of 2) MF -1R
Space Conditioning, Water Heating and Plumbing System Measures: (continued)
Enforce -
NA,/
Designer
ment
5. Insulation must be protected from damage, including that due to sunlight, moisture, equipment maintenance, and wind.
❑
Er
❑
6. Insulation for chilled water piping and refrigerant suction piping includes a vapor retardant or is enclosed entirely in
1311conditioned
space.
7. Solar water -heating systems/collectors are certified by the Solar Rating and Certification Corporation.
[r
❑
❑
• § 150(m): Ducts and Fans
L Al I ducts and plenums installed, sealed and insulated to meet the requirement of the CMC Sections 601, 602, 603, 604, 605
and Standard 6-5; supply -air and retum-air ducts and plenums are insulated to a minimum installed level of R-4.2 or enclosed
entirely in conditioned space. Openings shall be sealed with mastic, tape or other duct -closure system that meets the applicable
❑
❑
requirements of UL 181, UL 181 A, or UL 181 B or aerosol sealant that meets the requirements of UL 723. If mastic or tape is
used to seal openings er than 1/4 inch the combination of mastic and either mesh or tape shall be used.
2. Building cavities, support platforms for air handlers, and plenums defined or constructed with materials other than
sealed sheet metal, duct board or Flexible duct shall not be used for conveying conditioned air. Building cavities and
❑
❑
support platforms may contain ducts. Ducts installed in cavities and support platforms shall not be compressed to cause
reductions in the cross-sectional area of the ducts.
3. Joints and seams of duct systems and their components shall not be sealed with cloth back rubber adhesive duct tapes
1:1❑
unless such to is used in combination with mastic and draw bands.
4. Exhaust fan systems have back draft or automatic dampers.
❑
[�
❑
5. Gravity ventilating systems serving conditioned space have either automatic or readily accessible, manually operated
11
dampers.
6. Protection of Insulation. Insulation shall be protected from damage, including that due to sunlight, moisture, equipment
maintenance, and wind. Cellular foam insulation shall be protected as above or painted with a coating that is water
❑
❑
retardant and provides shielding from solar radiation that can cause degradation of the material.
7. Flexible ducts cannot have porous inner cores.
❑
[.�
❑
§114: Pool and Spa Heating Systems and Equipment
1. A thermal efficiency that complies with the Appliance Efficiency Regulations, on-off switch mounted outside of the
❑
❑
heater, weatherproof operating instructions no electric resistance heating and no pilot light.
2. System is installed with:
a. at least 36" of pipe between filter and heater for future solar heating
❑
12r
❑
b. cover for outdoor pools or outdoor spas
❑
❑
3. Pool system has directional inlets and a circulation pump time switch.
❑
❑
§115: Gas fired fan -type central furnaces, pool heaters, spa heaters or household cooking appliances have no continuously
❑
❑
burning pilot light. (Exception: Non -electrical cookingappliances with pilot < 150 Btu/hr
§l 18(i): Cool Roof material meets specified criteria
❑
❑
Residential Lighting Measures:
§150(k)l : HIGH EFFICACY LUMINAIRES OTHER THAN OUTDOOR HID: contain only high efficacy lamps as
outlined in Table 150-C, and do not contain a medium screw base socket (E24/E26). Ballast for lamps 13 watts or greater
❑
❑
are electronic and have an output frequency no less than 20 kHz
§150(k)l : HIGH EFFICACY LUMINAIRES - OUTDOOR HID: contain only high efficacy lamps as outlined in Table
El❑
150-0, luminaire has facto installed HID ballast
§150(k)2: Permanently installed luminaires in kitchens shall be high efficacy luminaires. Up to 50 percent of the wattage, as
determined in § 130 (c), of permanently installed luminaires in kitchens may be in luminaires that are not high efficacy
❑
12(
❑
luminaires, provided that these luminaires are controlled by switches separate from those controlling the high efficacy
luminaires.
§150(k)3: Permanently installed luminaires in bathrooms, garages, laundry rooms utility rooms shall be high efficacy
luminaires. OR are controlled by an occupant sensor(s) certified to comply with Section 119(d) that does not tum on
❑
[!
❑
automatically or have an always ono tion.
§ 150(k)4: Permanently installed luminaires located other than in kitchens, bathrooms, garages, laundry rooms, and utility
rooms shall be high efficacy luminaires (except closets less than 7011): OR are controlled by a dimmer switch OR are
❑
pf
❑
controlled by an occupant sensor that complies with Section 119(d) that does not tum on automatically or have an always
ono tion.
§ I50(k)5: Luminaires that are recessed into insulated ceilings are approved for zero clearance insulation cover (IC) and are
❑
❑
certified airtight to ASTM E283 and labeled as air tight (AT) to less than 2.0 CFM at 75 Pascals.
§ 150(k)6: Luminaires providing outdoor lighting and permanently mounted to a residential building or to other buildings on
the same lot shall be high efficacy luminaires (not including lighting around swimming pools/water features or other
❑
�
u(
❑
Article 680 locations) OR are controlled by occupant sensors with integral photo control certified to comply with Section
119d.
§150(k)7: Lighting for parking lots for 8 or more vehicles shall have lighting that complies with Sec. 130, 132, and 147.
❑
❑
Lighting for parking garages for 8 or more vehicles shall have lighting that complies with Sec. 130 131 and 146.
§ I50(k)8: Permanently installed lighting in the enclosed, non -dwelling spaces of low-rise residential buildings with four or
more dwelling units shall be high efficacy luminaires OR are controlled by occupant sensor(s) certified to comply with
�'
❑
❑
Section 119(d).
Residential Compliance Forms April 2005
Catherine M. Madlin,, Certified Energy Analyst - 760-322-5004 / 323-3644 Fax
MadlinY s
enterprises
vvvvvvv
Residential Lighting Compliance
Title 24 Compliance Documentation Worksheet
RESIDENTIAL KITCHEN LIGHTING WORKSHEET WS -5R
Madlin's Enterprises
Project Title: Lot 16 The Estancias Date: 5/22/2006 Job: 26290A
Luminaire Type
High Efficacy?
Watts
x
Quantity High Efficacy Watts
or Other Watts
Incandescent
No
75
x
4 -
or 300
CFL -1-26
Yes
26
x
2 - 52
or
CFL -1-32
Yes
32
x
6 - 192
or
T5-24"
Yes
18
x
4 - 72
or
T5-18"
Yes
13
x
1 - 13
or
x
=
or
x
-
or
x
-
or .
X,
-
or
x
=
or
X
-
or
x
=
or
Total A: 329
B: 300 .
COMPLIES IF A >_ B
Madlin-'s
enterprises
Catherine M. Madlin, Certified Energy Awlyst v 760-322-5004 / 323-3644 (fax) 'v v vv v v v
H. V.A. C. Load Calculation
HVAC SIZING HVAC Page 1
Project Title.......... WALLING.LTI6MAIN.ESTANCIA Date..05/16/06 14:05:03
P A t Add LOT 16 THE E*******
STANCIAS
LA QUINTA *v7.10*
Documentation Author... CATHERINE M. MADLIN ******* Building Permit
Madlin's Enterprises
P.O. Box 1443 Plan Check Date
Palm Springs, CA 92262
760-322-5004 FTeId Check/ Date
Climate Zone.. ..... 15
Compliance Method...... MICROPAS7 v7.10 for 2005 Standards by Enercomp, Inc.
MICROPAS7 v7.10 File-26290A2C Wth-CTZ15S05 Program -HVAC SIZING
User#-MP0207 User-Madlin's Enterprises Run -COMBO MAIN + GUEST
GENERAL INFORMATION
Floor Area .................
Volume.. ...........
Front Orientation..........
Sizing Location............
Latitude... .... .......
Winter Outside Design......
Winter Inside Design.......
Summer Outside Design......
Summer Inside Design.......
Summer Range.. ... .....
Interior Shading Used......
Exterior Shading Used......
Overhang Shading Used......
Latent Load Fraction.......
Description
5588 sf
69621 cf
Front Facing 15 deg (N)
LA QUINTA
33.8 degrees
26 F
70 F
111 F
75 F
34 F
Yes
Yes
Yes
0.24
HEATING AND COOLING LOAD SUMMARY
Heating Cooling
(Btu/hr) (Btu/hr)
Opaque Conduction and Solar...... 48152 21568
Glazing Conduction and Solar..... 54152 65033
Infiltration ..................... 21040 12165
Internal Gain .................... n/a 3440
Ducts ............................ 22771 21196
Sensible Load .................... 146116 123403
Latent Load ...................... n/a 29740
Minimum Total Load 146116 153143
Note: The loads shown are only one of the criteria affecting the selection
of HVAC equipment. Other relevant design factors such as air flow
requirements, outside air, outdoor design temperatures, coil sizing,
availability of equipment, oversizing safety margin, etc., must also be
considered. It is the HVAC designer's responsibility to consider all
factors when selecting the HVAC.equipment.
�l
HVAC SIZING HVAC Page 2
Project Title.......... WALLING.LTI6MAIN.ESTANCIA Date..05/16/06 14:05:03
MICROPAS7.v7.10 File-26290A2C Wth-CTZ15S05 Program -HVAC SIZING
User#-MP0207 User-Madlin's Enterprises Run -COMBO MAIN + GUEST
HEATING AND COOLING LOAD SUMMARY BY ZONE
ZONE '1.ZONE'
Floor Area .......................
