NH USGBC PASSIVHAUS
Nov 01, 2014
NH USGBC PASSIVHAUS
“WE ARE AS GODS AND MIGHT AS WELL GET GOOD AT IT”!
!
!
WHOLE EARTH CATALOG!1968
BRIGHTBUILT BARN: 2008
HARBORVIEW TOWNHOUSES
OUR FIRST CERTIFIED PASSIVHAUS
RANCH REVIVAL: AIA MAINE MERIT AWARD 2012
THE PASSIVE HOUSE BUILDING ENERGY STANDARD
“A rigorous, voluntary building energy standard focusing on the highest
energy efficiency and quality of life at low operating cost.”
PASSIV HAUS INSTITUT
PASSIVHAUS PROJECT OF THE YEAR, 2011
STRAW BALE BIOHAUS
SOLAR DECATHALON WINNER, 2007
SOLAR DECATHALON WINNER, 2009
SOLAR DECATHALON 2ND PLACE, 2009
G•O LOGIC, BELFAST ME
We’re here:
390 ppm
THE HISTORY OF SUPERINSULATEDHOUSES IN NORTH AMERICA
Martin HolladaySenior editor, GreenBuildingAdvisor.com
British Columbia Building Envelope CouncilVancouver, British ColumbiaSeptember 22, 2010
©MARTIN HOLLADAY, GREENBUILDINGADVISOR.COM
1973: THE OPEC OIL EMBARGO
� The OPEC oil embargo caused the price of oil to rise from $3.56 a barrel in October 1973 to $11.65 in January 1974.
� President Nixon declared that the U.S. will achieve energy independence by 1980.
©MARTIN HOLLADAY, GREENBUILDINGADVISOR.COM
1976: THE LO-CAL HOUSE
� In 1976, Wayne Schick at the University of Illinois at Urbana-Champaign developed a design for a superinsulated house that he ����������� �-���������
©MARTIN HOLLADAY, GREENBUILDINGADVISOR.COM
1976: THE LO-CAL HOUSE
� Long axis of the house is oriented east-west.
� Double 2x4 walls (R-30)� R-33 ceiling� Triple-glazed windows� An air-to-air heat
exchanger
©MARTIN HOLLADAY, GREENBUILDINGADVISOR.COM
1977: SASKATCHEWAN CONSERVATION HOUSE
� R-40 walls� R-60 ceiling� Triple-glazed windows� Heat-recovery ventilation� Drainwaterheat exchanger� 0.8 ac/h @ 50 pascals
©MARTIN HOLLADAY, GREENBUILDINGADVISOR.COM
1979: THE WHITE HOUSE GETS SOLAR THERMAL
� On June 20, 1979, Jimmy Carter inaugurated the newly installed solar hot water system on the White House roof.
©MARTIN HOLLADAY, GREENBUILDINGADVISOR.COM
EVERYTHING IS IN PLACE
�So, in 1985, everything is in place: �The research has been done;�There are books and magazines that
provide superinsulation details;�Builders can buy low-e windows, HRVs,
and blower doors.�So what happened?
©MARTIN HOLLADAY, GREENBUILDINGADVISOR.COM
DROPPING THE BALL
� The price of oil dropped from $32 per barrel in 1982 to $11 in 1986.
� In the U.S., President Reagan slashed funding for a variety of energy-efficiency programs established by Jimmy Carter.
©MARTIN HOLLADAY, GREENBUILDINGADVISOR.COM
IGNORED AND FORGOTTEN
�They were hippies and Canadians.
©MARTIN HOLLADAY, GREENBUILDINGADVISOR.COM
1996: FEIST FOUNDS PASSIVHAUS INSTITUT
Dr. Wolfgang Feist:�������� ���������������the first Passivhaus prototype started in 1990. At the time we knew about other similar buildings �buildings made by William Schurcliff and Harold Orr � and we relied on these �������
©MARTIN HOLLADAY, GREENBUILDINGADVISOR.COM
FIRST PASSIVHAUS: DARMSTADT, GERMANY 1990
FIRST US PASSIVHAUS: URBANA, IL 2003
2kW = 80% REDUCTION
!
NET-ZERO LIFE
LOW ENERGY LIFE
REAL LIFE
HOW?
HOW MUCH HEAT CAN YOUR VENTILATION AIR MOVE?