2833 sf
Volume ...........................
39746 cf
Heating
Cooling
Description
(Btu/hr)
(Btu/hr)
Opaque Conduction and Solar......
19603
9989
Glazing Conduction and Solar.....
30105
33506
Infiltration .....................
10667
6167
Internal Gain ....................
n/a
1754
Ducts ............................
11146
10663
Sensible Load ....................
71522
62080
Latent Load ......................
n/a
14961
Minimum Zone Load
71522
77041
ZONE 12.ZONE'
Floor Area .......................
1420 sf
Volume ...........................
16525 cf
Heating
Cooling
Description
(Btu/hr)
(Btu/hr)
Opaque Conduction and Solar......
11761
4874
Glazing Conduction and Solar.....
10884
12721
Infiltration .....................
5347
3091
Internal Gain ....................
n/a
860
Ducts............................
5168
4468
Sensible Load ....................
33160
26015
Latent Load ......................
n/a
6270
Minimum Zone Load
33160
32284
HVAC SIZING HVAC Page 3
Project Title.......... WALLING.LTI6MAIN.ESTANCIA Date..05/16/06 14:05:03
MICROPAS7 v7.10 File-26290A2C Wth-CTZ15S05 Program -HVAC SIZING
User#-MP0207 User-Madlin's Enterprises Run -COMBO MAIN + GUEST
ZONE '3.ZONE'
Floor Area .......................
765 sf
Volume ...........................
7650 cf
Heating
Cooling
Description
(Btu/hr)
(Btu/hr)
Opaque Conduction and Solar......
9000
3753
Glazing Conduction and Solar.....
8032
10847
Infiltration .....................
2880
1665
Internal Gain ....................
n/a
482
Ducts ............................
3676
3473
Sensible Load ....................
23588
20220
Latent Load ......................
n/a
4873
Minimum Zone Load
23588
25093
ZONE 14.ZONE'
Floor Area .......................
570 sf
Volume ...........................
5700 cf
Heating
Cooling
Description
(Btu/hr)
(Btu/hr)
Opaque Conduction and Solar......
7787
2953
Glazing Conduction and Solar.....
5131
7959
Infiltration .....................
2146
1241
Internal Gain ....................
n/a
344
Ducts ............................
2781
2592
Sensible Load ....................
17846
15088
Latent Load ......................
n/a
3636
Minimum Zone Load
17846
18725
Madlin's
enterprises
Catherine M. Madlin, Certified Energy Analyst • 760-322-5004 / 323-3644 (fax) . '.. `. ®..
Addendums and Notes
f ..
s ,
Maatin s
enterprises
Catherine M. Madlin, Certified Energy Analyst W 760-322-5004 l 323-3644 Fax
Post Office Box 1443 W Palm Springs, CA 92263-1443 W Cmadlin@aol.com .... -
Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt
Radiant Barrier Construction Practice
To qualify, a radiant barrier must have an emittance of 0.05 or less. The product
must be tested according to ASTM C-1371-98 or ASTM E408-71(2002) and
must be certified by the Department of Consumer Affairs2. Radiant barriers must
also meet installation criteria as specified i� Section 4.2.1 of the Residential
ACM Manual (Section 4.2.1 is also reprodu;;d ' appendix D of this document).
The most common way of me�,ting,S�j� iant bard uirement is to use roof
sheathing that has a di t bar�riet onde to it ' factory. Oriented strand
board (OSB) is the m c rr�atena vailable with afactory-applied
radiant barrier. Tb-s�a�ath'r�gIi steed with the radiant barrier (shiny side)
fig do,wp tpw tithe tti *pa�. Alternatively, a radiant barrier material that
s t1'f s e T st nd moisture perforation requirements that apply to
-1 in t Ifo an be field -laminated. Field lamination must use a secure
ec n' erns of holding the foil to the bottom of the roof decking such as
pl or nails that do not penetrate all the way through the roof deck material.
Other acceptable methods are to drape a foil type radiant barrier over the top of
the top chords before the sheathing is installed, stapling the radiant barrier
between the top chords after the sheathing is installed, and stapling the radiant
barrier to the underside of the truss/rafters (top chord). For these installation
methods, the foil must be installed with spacing requirements as described in
Section 4.2.1 of the Residential ACM Manual.. The minimum spacing
requirements do not apply to this installation since it is considered a "laminated"
system.
Installation of radiant barriers is somewhat more challenging in the case of
closed rafter spaces when sheathing is installed that does not inclufle-a
laminated foil. Foil may be field -laminated after the sh6athirp s b -installed
by "laminating" the foil as described above to the roof sfieatfa
f�in eai�
framing members. This construction type is desthe es en ACM
Manual, Section 4.2.1.
See Figure 3-12 for drawings oan arri st�
mllation methods.
Madlin'
enterprises
♦vvvvvv
Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt
Roof Decldng
0
Method 1: Radiant[
Over Top
Joist
Radiant
Barrier —
Insulation
Joist —
2: Radi$ry 13BAff er Attached
Between TrusdRafters
f—Roof Decidng
Method 3: Radiant BarrierAttached to Method 4: Radiant Banier Attached to
Bottom of TrusslRafter Underside of Roof Deck
Figure 3-12 — Methods of Installation for Radiant Batrs eD� 15
Roof Decldng
Radiant
Barrier —
Insulation
Joist —
2: Radi$ry 13BAff er Attached
Between TrusdRafters
f—Roof Decidng
Method 3: Radiant BarrierAttached to Method 4: Radiant Banier Attached to
Bottom of TrusslRafter Underside of Roof Deck
Figure 3-12 — Methods of Installation for Radiant Batrs eD� 15
� s Madlin
eiZto prises
Catherine M. Madlin, Certified Energy Analyst W 760-322-5004 / 323-3644 Fax
Post Office Box 1443 W Palm Springs, CA 92263-1443 W Cmadlin@aol.com .......
Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt
Fenestration Mandatory Measures
U -factor and SHGC Ratings
§116(a)2 and §116(a)3
Table 116-A
Table 116-8
Manufactured Fenestration Products. The r4nda oi6ry�neasures require that
both the U -factor and the SHGC of ma ctureb�6*yation products be
determined from NFRC' ed u Directo r' om Energy
Commission-appro d&fiauit ble At t'1 time o inspection, the actual
fenestration U -f ,a d�-IG al �S as�own on NFRC labels or in the
.default t bles st re It irk u or ower overall energy consumption than the
�1 lue � to n om liance documents. The default U -factors are
[cb tai i to s Table 116-A, and the default SHGC values are
co ai ed ' ndards Table 116-B (also in Appendix B of this compliance
maul). A directory of NFRC certified ratings is available at
htto://www.NFRC.org.
Commission default values in both Tables 116-A and 116-B are on the poor side
of the performance range for windows. To get credit for advanced window
features such as low -e (low -emissivity) coatings and thermal break frames, the
window manufacturer must have the window tested, labeled, and certified
according to NFRC procedures. Figure 3-1 shows an example of an NFRC-
approved temporary fenestration label.
' Requiring that SHGC and U -factor be calculated using a common procedure
ensures that the performance data for fenestration products are more off rve
and that data provided by different manufacturers can
be' -ea, mQr rnp
The test procedure for U -factor is NFRC 100, and t p �e r C
is NFRC 200.
Site -built Fenestration Products. F"M to -rise i tial - nstruction, site -built
products are tre ted the sa a an� ct� p ucts: U -factor and SHGC
values must co e -fro 0, r ngs of Standards Tables 116-A and 116 -
Note t di nit Glt al es a to nonresidential projects; default
//�vv PP P 1
aIue y fo d in donresidential ACM Manual.
eld-f ricat Products [§116(b)]. Field -fabricated fenestration must always
use a nergy Commission default U -factors from Standards Table 116-A and
G; values from Standards Table 116.
Madlins
enterprises
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Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt
i Fenestration — Mandatory Measures
0
Figure 3-1— NFRC Temporary Label
Temporary and Permanent Labels 4
See §10111(a) and §116(a)4
Manufactured Fenestration Products. The tan s m re tea nufactured
windows have both temporary anrFe �a s that ow`ihe NFRC
performance characteristics. T _ary I bel ows the U -factor and
SHGC, for eaqA rated 11 a
;qbl' mu alsoshow that the window meets
the air infiltrat�ori �'t ria. eteora I bel must not be removed before
sper�j" th of agency.
j e p ant�1t I b must, at a minimum, identify the certifying organization and
have umf3er or code to allow tracking back to the original information on file
a h certifying organization. The permanent label can be inscribed on the
spacer, etched on the glass, engraved on the frame, or otherwise located so as
not to affect aesthetics.
Site -Built Fenestration Products. Labeling requirements apply to site -built
fenestration products as well, except that a label certificate may be provided in
accordance with NFRC 100 in place of an attached temporary label. The label
certificate is a document that verifies the performance of the site -built
fenestration product but that is not physically attached to the product. The label
certificate is kept at the job site by the contractor for field inspector verification.
Field -Fabricated Fenestration Products. A label is not required for field -
fabricated fenestration products.
World's Best
NFRC
Window Co.
bi
Mill'e'nnium 2000+
National Fenastration
Rating C011 td*
Vinyl{lad Wood Frame
Double Glazing • Argon Fill • Low E
Product Type: Vertical Slider
ENERGY
PERFORMANCE T ' S
U -Factor (US P)ra-bGa
�.3
in effi ent
d TIO IAL PERFORMANCE RATINGS
OVAI�0 smittance
Air Leakage (USJI-P)
o.51
0.2
Mamrfacturer stipulates that these ratir cordorm to applicable NFRC procedures for determining whole
product performance. NFRC ratings are determined for a fixed set of environmental conditions and a
specific product size. NFRC does not recommend any product and does not warrant the suitability of any
product for any specific use. Consult manufacturer's literature for other product performance Information.
Figure 3-1— NFRC Temporary Label
Temporary and Permanent Labels 4
See §10111(a) and §116(a)4
Manufactured Fenestration Products. The tan s m re tea nufactured
windows have both temporary anrFe �a s that ow`ihe NFRC
performance characteristics. T _ary I bel ows the U -factor and
SHGC, for eaqA rated 11 a
;qbl' mu alsoshow that the window meets
the air infiltrat�ori �'t ria. eteora I bel must not be removed before
sper�j" th of agency.
j e p ant�1t I b must, at a minimum, identify the certifying organization and
have umf3er or code to allow tracking back to the original information on file
a h certifying organization. The permanent label can be inscribed on the
spacer, etched on the glass, engraved on the frame, or otherwise located so as
not to affect aesthetics.
Site -Built Fenestration Products. Labeling requirements apply to site -built
fenestration products as well, except that a label certificate may be provided in
accordance with NFRC 100 in place of an attached temporary label. The label
certificate is a document that verifies the performance of the site -built
fenestration product but that is not physically attached to the product. The label
certificate is kept at the job site by the contractor for field inspector verification.
Field -Fabricated Fenestration Products. A label is not required for field -
fabricated fenestration products.
Catherine M. Madlin, Certified Energy Analyst - 760-322-5004 l 323-3644 Fax
Post Office Box 1443 1v Palm Springs, CA 92263-1443 w" Cmadlin@aol.com
Madlin s
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Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt
Residential Lighting - Mandatory Measures
High Efficacy Luminaires
A luminaire is the lighting industry's term for light fixture. A luminaire consists of
the housing, power supply (ballast), lamp, " fi nd in some cases a lens. A
lamp is the lighting industry's term for a light b inaires can be designed
to be recessed into the �.gilinc , su� hdV by a rod o hain, or surface mounted
on the wall or ceilincft \ \ Cl \ \
A high efficacy I p+►e iVdibm)
t�at�ontains only high efficacy lamps and must
t con event a1 screw -based socket. Typically, high
ee ca ai in, pin -based sockets, like compact or linear fluorescent
6 s e hough other types such as screw sockets specifically rated for
i in discharge la I' 'b
g� g lamps (like metal halide lamps) may also be eligible for
xtenor use. Luminaires with modular components that allow conversion
between screw -based and pin -based sockets without changing the luminaire
housing or wiring shall not be considered high efficacy luminaires. These
requirements prevent low efficacy lamps being retrofitted in high efficacy
luminaires. Also, compact fluorescent luminaires with permanently installed
ballasts that are capable of operating a range of lamp wattages, the highest
operating input wattage of the rated lamp/ballast combination must be use for
determining the luminaire wattage.
There are two qualifying requirements for a high efficacy luminaire: at -t ems^
lumens per watt for the lamp be above a specified threshold . th onic
ballasts be used in certain applications.
Electronic Ballasts
Additionally, fluo " t apo r rating of 13 W or more shall have
";6ctr Ila a ergs a lam at a frequency of 20 kHz or more. All
.ommon ava le ectro c ballasts meet this requirement. Outdoor
11j frit afire 'th ugh intensity discharge (HID) lamps (like metal halide or high -
ss ra s ium) containing hardwired electromagnetic HID ballasts with HID
11 odium base sockets and lamps meeting the minimum efficacy
requirements in Table 6-1 are considered high efficacy.
At the present time, pin based compact fluorescent lamps that are operated with
electronic ballasts typically have four -pin lamp holders. Pin -based compact
fluorescent lamps with two -pin lamp holders typically will indicate that the ballast
is magnetic. However, there are new compact fluorescent lamp holders being
considered by the lighting industry.
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Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt
Residential Lighting — Mandatory Measures
Lumens per Watt
Perman
The lumen is the unit of visible light. To be rated as high efficacy, a lamp must
produce a certain number of lumens for each watt of electrical power it
consumes. Efficacy is therefore measured in lumens per watt.
Almost all fluorescent lamps equipped with electronic ballasts qualify as high
efficacy light sources; incandescent lamps ( clud' any screw-in incandescent
lamps, like regular'A' or reflector lamps or q �aMbgen lamps, or low voltage
lamps, like halogen MR 14 mps)ado not, classlf�e"�s high efficacy, a lamp
must meet the requia listed i V abl -1 (dckun ented in Table 150-0 of
the Standards):
simp ' ' , t powe u by'the ballast is ignored when determining the
IN ns� tt r�uu es of compliance with the residential lighting
�re nt
ablubr6-9 — Hi h Efficacy LamDs
Lamp power
Required lamp efficacy
<15W
40M/W
15-40 W
50 tn/W
>40W
60 hVW
Note: the wattage of the ballast is not included when determining lamp efficacy.
Mercury vapor lamps do not usually meet the requirements; metal halide or
compact fluorescent lamps (CFLs) are good replacements. For other lag2p ty
such as LEDs you should check with the lamp manufacturer and prov
documents showing that the lamp meets the requiremeWi s. /� /7
To calculate the efficacy of a lamp, find out from this' arl, a u iw-mafiy
lumens it produces, then divide this nu ber�iy� th ted �rv�tta O the lamp.
Do not include any watts consu y e bal t.
W StandaWds require that all permanently installed luminaires be high efficacy
as be%_Q by the Standards, with some exceptions described later in this
ch "Pt Permanently installed luminaires include, but are not limited to those
luminaires installed in, on, or hanging from the ceilings or walls (including ceiling
fan lights); in or on built-in cabinets (including kitchen, nook, wet bar, and other
built-in cabinets); and those mounted to the outside of the buildings.
Permanently installed luminaires do not include lighting that is installed in
appliances by the manufacturers including refrigerators, stoves, microwave
ovens, or exhaust hoods.
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Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt
Residential Lighting — Mandatory Measures
Typical efficacy of lamps
1
ta!
MMM
MM
t
U
IFE
CL
CS
77V
M
0 10 20 30 40 50 60
70 ao so 100
lamp power
(W)
Lamp types: --------- Metal halide lamp (T-6)
Compact fluorescent lamp
Minimum requirement
— — — — — — . Mercury vapor lamp
Incandescent lamp
— • • — • • — • • — • Halogen MR16 lamp
Figure 6-9 — Typical Lamp Efficacies
0
M
1C�112 S
entophses
Catherine M. Madlin, Certified Energy Analyst v' 760-322-5004 1323-3644 Fax
Post Office Box 1443 W Palm Springs, CA 92263-1443 w Cmadlin@aol.com .......
Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt
Residential Lighting — Mandato!y Measures
I
Kitchens
tso(x)2.
The Standards define a residential kitchen to a °a room or area used for food
storage and preparation and washing dishes ILdu sociated counter tops
and cabinets, refrigerator, sto,R, oven,,gncVoor a�e definition goes on
to say,Adjacent areas are corfsid Kitten if the i for the adjacent
areas is on the sa swi ase li� ting f�th e w��n".,The intent of th li ing tan'. rd isinsure the builder provides the
fccupant 'th j�jligh rgy ici� lig 'ng. The permanently installed lighting should
rov s pi elsor basic kitchen tasks without the need for
gm� :.�rible (plug-in) lighting.
\\� I Al es�fg�commendation may be to utilize the Illuminating Engineering Society
v oAorth America (IESNA) guidelines that at least 30 footcandles of light be
provided for seeing tasks in kitchens. Seeing tasks include, but are not limited
to, the basic kitchen tasks as preparing meals and washing dishes. These tasks
typically occur on accessible kitchen countertops, the tops of ranges and in
sinks, where food preparation, recipe reading, cooking, cleaning and related
meal preparation activities take place, as well as at the front of kitchen cabinets
so that the contents of the cabinet are discemable. Although the design should
achieve 30 footcandles on most counter -height, horizontal worts surfaces, there
may be a few work surfaces where the lighting levels fall below this value and
the fronts of kitchen cabinets may also be below this value. Even in these
locations, the lighting level provided should not fall below the IESNA-
recommended lower value for non-critical seeing tasks ofJ0 foo z#rxles�
of counters that are not work surfaces, such as a corner ui�dem at `a iI et,
may have a lighting level below 20 footcandles and e� the Ui m s
Y 9 9+cc1 J�
of the standard, because meal preparation i ralik4 o o in areas.
The Standards require that at le f alf ligh' tn) tts in a kitchen must be
consumed by high effic min i es (r tha low -voltage halogen MR
lamps do not S s �ca Be igh efficacy luminaires typically
nsum e p er a oth lu Laires, bout three-fourths of the luminaires
in th ` t the are i el igh efficacy. See Form WS -5R, Residential
itch Lig h . heet, Appendix A, which is completed to determine if
kitche ' htin complies with the Standards.
on -high efficacy luminaires must be switched on a separate circuit from the
high efficacy luminaires. These could include low -voltage halogen MR lamps or
reflector lamps used to provide decorative spotlighting.