1 WATT / SF !
(3.41 BTU / HOUR / SF)
PEAK HEATING LOAD
≤ 15 kWH / m2 / year!(≤ 4.75 kBTU / square foot / year)
SPACE HEATING ENERGY
2,000 SF HOUSE = !60 GALLONS / YEAR
≤ 120 kWH / M2 / year!(≤ 38 kBTU / square foot / year)
TOTAL SOURCE ENERGY USE
TOTAL SOURCE ENERGY USE
AT THE POWERPLANT
2,000 SF HOUSE = !500 GALLONS!
OR!20,500 kWH
10% BETTER?!20% BETTER?!40% BETTER?
0.6 ACH50!!
AIR CHANGES PER HOUR AT 50 PASCALS (~ A 20 MPH WIND)
BUILDING SHELL AIR TIGHTNESS
LEED-H PLATINUM!NET-POSITIVE (better than Net-Zero!)!!
78 kWH / square meter / year!148 kWH / square meter / year!0.8 ACH50
HEATER
ENERGY BALANCE
33%
33%
33%
PASSIVE!SOLAR
INTERNAL!GAINS
1,500 WATTS = 5,100 BTU / HOUR
1,500 SF PASSIVHAUS HEATING LOAD
2,500 SF PASSIVHAUS HEATING LOAD
(3) $50 = $150
750 W!+!
750 W!+!
750 W
THE PHPP
PHPP 2007, Verification WAL-PHPP-20110121-JT.xlsx
Passive House Verification
Photo or Drawing
Building: wallace residenceLocation and Climate: stuart, VA
Street Address: 127 Rye Cove CreekCity, State, Zip: Stuart, VA
Country: USABuilding Type: Residential
Home Owner(s) / Client(s): David & Liisa WallaceStreet Address:City, State, Zip:
Architect: Kaplan Thompson ArchitectsStreet: 424 Fore Street
City, State, Zip: Portland, ME 04101
Mechanical System:Street Address:City, State, Zip:
Year of Construction: 2010
Number of Dwelling Units: 1 Interior Temperature: 68.0 °F
Gross Enclosed Volume Ve: 43831 ft3 Internal Heat Gains: 0.7 BTU/hr.ft2
Number of Occupants: 8.0
Energy Demands with Reference to the Treated Floor Area
Treated Floor Area: 3020 ft2
Applied: Monthly Method PH Certificate: Fulfilled?
Specific Space Heat Demand: 4.44 kBTU/(ft²yr) 4.75 kBTU/(ft²yr) Yes
Pressurization Test Result: 0.60 ACH50 0.6 ACH50 Yes
Specific Primary Energy Demand(DHW, Heating, Cooling, Auxiliary and Household Electricity): 26.7 kBTU/(ft²yr) 38.0 kBTU/(ft²yr) Yes
Specific Primary Energy Demand(DHW, Heating and Auxiliary Electricity): 10.6 kBTU/(ft²yr)
Specific Primary Energy DemandEnergy Conservation by Solar Electricity: 35.2 kBTU/(ft²yr)
Heating Load: 5.72 BTU/(ft2hr)Frequency of Overheating: % over 77.0 °F
Specific Useful Cooling Energy Demand: 1.39 kBTU/(ft²yr) 4.75 kBTU/(ft²yr) Yes
Cooling Load: 1.74 BTU/(ft2hr)
We confirm that the values given herein have been Issued on:determined following the PHPP methodology and basedon the characteristic values of the building. The calculations signed: with PHPP are attached to this application.