Lighting in areas adjacent to the kitchen, such as dining and nook areas and
even family rooms, is considered to be kitchen lighting if it is not separately
switched from the kitchen lighting. The switches may be mounted on the same
faceplate, but as long as the lights can be switched independently, these areas
do not count as being in the kitchen.
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Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt
Residential Lighting — Mandatory Measures
Bathrooms, Garages, Laundry Rooms and Utility Rooms
§150(k)3
Lighting in bathrooms, garages, laundry rooms and/or utility rooms must be high
efficacy, or must be controlled by a manual -on occupant sensor.
A bathroom is a room containing a shower, tnthodr'
or a sink that is used for
personal hygiene. v
If a sink used for er nab gi s a roothan a bathroom, such as
bedroom, where o rs, all r o��r partitions separate the sink area from
the rest of the r - , a th igh g fo�-the sink area is switched separately
from m afr a Ii ing, nl a luminaire s that are lighting the sink area must
g. () 9 g
m roo I Q requirements. In this case, lighting of the sink area
incl es i h ' associated counters, cabinets, and mirrors.
I an one circuit of luminaires may be attached to the same manual -on
occupant sensor. At least one high -efficacy luminaire should be installed so
that it can be. left off the occupant sensor circuit to ensure that all of the
luminaires don't switch off while someone is in the bath. Even dual technology
sensors may not detect a motionless and silent occupant.
Garages, laundry rooms and utility rooms can be lit entirely by high efficacy
lighting. Linear fluorescent luminaires are typically between 1.5 and 4 times as
efficient as CFLs, and should be used unless there is insufficient space.
Luminaires should be mounted close to washer/dryer hookups and over work
surfaces to ensure shadow free illumination.
Garages present an opportunity to reduce energy u by pr9v in tLa, hting.
The end of the garage furthest from the door to the ousel' o en a a
work area, and can be provided with high effi u ai -swi hL �
separately from the rest of the space. \
Although not required, occu t e ors bir sed in conjunction with high
��t J�
efficacy lighIt to a thRe
aves pp�j energy use.If there are any
concerns a iaf siupanensors in conjunction with low�fficacy
lum' fin pa cots dhe fol owing two options:
• ddition to the low efficacy luminaires controlled by a manual -
on occupant sensor, leave one high efficacy luminaire on a
separate manual switch.
• Install all high efficacy luminaires in the space; high efficacy
luminaires do not require an occupant sensor to meet the
requirements of the Standards.
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♦VVVVVV
Title 24 2005 Building Energy Efficient Standards Residential Manual Excerpt
Residential Lighting— Mandatory Measures
Other Rooms
§15004 7771
Permanently installed lighting in other rooms must be high efficacy, or a manual -
on occupant sensor or a dimmer must control it.
"Other rooms" includes hallways, dining roorlas, -rooms
and bedrooms —
the rooms in which peopl are�nos ark ,of inteSnory
.sign both interms of
fashion and the usab;'ty�the` livi�Z
pa.
Exception 3 to §1 cif
of permanently installed luminaires that are
r}ot high cy( minIIes n allowed in closets less than 70 square feet.
j e ll� i i e 3e controlled by a simple toggle switch, manual -on
mpa a r, or an automatic -on occupant sensor.
an eople commonly add their own portable lighting. Unfortunately, portable
hting often means highly inefficient incandescent floor -standing luminaires that
can consume 190 watts or more for older lamps.
Permanently installed lighting should reduce the need for such high wattage
portable sources by creating variations of light throughout the room, and by
reducing areas of shadow. To achieve this, use several luminaires rather than a
single luminaire; wall -mounted uplights are a good choice because they are
design -neutral and can be repainted. For high-end properties, linear fluorescent
cove lighting and other forms of concealed lighting may increase marketabilil
People like to control the appearance of their rooms; prMovidin spa 'fe
switches for each luminaire will make the space more %ra,veTo t9�ntts nd=will allow them to reduce their energy use.Although occupant sensors can be sedn i ��g aceere are limitations in
those living spaces where ieop
�e e�ecte to St still for long periods of time
and not move arrid, er�¢ng o p t.;eiSor activated, resulting in lights
going off prem rely. U
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Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt
Residential Lighting — Mandatory Measures
Outdoor Lighting
§lWk)6
Outdoor lighting attached to a building must be high efficacy, or controlled by a
motion sensor with integral photocontrol. Motion sensors used in conjunction
with outdoor lighting luminaires should have the capability of turning the lights on
automatically. Lighting around swimming Is, Vater, features, or other
locations subject to Article 680 of the Califoia Code are exempt.
Section 119 (b) require ontfLde s, i cludin o ' n sensors and
photocontrols, to ha a ndi at vi ly or audibly informs the operator
that the controls a ng o at they have failed or
afuncti ,fid. ligh mi ge (LED) status signal is typically used to
ti et his U1 a he ED status signal is also practical for use as a
M 10 tobt. Another option is to use the lamp in the luminaire as the
t tus I, as long as the lamp fails in the off position. The intention of this
req irement is that if the photocell or motions sensor fails the luminaire will not
tum on until the control is fixed.
Amalgam CFLs perform better at both very high and very low temperatures than
non -amalgam versions, so are appropriate for outdoor lighting, although they
can take a few minutes to'reach full output. If instant start is important and
temperatures may be low, specify a cold -weather -rated ballast. Alternatively, an
incandescent source (fitted with a combination photocontrol/motion sensor) may
be a good choice.
Decorative landscape lighting that is not permanently attached to bui�i iis�
regulated by the Standards. Even though it is not req �ed by�jh Sta�
using a time clock or photocontrol on outdoor lighting t atxOc�ed t6til 99
will help to prevent people accidentally leaving these' lii§ s 6mdUJ-gg�tiae day
and reduce energy use.
i � UU
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♦VVVVVV
Title 24 2005 Building Energy Efficiency Standards Residential Manual Except
Residential Lighting — Mandatory Measures
Residential Manual -On Occupant Sensors
In bathrooms, garages, laundry rooms, and utility rooms, manual -on / automatic -
off occupant sensors are allowed as an alternate compliance option to high
efficacy lighting. Manual -on / automatic -off occupant sensors automatically turn
lights off if an occupant forgets to turn them off when a room is unoccupied.
Additionally, these sensors should readily k}ovi " occupant with the option
of turning the lights off manu lly upon leaving tem. This option should be
available without having re�ove s 'tchpla e_or ny other modifications to
the sensor. The ma I fe ul cri ' I because it provides the occupants
with the flexibility tro he i htin� environment to their satisfaction, and
r�lts irr,��rierg �s�vi s by allowing the occupants to tum off the lights
arit_'s€n's6rs must be "manual -on", i.e., the sensors must not have the
bili o tum the lights on automatically and must not have a setting that can
leave the lights in a permanent -on position. If a manual -on occupant sensor has
an on/off switch to put the sensor into a temporary programming mode, the
on/off programming switch must automatically switch off (for example, within 15
minutes) in the event the end user or installer leaves it in the programming
mode.
Some models of occupant sensors have the capability to be changed by the
occupant to "automatic -on" by removing the switchplate or touchplate and
changing switch settings. These occupant sensors are acceptable aslong as
the mechanism to switch settings is not visible to the occupant, cannot e 1 'I
accessed without the removal of a switchplate or touchplate a s tos-
they
are delivered to the building site and installed with Vthe" ua A-'-sttiOccupant sensors usually have built-in swi the oall, w djustment of
the time delay between the last senor ccu n�i and en the lights are
turned off. This built-in dela us r30 nute� I r I s. Occupant sensors
must meet the var6,ys, re ire n�s�of s ,�r`i'119 (d); most commercially
ome od' pan en�,h�ve'"minimum load requirements. For example, an
'dant nso ay require that bulbs rated over 25 watts be installed before
Oe seer .,so ill work. However, if an occupant later installs a screw-in compact
?ent lamp that is rated less than 25 watts, the sensor will no longer work
I is critical to select a sensor that has a low enough minimum load requirement
to accommodate however small a load the occupant may install into the socket.
Another solution would be to install an occupant sensor that does not have
minimum load requirements.
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Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt
Residential Lighting — Mandatory Measures
The sensors that have a minimum load requirement are typically the ones that
are designed to operate without a groundwire in the switch box which were
common wiring scheme in the older residential units. Commercial grade
sensors and all other sensors that are designed to take advantage of the
groundwire in the switch box typically do not have a minimum load requirement
and are the preferred choice to meet the rCtc irZZO, s of the Standards.
If you are trying to control a lighting fi to fromifferent switches you will
want to use a ceiling oGhtedath a wall occupant sensor. For
example, if you are $ ng t co rol t e lio ng in a hallway with a switch at
each end of the �r a II tun occupant sensor will not work.
esi it at
O o alternate options to high efficacy lighting in rooms other than
kitchens, bathrooms, garages, laundry rooms, and utility rooms is the use of
dimmers.
It is important to correctly match the dimmer with the type of lighting load that is
being dimmed. Failure to correctly match the dimmer with the electrical lighting
load may result in early equipment failure, including the dimmer, transformer,
ballast, or lamp.
Dimmer manufacturers typically offer three basic types of incandescent
dimmers: Line voltage (120 volt), low -voltage for use with a magnetic
transformer, and low -voltage for use with an electronic transformer. Li e-olt e
incandescent lamps, including tungsten -halogen lam%, can easily b �rr�Ai�d
over their full range of output with voltage control or ph a (e �tr'SG nl" e:)
dimmers. Tungsten -halogen lamps can be dimm th n�`%°��al �✓
incandescent dimmers, generally wit y tial \a��sfderasions. When
dimming a low voltage load, ibn corn n s are '1 equired in the dimmer
to avoid overh ting s er. WL_h separate requirements for 120 -volt
and low-voltag ihn4r a� t, he h t concern with transformers.
I flu, la s a s or greater, with electronic ballasts, and meeting
mi i um m s per watt already comply with Standards. Even though high
efficac uorescent lamps with electronic ballasts do not require dimmers to
eft tandards, dimmers are permitted to be used with fluorescent lighting
systems. Most fluorescent lamps cannot be properly dimmed with the same
simple wallbox devices typically used for dimming incandescent lamps. A
special control and dimming ballast must be used. Some types of screw-in
compact fluorescent lamps with integral ballasts can be dimmed by simple
controls. However, many screw-in compact fluorescent lamps cannot be
dimmed at all.
Madlin s
enterprises
Catherine M. Madlin, Certified Energy Analyst W 760-322-5004 / 323-3644 Fax
Post Office Box 1443 v' Palm Springs, CA 92263-1443 W Cmadlin@aol.com .......
Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt
Lighting Mandatory Measures
Light Fixtures and Recessed Equipment
§950(k)5
Luminaires recessed in insulated ceilings can create thermal bridging through
the insulation. Not only does this deg radWe >sr`iarmance of the ceiling
assembly, but it can also permitco nsation na-c Id surface of the luminaire
if exposed to moi ai�s IQ b roo
For these reasona„ um air re ed �in insulated ceilings must meet three
requirement .'
ust be approved for zero clearance insulation cover (IC)
y Underwriters Laboratories or other testing/rating laboratories
recognized by the International Conference of Building Officials.
This enables insulation to be packed in direct contact with the
luminaire. (See Figure 3-11.)
• The luminaire must have a label certifying air tight (AT)
construction. Air tight construction means that leakage through
the luminaire will not exceed 2.0 cfm when exposed to a 75 Pa
pressure difference, when tested in accordance with ASTM
E283.
• The luminaire must be sealed with a gasket or caulk betweq�
the housing and ceiling. For more information seeon
of this manual. p MD
Type ted tur5,veM' with a 'fled & te
C max ei o
O
O 1 110 O O
Gasket between fixture
and gypsum board
or sealant around opening
Figure 3-99 - IC -Rated Light Fixture
Mad(inY S
Catherine M. Madlin, Certified Energy Analyst W 760-322-5004 / 323-3644 Fax ente�pnses
Post Office Box 1443 w Palm Springs, CA 92263-1443 W Cmadlin@aol.com .......
Title 24 2005 Building Energy Efficiency Standards Duct Insulation Table
Reproduced From CMC Section 605
Table 4-4 — Duct Insulation Requirements
INSULATION R -VALUE
MECHANICALLY
HEATING
INSULATION R -VALUE
DUCT LOCATION 1
COOLED
ZONE
HEATING ONLY
On roof on exterior building
6.3
< 4.50D DD
2.1
<8000DD
4.2
Attics, garages, and crawl spaces
2.1
< 4,500 DD
2.1
<8000DD
4.2
In walls 2 and within floor to ceiling spaces 2
2.1
< 4,5D0 DD
2.1
<8000DD
4.2
Within the conditioned space or in basements;
None Required
None Required
return ducts in air plenums
Cement slab or within around
None Required
None Required
I Vapor barriers shall be installed on supply ducts in spaces vented to the outside in geographic areas where the average July, August
and September mean dew point temperature exceeds 60 degrees Fahrenheit.
2 Insulation may be omitted on that portion of a dud which is located within a wall or a floor to ceiling space where:
a. Both sides of the space are exposed to conditioned air.
b. The space is not ventilated.
a The space is not used as a return plenum.
d. The space is not exposed to unconditioned air.
Ceilings which form plenums need not be insulated.
NOTE: Where ducts are used for both heating and cooling, the minimum insulation
shall be as required for the most restrictive condition.
Source: Uniform Mechanical Code 05
Madli s
Catherine M. Madlin, Certified Energy Analyst W, 760-322-5004 l 323-3644 Fax enterprises
Post Office Boz 1443 W Palm Springs, CA 92263-1443 v' Cmadlin@aol.com .......
Title 24 2005 Building Energy Efficiency Standards Excerpt
HVAC Ducts - Mandatory Measures
(in) Air -distribution System Ducts, Plenums, and Fans.
1. CMC compliance. All air -distribution system ducts and plenums, including, but not limited to, mechanical
closets and air -handler boxes, shall be installed, sealed and insulatq to meet the requirements of the CMC
Sections 601, 602, 603, 604, 605 and Standard 6-5, incorporated lein b-Tefefence. Portions of supply -air and
return -air ducts and plenums shall either be insulated to a minimum mst r ie1 ed!vel�of RA.2 (or any higher level
required by CIVIC Section 605) or be encl edarely ' rtdd' t ned space. Co ections of metal ducts and the
inner core of flexible ducts shall be c abl, t . Op gs sha�aled with mastic, tape, or other
duct -closure system that meets thea icab a req ' e of U) 81, UL 181 A or UL 181 B or aerosol sealant
that meets the requirements of If tic o pe to seal openings greater than 1/4 inch, the
comb►na njf m ei r mesh tap all used.
ilding taP�ties, �i r'�ir handlers, and plenums defined or constructed with materials other
t eal sh t I, oar or flexible duct shall not be used for conveying conditioned air. Building
I ' Ilst o tPorms may contain ducts. Ducts installed in cavities and supportt platforms shall not be
to se reductions in the cross-sectional area of the ducts.
EEPTION to Section 150 (m)1: The requirements do not apply to ducts and fans integral to a wood beater
or fireplace.
2. Factory -fabricated duct systems.
A. All factory -fabricated duct systems shall comply with UL 181 for ducts and closure systems, including
collars, connections, and splices.
B. All pressure -sensitive tapes, heat -activated tapes, and mastics used in the manufacture of rigid fiberglass
ducts shall comply with UL 181.
C. All pressure -sensitive tapes and mastics used with flexible ducts shall comply with DULL 181 UL ,1 B.
D. Joints and seams of duct systems and their components shall not be seal th I(uh baq retesive
duct tapes unless such tape is used in combination with mastic an �..�/�
0
Madfin'
enterprises
VVVVVVV
Title 24 2005 Building Energy Efficiency Standards Excerpt
HVAC Ducts - Mandatory Measures
3. Field -fabricated duct systems.
A. Factory -made rigid fiberglass and flexible ducts for field -fabricated duct systems shall comply with UL 181.
All pressure -sensitive tapes, mastics, aerosol sealants, or other closure systems used for installing field -
fabricated duct systems shall meet the applicable requirements of UL 181, UL 181 A, or UL 181 B.
B. Mastic sealants and mesh.
L Sealants shall comply with UL 181, UL 181 A, or UL 18toxic and water resistant.
ii. Sealants for interior applications shall C3 tested in - rdance . MUNM, C 731 and D220Z
incorporated herein biiL
/1 C
iii. Sealants for exterior \ ac 4 ance with ASTM C 731, C 732, and D 2202,
incorporated herein b
iv. SQnts atad tre$'�ltes or use.
• �ress�4nsit,�Npre�. su Sensitive tapes shall comply with UL 181, UL 181A, or UL 18113.
?o t4 end�sam� o`i duct systems and their components shall not be sealed with cloth back rubber adhesive
du='esssuch tapeisused in combination with mastic and drawbands.
E. ds used with flexible duct.
i. Drawbands shall be either stainless-steel worm -drive hose clamps or UV -resistant nylon duct ties.
ii. Drawbands shall have a minimum tensile strength rating of 150 pounds.
iii. Drawbands shall be tightened as recommended by the manufacturer with an adjustable tensioning tool.
F. Aerosol -sealant closures.
i. Aerosol sealants shall meet the requirements of UL 723 and be applied according to manufacturer
speci fications.
ii. Tapes or mastics used in combination with aerosol sealing shall meet ft requQ eats o /ion
4. All duct insulation product R -values shall be based on insulation only (excl in ' ' fil s va Fera r
other duct components) and tested C -values at 75°F mean temperature at vi taa I d thi e in accordance
with ASTM C 518 or ASTM C 177, incorporated herein by an rtifi urs"uant to Section 118.
� //�� _ v
5. The installed thickness of duct insulation used to d'=rfiine ' § R sha&be determined as follows:
A. For duces and, duct liner, rp ducts normally subjected to compression, the nominal
insulatio thickness i ed v
B. Ct wrap, % - tallea ckl}ts5hali assumed to be 75 percent (25 percent compression) of nominal
` th L.'�
C. Fo dory ade exible air ducts, the installed thickness shall be determined by dividing the difference
be actual outside diameter and nominal inside diameter by two.