Passive House PlanningR - V A L U E S O F E N V E L O P E A S S E M B L I E S
Wedge Shaped Envelope Assemblies andBuilding: wallace residence Still Air Spaces -> Secondary Calculation to the Right
Assembly Building Assembly Description
1 Exterior walls (bed room wing)
Surface Film Resistance, R Interior: 0.74 (hr.ft2.F/BTU)
Exterior: 0.23
ResistivityR per inch
ResistivityR per inch
ResistivityR per inch
Thickness [in]
1. gypsum board 0.910 0.500
2. plywood backer 1.470 0.500
3. cellulose 3.470 2x8 1.280 1.375
4. cellulose 3.470 2x8 1.280 steel column 0.003 5.000
5. cellulose 3.470 2x8 1.280 a hollow column 1.375
6. osb 1.390 1/4" steel 5"x5" 0.500
7. eps 4.130 at 8'0" OC 5.500
8. osb 1.390 0.500
Percentage of Mat'l 2 Percentage of Mat'l 3 Total Width
15.0% 0.3% 15.3 in
R-Value: 41.3 (hr.ft2.F/BTU)
The U-value calculation error is possibly over 10 %. Thermal bridge calculation? U-Value: 0.0242 (BTU/hr.ft2.F)
Assembly Building Assembly Description
2 slab
Surface Film Resistance, R Interior: 0.97 (hr.ft2.F/BTU)
Exterior: 0.00
ResistivityR per inch
ResistivityR per inch
ResistivityR per inch
Thickness [in]
1. hardwood flooring 0.870 0.750
2. plywood 1.470 0.750
3. 2x2 sleepers
4. concrete 0.070 5.000
5. eps 4.130 6.000
6.
7.
8.Percentage of Mat'l 2 Percentage of Mat'l 3 Total Width
12.5 in
R-Value: 27.9 (hr.ft2.F/BTU)
U-Value: 0.0359 (BTU/hr.ft2.F)
Assembly Building Assembly Description
3 roof
Surface Film Resistance, R Interior: 0.57 (hr.ft2.F/BTU)
Exterior: 0.23
ResistivityR per inch
ResistivityR per inch
ResistivityR per inch
Thickness [in]
1. Earth 0.250 18.000
2. Rigid EPS Topping 4.130 4.000
3. Concrete Topping 0.070 3.000
4. LiteDeck EPS form 4.130 Concrete Beam 0.070 4.000
5. LiteDeck EPS 4.130 2.000
6. Cellulose 3.470 7.000
7. gypsum board 0.910 0.500
8.
Percentage of Mat'l 2 Percentage of Mat'l 3 Total Width
25.0% 38.5 in
R-Value: 61.4 (hr.ft2.F/BTU)
U-Value: 0.0163 (BTU/hr.ft2.F)
Primary Material(Enter from interior to exterior)
Secondary Material(optional)
Tertiary Material (optional)
Primary Material(Enter from interior to exterior)
Secondary Material(optional)
Tertiary Material (optional)
Primary Material(Enter from interior to exterior)
Secondary Material(optional)
Tertiary Material (optional)
Passive House PlanningH E A T L O S S E S V I A T H E G R O U N D
Ground Characteristics Climate DataThermal Resistance R per inch 0.07 (hr.ft2F/BTU.in) Av. Indoor Temp. Winter Ti 68.0 °F
Thermal Conductivity k 1.156 (BTU/hr.ft.F) Av. Indoor Temp. Summer Ti 77.0 °F
Heat Capacity ρc 2.0 MJ/(m³K) Average Ground Surface Temperature Tg,ave 57.3 °F
Periodic Penetration Depth δ 10.39 ft Amplitude of Tg,ave Tg,^ 52.0 °F
Length of the Heating Period n 6.7 monthsHeating Degree Days - Exterior Gt 0.9 °F.day/yr
Building Data Floor Slab R-Value Rf 34.3 (hr.ft2.F/BTU)
Floor Slab Area, Gross A 3709 ft² Thermal Bridges at Floor Slab ΨB*l 0.00 BTU/hr.F
Floor Slab Perimeter, Gross P 333.0 ft Floor Slab R-Value incl. TB Rf' 34.300 (hr.ft2.F/BTU)
Charact. Dimension of Floor Slab B' 22.27 ft Eq. Thickness Floor dt 475.7 in
Floor Slab Type (select only one)Heated Basement or Underground Floor Slab Unheated basement
x Slab on Grade Suspended Floor
For Basement or Underground Floor SlabBasement Depth z ft R-Value Belowground Wall RwB (hr.ft2.F/BTU)
Additionally for Unheated Basements Height Aboveground Wall h ft
Air Change Unheated Basement n h-1 R-Value Aboveground Wall RW (hr.ft2.F/BTU)
Basement Volume V ft³ R-Value Basement Floor Slab RfB (hr.ft2.F/BTU)
For Perimeter Insulation for Slab on Grade For Suspended FloorPerimeter Insulation Width/Depth D 20.00 in R-Value Crawl Space RCrawl (hr.ft2.F/BTU)
Perimeter Insulation Thickness dn 2.00 in Height of Crawl Space Wall h ft
Perimeter Insulation Resistance R per inch 5.72 hr.ft2F/BTU.in R-Value Crawl Space Wall RW (hr.ft2.F/BTU)Area of Ventilation Openings εP ft²
Location of the Perimeter Insulation horizontal x Wind Velocity at 33 ft Height v 8.9 mph
(check only one field) vertical Wind Shield factor fW 0.05 -
Additional Thermal Bridge Heat Losses at Perimeter Steady-State Fraction ΨP,stat*l 0.00 BTU/hr.F
Phase Shift β months Harmonic Fraction ΨP,harm*l 0.000 BTU/hr.F
Groundwater CorrectionDepth of the Groundwater Table zW 3.0 ft Transm. Belowground El. (w/o Ground) Lreg 30.09 BTU/hr.FGroundwater Flow Rate qW 0.16 ft/d Relative Insulation Standard dt/B' 1.77962082 -
Relative Groundwater Depth zW/B' 0.13468988 -Groundwater Correction Factor GW 1.03613404 - Relative Groundwater Velocity l/B' 0.12152613 -
Basement or Underground Floor SlabEq. Thickness Floor Slab dt in Phase Shift β months
R-Value Floor Slab Rbf (hr.ft2.F/BTU) Exterior Periodic Transmittance Lpe BTU/hr.F
Eq. Thickness Basement Wall dw in
R-Value Wall Rbw (hr.ft2.F/BTU)Steady-State Transmittance LS BTU/hr.F
Unheated BasementSteady-State Transmittance LS BTU/hr.F Phase Shift β months
Exterior Periodic Transmittance Lpe BTU/hr.F
Slab on GradeThermal Resistance R0 43.108 (hr.ft2.F/BTU) Phase Shift β 1.40 months
Eq. Ins. Thickness Perimeter Ins. d' 156.7 in Exterior Periodic Transmittance Lpe 8.92 BTU/hr.F
Perimeter Insulation Correction ΔΨ -887.662 (hr.ft2F/BTU.in)Steady-State Transmittance LS 24.45 BTU/hr.F
Suspended Floor Above a Ventilated Crawl Space (at max. 0.5 m Below Ground)Eq. Ins. Thickness Crawl Space dg in Phase Shift β months
R-Value Crawl Space Floor Slab Rg (hr.ft2.F/BTU) Exterior Periodic Transmittance Lpe BTU/hr.F
R-Value Crawl Space Wall & Vent. RX (hr.ft2.F/BTU)
Steady-State Transmittance LS BTU/hr.F
Interim ResultsPhase Shift β 1.40 months Steady-State Heat Flow Φstat 939.6 BTU/hr
Steady-State Transmittance LS 24.45 BTU/hr.F Periodic Heat Flow Φharm 265.2 BTU/hr
Exterior Periodic Transmittance Lpe 8.92 BTU/hr.F Heat Losses During Heating Period Qtot 5913.4 kBTU
Ground Reduction Factor for "Annual Heat Demand" Sheet 0.47