6. Insulated flexible duct products installed to meet this requirement shall include labels, in maximum intervals of 3
feet, showing the thermal performance R -value for the duct insulation itself (excluding air films, vapor barriers,
or other duct components), based on the tests in Section 150 (m) 4 and the installed thickness determined by
Section 150 (m) 5 C.
7. All fan systems, regardless of volumetric capacity, that exhaust air from the building to the outside shall be
provided with backdrafl or automatic dampers to prevent air leakage.
Madhn'
enterprises
♦VVVVVV
Title 24 2005 Building Energy Efficiency Standards Excerpt
HVAC Ducts — Mandatory Measures
8. All gravity ventilating systems that serve conditioned space shall be provided with either automatic or readily
accessible, manually operated dampers in all openings to the outside except combustion inlet and outlet air
openings and elevator shaft vents.
9. Protection of Insulation. Insulation shall be protected from damage, including that due to sunlight, moisture,
equipment maintenance, and wind but not limited to the following: Insulation exposed to weather shall be
suitable for outdoor service e.g., protected by aluminum, sheet metal, painted canvas, or plastic cover. Cellular
foam insulation shall be protected as above or painted with a coating that is water retardant and provides
shielding from solar radiation that can cause degradation of thenenal.
10. Porous Inner Core Flex Duct Flexible ducts having porous 6ulerces sC,�j�notbe used
p �1
TABLE 150-A PIPE IIVSULATIONVC ?7YN c -
FLUID TEAIP�E64TURE NNE ("F UL T ON M RATING
I IPERA71tRE (°F)
CONDUCTIVITY RANGE (Btu -inch per hour
per square foot per °F)'
50 150
0.27-0.30
10 L� t00
0.24-0.28
below 10 U 75
0.23-0.27
' ins ' n duaivity shall be determined in accordance with ASTM C 335 at the mean temperature listed in TABLE 150•A, and shall be rounded to
then rest 1/100 Btu ----- .— hour per square foot per -F.
TABLE 150-B PIPE MULA770V MINIMUM THICKNESS REQUIREMENTS
SVSTEAI
PIPE DIAMETER
Less than or Equal to 2 inches Greater than 2 inches
INSULATION THICKNESS REQUIRED (in inches)
Domestic hot water (above 105°F)
1.0 1.5
Hydronic heating supply tines (above 200°F to 250°F)'
1.0 2.0
Hydronic heating supply lines (105`F to 20(rF)
1.0 1.5
Cooling system refrigerant suction, chilled water and brine lines
0.75 .0 /� L
'Steam hydropic hearing systems or hot water systems with pressure above IS psi shall meet the requ' tt of�i E 12
mar*
in s
Catherine M. Madlin, Certified. Energy Analyst 1v 760-322-5004 / 323-3644 Fax enteYprises
Post Office Box 1443 w Palm Springs, CA 92263-1443 v' Cmadlin@aol.com .......
Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt
Installation Certificate
Construction Phase Documentation (CF -6R)
§10.103(a)3 end 4
The installation certificate, CF -6R, is completed during the construction phase of
the compliance and enforcement process. ThA CF -6R is really several
documents in one. The documents are comped a contractors responsible
for installing the windows (fene*ration),jhe air distrrbuttpducts and the HVAC
equipment, the measur s t aff t di envelopec,htness, the lighting
system, and the insula i n.
The CF -6R is sig y ,\arijs ins all
H C stems. The contractor who installs mechanical
quipment signs this part. Heating and cooling equipment are
listed and the energy efficiency, capacity, design loads and
other properties of each piece of equipment is documented.
• Water Heating Systems. This part includes information about
the water heating equipment installed in the building, including
model number, energy efficiency, tank size, input rating and
other properties. The installer also verifies that faucets and
shower heads are certified and comply with the appliance
standards.
• Fenestration/Glazing. This part includes a list of all windows
installed in the home. For each, the U -factor, SHGC, 15
aj�
number of panes, and number of windows of ' p�i��►e
building are indicated. This section i , i ori fet�r
that installs the windows.
• Duct Leakage an Desi Dias . s. Th part is signed by
th contr es nsibl for 'n talli g the HVAC air distribution
d gni Sri 'n `fat th ply with the leakage
eq a ts. �� thts form�the contractor includes the results of
iag�sts, which will later be verified by a third -party
pe or (HERS rater).
• Refrigerant Charge and Airflow Measurement. This part is
signed by the contractor responsible for verifying that split
system air conditioner and heat pumps have the correct
refrigerant charge. This form contains diagnostic data that are
later verified by a third -party inspector (HERS rater).
• Duct Location and Area Reduction Diagnostics. This part is
completed and signed by the contractor who installs the HVAC
air distribution ducts. It verifies the location of the ducts and/or
includes information on duct location. This form is used only
when the default duct area is not assumed.
Madfin'
enterprises
YYYVVVV
Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt
Installation Certificate
• Building Envelope Leakage Diagnostics. This part is completed
by the contractor responsible for testing building envelope
leakage through pressurization of the house. This form contains
test results that will later be verified by a third -party inspector
(HERS rater).
• Insulation Certificate. T 4 paompleted and signed by the
contractor responsible foY int "Rin the insulation. This indicates
them ufarcturgr rreo, and I properties of insulation
inAallq� in to rq�f, cg- ng, wa t , and floor.
• ati6h Q681itykGhecklist. This part is completed and signed
by t in6lation contractor when credit is taken for quality
O ion installation. This is later verified by a third -party
inspector (HERS rater). Credit for quality insulation installation .
is new with the 2005 standards.
• Lighting Systems. This part is completed and signed by the
contractor responsible for installing hard -wired lighting systems.
Persons signing these CF -6R forms are verifying that the installed efficiencies or
requirements meet or exceed those used for compliance with the standards as
shown on the CF -1 R. The CF -6R must be posted at the job site in a
conspicuous location (e.g., in the garage) or kept with the building permit and
made available to the enforcement agency upon request.
When field verification and/or diagnostic testing is required for a ht e
builder shall provide a copy of the CF -6R to the HERS p Vidtr a e
building department upon request.
Information from the CF -6R is inclu ed th' `hom wrfeTs anual (see
below). This provides the horsewith foir atio ''about energy efficiency
features instal in i m
Madl(m s
Catherine M. Madlin, Certified Energy Analyst v' 760-322-5004 l 323-3644 Fax enterphses
Post Office Box 1443 `► Palm Springs, CA 92263-1443 W Cmadlin@aol.com .......
Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt
HVAC Systems — HERS Verification
Field Verification and/or Diagnostic Testing
i The HERS rater may visit the site to compplete heating and cooling system
portions of the Certificate of Field Verifican iagnostic Testing (CF -4R).
There are several sections pf this f at relate toeating and cooling. The
following require fl d vL ificat�on d di nosti #i�ig if they are used in the
proposed design If!
o �liar� e:
• Du in ndi ' ned space
ODesign
• Diagnostic supply duct location, surface area, and R -value
(including buried ducts)
• High efficiency air conditioner EER
• Refrigerant charge or TXV
• Forced air system fan flow/adequate airflow
• Air handler fan watt draw
• Verified maximum cooling capacity
• Verified duct leakage. 0 (�5 Is
Field verification is necessary when credit is taken fWherr5leas rMVJ/
example, maximum cooling capacityneed only if='RS ven ie
cooling capacity was used to achiev , e pro4e&� ign
Madlin s
Catherine M. Madlin, Certified Energy Analyst W 760-322-5004 / 323-3644 Fax entopises,
Post Office Box 1443 W Palm Springs, CA 92263-1443 W Cmadlin@a.ol.com .......
Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt
HERS Rater
HERS Rater
The HERS rater is a person certified by an Energy Commission -approved HERS
provider to perform the necessary field ve 'fcation and diagnostic testing
required for demonstrating compliance withShe tan ards. HERS raters have
special training in diagnosticchniq nd bu 1� fence and are capable of
identifying problems hil� the o is 21,
under¢or�struction. As long as the
documentation authors a . m yeee ,f the builder or subcontractor whose
work they are ve , th ca Is act as the HERS rater.
V'viider
, HE�er ' re si a for completing and signing the field verification
r d' n is ing certificate (CF -4R).
HER
i r ! "1121M, M",
ce
ffail
The HERS provider is an organization that the Energy Commission has
approved to administer a HERS program. The provider has responsibility to
certify and train raters and maintain quality control over field verification and
diagnostic testing required for compliance with the standards. In Calif ,
currently certified HERS providers are California Home very iii y
System (CHEERS) and California Certified Energy Ratti es ing rvi
(CaICERTS).
0
0
Catherine M. Madlin, Certified Energy Analyst '- 760-322-5004 / 323-3644 Fax
Post Office Box 1443 W Palm Springs, CA 92263-1443 - Cmadlin@aol.com
Madins
entoprises
vvvvvvv
Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt
HVAC Systems - TXV
Thennostatic Expansion Valves
Option 1: TXVs may be used as an alterna(e to dia nostic testing of the
refrigerant charge in split system air conditio��ng 'd -heat pumps. TXVs are
used in air conditioners or heat- um s o-..ontrol �' of refrigerant into the
p 9
evaporator in respon t e s at he refo ger rpt leaving it. The valve is
placed upstream fro a ap to1 let d is connected to a temperature -
sensing bulb. As eo era t leaves the evaporator, the TXV senses
it�empe d pr ur nd djusts the flow rate to maintain proper
Ndofitior�s ib s must provide a removable door for valve verification
�er� ed R rater. An access door (or removable panel) is not required if
e/ a readily accessible location. Readily accessible means capable of
ing reached quickly for operation, repair, or inspection, without requiring
climbing or removing obstacles or resorting to access equipment. The body of
the TXV can be anywhere that is warmer than the location of the sensing bulb
(including outside the plenum). It is preferable that the refrigerant manifold be
close to the TXV body.
Option 2: Visually verify that a sensing bulb is running from inside the unit and
that it is visible outside of the unit. You do not need to open the unit to complete
this verification. Please note that the sensing bulb will be attached to the suction
line and should be covered by insulation. You will need to verif&the s' uby either removing sufficient insulation to see it or by feeLtrOption 3: This option is designed to allow a rater to mi
manufacturer's nameplate data. To use this ion %e slapse
completed. �\
Step One: Obse that f a i�'ular sndaidd model that the manufacturer
has installed a TW ism accomplished by the air
Sir�bu r or stat Q to ng thver off of one unit per subdivision
rat t a ' TXV has been installed.
tepine that the manufacturer's nameplate on the coil indicates
Mat been factory installed. The rater may ask for clarification of the
feplate information from the distributor.
Step Three: Verifythat.the nameplate information on each unit being inspected
indicates that a TXV has been installed in that unit.
Madlin s
Catherine M. Madlin, Certified Energy Analyst V, 760-322-5004 / 323-3644 Fax enterprises
Post Office Box 1443 W Pa.hn Springs, CA 92263-1443 W Cmadlin@aol. conn .......
Title 24 2005 Building Energy Efficiency Standards Residential Manual Excerpt
HVAC Systems — Verified EER
High Efficiency Air Conditioner
Air conditioner designs are available with effici t�ciesfqivalent to a SEER up
to 18.0, which is significantly better than the minniurhfed ral efficiency of SEER
10.0 (or 13.0 starting January , 2006)..5 �v�'s caVee hieved by choosing
an air conditioner that exce s mi m %cienirements.
The EER is the full load re c at s operating conditions. It is possible
that two i s w' -t ' ' e S,�, Scan ave different EERs. Using the
P ma co i� method, credit is available for specifying an air
colon j�-r h n greater than 10 (see the compliance program vendor's
co �liai� supplement). When credit is taken for a high EER, field verification
by a ERS rater is required (see Annendix RI in the Residential ACM Manual).
Madlin s
enterprises
Catherine M. Madlin., Certified Energy Analysl . 760-322-5004 / 323-3644 (fax) .... ®v
0
Manufacturer's Specifications
Installation Instructions
APA -The Engineered Wood Association Performance Rated Panels
Wood Truss Roof System
3/4' min. air space
i E
r-`
Roofing
Insulation
TechShi
Stay cooler. Save energy.
Vaulted Roof System
3/4' min. air space
TechShield® sheathing,
foil facing down
3/4° min. air space
ROOF SHEATHING INSTALLATION
These nine steps are necessary:
1. Always check for uniform raker alignment.
2. Provide adequate roof ventilation according to building code
in your area.
3. Panel spacing on ends and edges should be 1/8"
4. Place TechShield`rm radiant barrier sheathing panels with the foil side
Facing down on the roof, (toward the attic air space).
5. Fasten the panels a minimum of 6" on center at supported panel ends
and edges, and 12" on center at intermediate supports;
8d nails are recommended.
6. Protect TechShield panels from moisture prior to and
during installation.
7. Use shingle underlayment (or #15 roofing felt) to cover roof as soon as
possible to protect panels from exposure to adverse weather conditions.
Use #30 roofing felt if construction delays are anticipated.
8. Allow sheathing to adjust to atmospheric conditions before shingle
installation. Heavier weight or textured shingles are recommended over
lightweight fiberglass shingles.
9. Install all panels with APA, LP and TechShield sheathing trademarks
DOWN.
TechShield sheathing can be used as a radiant barrier on gables and walls to
reduce solar gain in these areas. This is particularly true for southern exposure
exterior home surfaces that can absorb heat from prolonged exposure to the
sun.
LP and TechShield (U.S. Patent No. 5,281,814) are registered trademarks of Louisiana-Pacific Corporation.
0
2003 LouisianaPacific Corporation. All rights reserved. Printed in USA.
TS85071N 03/03 tsii 3103 20m pg
GABLE INSTALLATION
Using TechShield sheathing in this application will add to the benefits associ-
ated with utilizing TechShield sheathing in roof sheathing applications.
As with the installation of TechShield sheathing on roofs, it is important that
the TechShield sheathing is installed with the foil side facing into the attic.
WALL INSTALLATION
In a brick wall application, TechShield sheathing's foil surface should face the
exterior of the home (out). This gives TechShield sheathing the required air
space between the brick and the wall.
In a siding application, TechShield sheathing's foil surface should face the
exterior of the home (out). Use furring strips to create a separation between
the foil and the siding. This gives TechShield sheathing the required air space
between the siding and the wall.
TechShield Radiant Barrier Sheathing should not be substituted as a house -
wrap as it does not work as a vapor barrier. Refer to local building codes for
specifics on housewrap requirements.
LP
Specialty Products
eShield®
Stay cooler. Save energy.
nis mble is 6om the "APA DesignlGonamaion Guide"
Installation Instructions
Store TechShield® radiant barrier sheathing panels in a dean, dry area. Do not store
in direct contact with the ground. Protea TechShield radiant barrier sheathing from moisture prior to
and during installation. Outside storage, if necessary, requires panels to be covered with plastic sheets ,
or tarpiulins with the sides loosely covered to provide adequate air ventilation. '
Handle TechShield radiant barrier' sheathing panels as you would other APA -rated LP sheathing panel
products. Be careful not to drop on comers or crush panel edges. Keep panels well supported and
neady stacked to prevent warping. Use caution to avoid damage to the radiant barrier foil surface.
Radiant barriers may interfere with artic-mounted antenna reception
Temperature studies are available from LP upon request.
INSTALLATION r
For best results on installation, follow installation instructions carefully. TechShield radiant barrier
sheathing panels are an engineered wood product, subject to wood's inherent qualities of natural
expansion and contraction resulting from changes in moisture content and temperature.
For more information call our customer service team at 800450-6108.
J
Lp.
Specialty Products
Stay cooler and use less -energy with
TechShiel& radiant barrier sheathing.
MOT aecx
• Heat builds up in attic
• Heat transfers to living area
• Lower -and lower settings are required to
achieve comfort level
• Energy usage climbs
aluminum layer, prevents up to y// of
the radiant heat in the panel from radiating
into the attic
• Attic temperatures are reduced by
as much as 30°
• Less heat transfers to the living space
• Energy usage is reduced
• Value of home may increase
Energy Consumption Comparison
a 9 NIMMI MW
moll INIMMM
This A/C run time
information is based on
independently verified
studies. Actual run time
in homes using
TechShield will vary.
E 0 570 Total run
time to
489 minutes
12:24 pm 2:00 pm 4:00 pm 6:00 pm 8:00 pm 10:00 pm
Without TechShield ®® Air conditioner run time without TechShield
With TechShield Air conditioner run time with TechShield
TechShield radiant barrier sheathing is
an easy, cost-effective way to upgrade
a home, increase its energy efficiency in
hot weather climates and/or create a
more comfortable living environment.
Consumers view TechShield
as an energy -wise investment.
Consumers have made it clear that they
are willing to pay extra for energy-efficient
upgrades. They see TechShield's benefits
as an indicator of building quality that
will increase any home's value. That
means homes built with TechShield have
an extra selling advantage in a
competitive marketplace.
Here's
why it
works
Aluminum is a great
..
conductor, but is an even greater � _ i71;,
`I ul
reflector. The thin aluminum sheet
laminated to the sheathing has a property called "low
emissivity° that blocks or reflects back all but up to
3% of the heat transmitted down through the
sheathing by conduction. The lower the emissivity of
a material, the better it blocks heat. The emissivity
of TechShield radiant barrier is <_ 0.05, which is very
effective. Unlike other radiant barriers, TechShield
is thefzrstpatented, laminated radiant barrier system.
Its design uses tiny patented incisions in the aluminum
to allow the panel to acclimate faster at your job site.
You get outstanuiing panel performance with
TerhShield that makes your homes stand out.
F L E E T W 0 0 D Windows & Doors
Page I of I
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FLEETWOOD
0.84
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0.6874
0.63705
14 SGD,
114-3/16"
seits. 3000
0.84
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Simidard Sizes
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Q.1n i
0.72
0.6874
NERCProduct. Ratings_3000
15 SGD
3116-3116'
none(Clear)
0.84
Sid
ARGON
False
0.73
0.72
0.6874
0.637056
16 SOD
3/16 - 3/16"
Glass sorted by Product Type. then ]OWCS1 (ninsl energy efficient) U -values first!