Monthly Average Ground Temperatures for Monthly MethodMonth 1 2 3 4 5 6 7 8 9 10 11 12 Average ValueWinter 54.9 53.5 53.7 55.3 58.1 61.1 63.7 65.1 64.9 63.3 60.5 57.5 59.3 °FSummer 56.6 55.2 55.4 57.0 59.8 62.8 65.4 66.8 66.6 65.0 62.2 59.2 61.0 °F
Design Ground Temperature for Heat Load Sheet 53.5 °F for Cooling Load Sheet 66.8 °F
Passive House PlanningH E A T L O S S E S V I A T H E G R O U N D
Ground Characteristics Climate DataThermal Resistance R per inch 0.07 (hr.ft2F/BTU.in) Av. Indoor Temp. Winter Ti 68.0 °F
Thermal Conductivity k 1.156 (BTU/hr.ft.F) Av. Indoor Temp. Summer Ti 77.0 °F
Heat Capacity ρc 2.0 MJ/(m³K) Average Ground Surface Temperature Tg,ave 57.3 °F
Periodic Penetration Depth δ 10.39 ft Amplitude of Tg,ave Tg,^ 52.0 °F
Length of the Heating Period n 6.7 monthsHeating Degree Days - Exterior Gt 0.9 °F.day/yr
Building Data Floor Slab R-Value Rf 34.3 (hr.ft2.F/BTU)
Floor Slab Area, Gross A 3709 ft² Thermal Bridges at Floor Slab ΨB*l 0.00 BTU/hr.F
Floor Slab Perimeter, Gross P 333.0 ft Floor Slab R-Value incl. TB Rf' 34.300 (hr.ft2.F/BTU)
Charact. Dimension of Floor Slab B' 22.27 ft Eq. Thickness Floor dt 475.7 in
Floor Slab Type (select only one)Heated Basement or Underground Floor Slab Unheated basement
x Slab on Grade Suspended Floor
For Basement or Underground Floor SlabBasement Depth z ft R-Value Belowground Wall RwB (hr.ft2.F/BTU)
Additionally for Unheated Basements Height Aboveground Wall h ft
Air Change Unheated Basement n h-1 R-Value Aboveground Wall RW (hr.ft2.F/BTU)
Basement Volume V ft³ R-Value Basement Floor Slab RfB (hr.ft2.F/BTU)
For Perimeter Insulation for Slab on Grade For Suspended FloorPerimeter Insulation Width/Depth D 20.00 in R-Value Crawl Space RCrawl (hr.ft2.F/BTU)
Perimeter Insulation Thickness dn 2.00 in Height of Crawl Space Wall h ft
Perimeter Insulation Resistance R per inch 5.72 hr.ft2F/BTU.in R-Value Crawl Space Wall RW (hr.ft2.F/BTU)Area of Ventilation Openings εP ft²
Location of the Perimeter Insulation horizontal x Wind Velocity at 33 ft Height v 8.9 mph
(check only one field) vertical Wind Shield factor fW 0.05 -
Additional Thermal Bridge Heat Losses at Perimeter Steady-State Fraction ΨP,stat*l 0.00 BTU/hr.F
Phase Shift β months Harmonic Fraction ΨP,harm*l 0.000 BTU/hr.F
Groundwater CorrectionDepth of the Groundwater Table zW 3.0 ft Transm. Belowground El. (w/o Ground) Lreg 30.09 BTU/hr.FGroundwater Flow Rate qW 0.16 ft/d Relative Insulation Standard dt/B' 1.77962082 -
Relative Groundwater Depth zW/B' 0.13468988 -Groundwater Correction Factor GW 1.03613404 - Relative Groundwater Velocity l/B' 0.12152613 -
Basement or Underground Floor SlabEq. Thickness Floor Slab dt in Phase Shift β months
R-Value Floor Slab Rbf (hr.ft2.F/BTU) Exterior Periodic Transmittance Lpe BTU/hr.F
Eq. Thickness Basement Wall dw in
R-Value Wall Rbw (hr.ft2.F/BTU)Steady-State Transmittance LS BTU/hr.F
Unheated BasementSteady-State Transmittance LS BTU/hr.F Phase Shift β months
Exterior Periodic Transmittance Lpe BTU/hr.F
Slab on GradeThermal Resistance R0 43.108 (hr.ft2.F/BTU) Phase Shift β 1.40 months
Eq. Ins. Thickness Perimeter Ins. d' 156.7 in Exterior Periodic Transmittance Lpe 8.92 BTU/hr.F
Perimeter Insulation Correction ΔΨ -887.662 (hr.ft2F/BTU.in)Steady-State Transmittance LS 24.45 BTU/hr.F
Suspended Floor Above a Ventilated Crawl Space (at max. 0.5 m Below Ground)Eq. Ins. Thickness Crawl Space dg in Phase Shift β months
R-Value Crawl Space Floor Slab Rg (hr.ft2.F/BTU) Exterior Periodic Transmittance Lpe BTU/hr.F
R-Value Crawl Space Wall & Vent. RX (hr.ft2.F/BTU)
Steady-State Transmittance LS BTU/hr.F
Interim ResultsPhase Shift β 1.40 months Steady-State Heat Flow Φstat 939.6 BTU/hr
Steady-State Transmittance LS 24.45 BTU/hr.F Periodic Heat Flow Φharm 265.2 BTU/hr
Exterior Periodic Transmittance Lpe 8.92 BTU/hr.F Heat Losses During Heating Period Qtot 5913.4 kBTU
Ground Reduction Factor for "Annual Heat Demand" Sheet 0.47
Monthly Average Ground Temperatures for Monthly MethodMonth 1 2 3 4 5 6 7 8 9 10 11 12 Average ValueWinter 54.9 53.5 53.7 55.3 58.1 61.1 63.7 65.1 64.9 63.3 60.5 57.5 59.3 °FSummer 56.6 55.2 55.4 57.0 59.8 62.8 65.4 66.8 66.6 65.0 62.2 59.2 61.0 °F
Design Ground Temperature for Heat Load Sheet 53.5 °F for Cooling Load Sheet 66.8 °F
PHPP DASHBOARD
BUILDING ELEMENTS PEAK LOAD 82,329 BTU / HOUR (EQUIP SIZING)
PEAK LOAD PER UNIT 5,881
VENTILATION PRIMARY ENERGY 31.68 kBTU / SF / YEAR (TOTAL DAMAGE)
EXHAUST ONLY SITE ENERGY 4.57 kBTU / SF / YEAR (LOCAL DAMAGE)
X HRV OR ERV 90 % EFFICIENT PV TO BE NET-ZERO 76.95 KWPV PANELS NEEDED 335 4,182 SF OF PV
AIR TIGHTNESS ANNUAL HEATING 4.70 kBTU / SF / YEAR (TOTAL HEATING)
0.60 ACH50: ANNUAL COOLING kBTU / SF / YEAR (TOTAL COOLING)
R- VALUES WINDOW ENERGY 8,689 KBTU / YEAR (ENERGY + OR -)
44 WALLS TYPE: WALLS: FROM DASHBOARD
80 ROOF TYPE: ROOF: FROM DASHBOARD
25 SUSPENDED FLOORS TYPE: RAISED FLOOR: FROM DASHBOARD
20 BASEMENT WALLS TYPE: BASEMENT WALLS: FROM DASHBOARD HEAT GAINS20 SLABS TYPE: SLAB: FROM DASHBOARD SOLAR GAINS: 35%
PEOPLE, LIGHTS & APPLIANCES: 28%WINDOWS & DOORS MECHANICAL HEATING: 37%
WINDOWSSHGC: 0.55
GLASS 7.69 U-VALUE: 0.13FRAME 5.88 U-VALUE: 0.17 HEAT LOSSTOTAL 5.87 U-VALUE: 0.17 BUILDING SHELL: 48%
SOLID DOORS WINDOWS: 29%5.00 U-VALUE: 0.20 VENTILATION & AIR LEAKS: 23%
GLAZED DOORSGLASS SHGC: 0.55GLASS 7.69 U-VALUE: 0.13FRAME 5.88 U-VALUE: 0.17TOTAL 5.87 U-VALUE: 0.17 SHELL LOSSES
GLAZING % OF TFA WALLS: 42%6% SOUTH: ROOF: 12%7% NORTH: SUSPENDED FLOORS: 30%7% EAST: BASEMENT WALLS & SLAB: 16%7% WEST:
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0%# 2%# 4%# 6%# 8%#
SOUTH:
NORTH:
EAST:
WEST:
BUILDING SHELL:,
48%
WINDOWS:, 29%
VENTILATION & AIR LEAKS:,
23%
SOLAR GAINS:,
35%
PEOPLE, LIGHTS & APPLIANCES:, 28% MECHANI
CAL HEATING:,
37%
WALLS:, 42%
ROOF:, 12%
SUSPENDED
FLOORS:, 30%