0.84
std
AIR
-UVllu-,--,
Type Glass_ I U.VW.e I[-
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--- 1
SHGC IF-s,-c;c [
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0.6874
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1/4 - 1/4'
none (Clear)
0.94
I SGD
3116-3/16"
Heal MirfitSC75 0.052 std ARGON False
.0.55
0.53
0.35392
0.344496 1
2 SOD
3116 -1/4"
Beat MirriTSC15 0.02 std ARGON False
0.56
0.54
0.35392
0144496
3 SGD
3/16 - 114"
Heat Whir SC75 0.052 std ARGON False
0.56
0.54
0.35392
0.344496
4 SGD
3/16. 3116"
Low E/Solarban M 0,041 std ARGON False
0.57
0.55
0.37408
0.364948
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0.57
0.55
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0364848
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Low E/Solarban 60 0.043 std ARGON False
0,57
0.55
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0.364848
7 SOD
3/16 3116"
Heal Mirrir SC75 0.052 std AIR False
0.59
0.57
0.35392
0.344496
8 SOD
3/16 • 1/4"
Heal Minir SC75 0.052 std AIR False
0.6
0.58
0.35392
0.344496
9 SOD
3/16 -1/4"
Heal Krrir SC75 0.052 std AIR False
0.6
0.58
0.35392
0344496
10 SGD
3/16 3/16"
Low E/Solarban 60 0.043 std AIR False
0.61
0.59
0.37409
0.364848
11 SOD
114 -1/4"
Low FJSolarb- 60 0.043 std AIR False
0.61
0.59
0.37408
0.364848
12 SOD
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Low E/Solarban 60 0.043 std ADL False
0.61
0.59
0.37408
0.364848
)3 SOD
1/4 - 1/4"
none (Clear)
0.84
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ARGON
False
0.73
0.72
0.6874
0.63705
14 SGD,
114-3/16"
none(Clear)
0.84
rid
. ARGON
False
0.73
0.72
0.6874
0.637056
15 SGD
3116-3116'
none(Clear)
0.84
Sid
ARGON
False
0.73
0.72
0.6874
0.637056
16 SOD
3/16 - 3/16"
none (Clear)
0.84
std
AIR
False
0.75
OM
0.6874
0.637056
17 Sm
1/4 - 1/4'
none (Clear)
0.94
std
AIR
False
0.75
0.73
0.6874
0.637056
IS SGD
114 - 3/16"
none (Clear)
0.84
aid
AIR
False
0.75
0.73
0.6874
0.637056
http://www.fleetwoodusa.r-om/index.htm
9/24/2003
indows & Doors FLEETWOOD, W Page I of I
http://www.fleet.woodusa.r-om/index.htm 9/24/2003
FLEETWOOD
11ollic III-oducls FacloryRups
Find a Local
Deala
Dealers Pa.-C(c)
li.op.omI01hei-Links.1
Series: 530
o(jenara) infimnatinn
os'paificalions
0 CAD Details
Q
Standard Sizes'
Select.
NFRCTI-Oduct
Rafings.ppir Class
530
pe:
Glass sorted by Product Type, then lowest (most
enervefficieno U -values first!
Coatingi
l M.
3/16 - 3116"
Heat Nfirrir SC75
0.052
std
ARGON
False
0.3
028
0331817
0.326464
2 M
3116 - 114"
Hem Mrrit SC75
0.052
Sid
ARGON
False
0.3
0.28
0.331917
0.326464
3 M
114 - 114"
lical hunir SMS
0.052
std
ARGON
False
0.3
026
0.331817
0.326464
4 Ml)
DS - DS"
Heat Krrir SC75
0.052
std
ARGON
False
03
028
0.331817
0326464
5 m
DS - DS"
Hui 16TAT SC75
0.052
Sid
AIR
False
033
0.3)
0.331817
0326464
6 FXD
3/16 - 3/16'
Heat Knir SC75
0.052
Sid
AUL
False
0.33
031
0.331217
0326464
7 m
114 - 1/4"
Heat Kir SC75
0.052
std
AM
False
0.33
0.31
0.131817
0.326464
8 F)a)
1/4 - 114'
Hem Krrir SC75
0.052
aid
AIR
False
0.33
0.31
0.331817
0.326464
9 m
DS - DS"
Heat KEnir SC75
0.052
Sid
ARGON
False
035
034
0.331817
0.326464
10 F)a)
3/16 - 114"
Heat Knir SC75
0.052
std
ARGON
False
0.35
0.34
0.331817
0.326464
11 FXD
3/16.3/16"
Heat Knir SC75
0.052
std
ARGON
False
0.35
0.34
0.331817
0.326461
12 F)a)
1/4 - 314"
Jim Knir SC75
0.052
sid
ARGON
False
0.35
0.34
0.331917
0.326464
13 F)M
1/4 - 114"
La. EfSolwban 60
0.043
std
ARGON
False
0.38
0.36
0.352433
0.347632
14 FXD
3116 - 3/16'
La. ElSolwbam 60
0.043
std
ARGON
False
0.38
0.36
0.352433
IJj
0.347632
is F)M)
DS - DS*
Heat hfinir SC75
0.052
std
AIR
False
0.39
0.38
0.331817
0.326464
16 FXD
3116 - 3/16'
Heat Minir SC75
0.052
std
MR
False
0.39
038
0.331817
0.32,64-
17 FXD
3/16 -IA"
Hemi Knir SC75
0.052
std
AIR
false
0.39
0.38
0.331217
0.326464
Is FM
1/4-t/4"
Heat Keir sc?s
0.052
std
AIR
False
0.39
0.38
0.331817
0326464
19 FXD
DS - IDS"
nom (0car)
0.84
std
ARGON
false
0.4
0.38
0.67294
0.630754
20 FXD
DS - Dr
Low USolarbam 60
0.043
std
AIR
False
CA
039
0352433
0.347632
2) F)a)
3/16-3116"
Lew EfSalarban 60
0.043
std
AM
false
0.4
0.39
0.352433
0.347632
22 FXD
3/16 .114"
Low FiSoluban 60
0.043
std
AIR
False
CA
0.39
0.352433
0.347632
23 I'M
1/4 - 1/4"
Low E/Solubam 60
0.043
bid
AIR
Ms.
CA
0.39
0352433
0.347632
24 F)M
DS - DS"
Low E/Sdub- 60
0.043
std
ARGON
False
0.4
0.39
0.352433
0.347632
25 F)G)
3/16-3/16"
Iaw E/Solban 60
0.043
std
ARGON
us.
0.4
0.39
0.352433
0.347632
26 FM
114 - 1/4"
non. (atax)
0.84
std
AIR
False
0.4
0.38
0.67284
0.630754
27 m
114 - 1/4"
Low E/Solarban 60
0,043
std
ARGON
False
0.4
D.39
0.352433
0.347632
28 FXD
3/16 - 3116"
none (a v)
0.84
Sid
ARGON
False
0.4
0.38
0.6=4
0.630154
29 FXD
114 - 3116"
siout(cleu)
0.84
std
ARGON
False
CA
0.39
0.67284
0.630754
30 m
VS - DS"
none (Clear)
0.84
and
AIR
False
CA
038
0.67284
0.630754
31 FXD
3/16 - 3/16"
nooe(Clw)
0.84
std
AIR
False
0.4
0.38
067284
0.630754
32 FXD
1/4-3/16'
none(Clear)
0.84
std
AIR
False
CA
0.38
0.67284
0.630754
33 M
1/4 - 1/4"
none (Clear)
0.84
aid
ARGON
False
CA
0.38
0.67284
0.650754
34 M
3116-1/4'
Lo. ElSolarban 60
0.043
std
ARGON
False
0.4
0.39
0.352433
0.347632
35 M
114 - 1/4"
Low F/Soluban 60
0.043
std
AIR
False
0A2
0.41
0.352433
0.347632
36 FXD
3116 - 3/16"
Low EfSolarban 60
0.043
std
AIR
False
0A2
CA)
0.352433
0.347632
37 FXD
1/4 - 1/4"
non.(atar)
0.84
std
ARGON
False
0.54
0.53
0.67284
0.63054
38 FXD
31)6-3116"
Dan.(Clear)
0.84
Sid
ARGON
False
0.54
0.53
0,67264
D.630754
39 FXD
DS - DS"
none (Cleo)
0.84
std
ARGON
False
0,54
0.53
0,67284
11,6311714
40 FXD
3116 - 114"
non. (0w)
0.84
std
ARGON
False
0.54
0.53
0.67294
0.630754
41 Fn
114 - 114"
none (Clear)
0.84
std
ARGON
False
0.54
0.53
0.67294
0.630754
42 FXD
3/16-3/16"
non. (aw)
014
std
ARGON
Falm
0.54
OS3
0.67284
0.630754
43 M
DS -DS"
none(Char)
0.84
std
AIR
False
0.56
035
0.67294
0.630754
44 FXD
3/16 - 3/16"
none (pear)
0.84
std
AM
False
0.56
035
0.67284
0.630754
45 M
114 - 114"
non. (CI-)
0.84
rid
AIR
False
0.56
035
0.67284
0.630754
46 M
3/16-1/4"
none(Clear)
0.84
sid
AIR
False
0.56
0.55
0.67284
0.630754
47 M
114 - 1/4"
Done' (Clear)
0.84
std
ADR
pals.
0.56
0.55
0.67284
0.630754 Ir
II
IM, 27-11-7,7,
http://www.fleet.woodusa.r-om/index.htm 9/24/2003