BASEMENT WALLS & SLAB:,
16%
THICK WALLS
WALL-11424 fore st., portland, me 04101207-842-2888 fax:842-2828
BLUEBERRY COMMONS, GAWRON TURGEON ARCHITECTS
Drawing: 2 x 4 EXISTING
Scale:
Date: DEC 5, 2012
2x4 STUD WALLconstruction layers, outside to inside
SIDING15# BUILDING PAPER1X BOARD SHEATHING2X4 BEARING STUD WALLNO INSULATIONPINE BOARDS
DIRECTION OF DRYING
OUTSIDE INSIDE
NO VAPOR RETARDER
NO AIR BARRIER
SCALE: 1 1/2"= 1'-0"1 2X4 Existing
1 1/2" = 1'-0"
MAINE CABIN WALL
R-31830
INSULATED CABIN WALL
WALL-11424 fore st., portland, me 04101207-842-2888 fax:842-2828
BLUEBERRY COMMONS, GAWRON TURGEON ARCHITECTS
Drawing: 2 x 4 EXISTING
Scale:
Date: DEC 5, 2012
2x4 STUD WALLconstruction layers, outside to inside
SIDING15# BUILDING PAPER1X BOARD SHEATHING2X4 BEARING STUD WALLFIBERGLASS BATTSPINE BOARDS
DIRECTION OF DRYING
OUTSIDE INSIDE
NO VAPOR RETARDER
NO AIR BARRIER
SCALE: 1 1/2"= 1'-0"1 2X4 Existing
1 1/2" = 1'-0"
R-12
R-1
3
1938
TYPICAL RESIDENTIAL WALL
WALL-12424 fore st., portland, me 04101207-842-2888 fax:842-2828
BLUEBERRY COMMONS, GAWRON TURGEON ARCHITECTS
Drawing: 2 x 6 CODE
Scale:
Date: DEC 5, 2012
2x6 STUD WALLconstruction layers, outside to inside
SIDINGPLASTIC WRBOSB2X6 BEARING STUD WALLFIBERGLASS BATTSPOLY CLASS I VAPOR RETARDERGWB, PAINTED
NO DRYING DIRECTION!
OUTSIDE INSIDE
VAPOR RETARDER BOTH SIDES!
NO AIR BARRIER!
SCALE: 1 1/2"= 1'-0"1 2X6 Code
1 1/2" = 1'-0"
R-17.7
R-1
9
1978
TYPICAL COMMERCIAL WALL
WALL-13424 fore st., portland, me 04101207-842-2888 fax:842-2828
BLUEBERRY COMMONS, GAWRON TURGEON ARCHITECTS
Drawing: STEEL STUD CODE
Scale:
Date: DEC 5, 2012
STEEL STUD WALLconstruction layers, outside to inside
NON-COMBUSTIBLE SIDINGPLASTIC WRBEXTERIOR GYP SHEATHINGSTEEL STUDSFIBERGLASS BATTSPOLY CLASS I VAPOR RETARDERGWB, PAINTED
LOCATION OF AIR BARRIER
LOCATION OF VAPOR RETARDER
OUTSIDE INSIDE
DIRECTION OF DRYING
SCALE: 1 1/2"= 1'-0"1 STEEL STUD WALL
1 1/2" = 1'-0"
R-7.4
R-1
9
1930
ARCHITECT DREAM WALL
WALL-14424 fore st., portland, me 04101207-842-2888 fax:842-2828
BLUEBERRY COMMONS, GAWRON TURGEON ARCHITECTS
Drawing: CURTAIN WALL
Scale:
Date: DEC 5, 2012
CURTAIN WALLconstruction layers, outside to inside
DOUBLE GLAZED, ARGON FILLED GLAZING(R-4)
LOCATION OF AIR BARRIER
LOCATION OF VAPOR RETARDER
OUTSIDE INSIDE
NO DRYING DIRECTION
SCALE: 1 1/2"= 1'-0"1 CURTAIN WALL
1 1/2" = 1'-0"
R-4FOREVER
R-43
2x6 WALL WITH 4” POLY-ISO
10” THICK WALL
DOUBLE STUD (2) 2x4 WALL
R-44
12” THICK WALL
VERY GOOD WINDOWS
R-8
R-9.515˚ F 68˚ F
R-3.8
R-2.2
COLD!
(R-5.5 TRIPLE)
F R A M E T Y P E A C C O R D I N G T O C E R T I F I C A T I O Nfor glazings, go to row: 2
Type Uf-Value Rf-Value Frame Dimensions Thermal Bridge Thermal Bridge
Assembly#
Frame Frame Frame Width - Left Width - Right Width - Below Width - Above ΨSpacer ΨInstallation
BTU/hr.ft2.F hr.ft2.F/BTU in in in in BTU/hr.ft.°F BTU/hr.ft.°F1 optiwin, 3wood/0.6 0.13 8.00 5.280 5.280 5.280 5.280 0.020 0.0232 optiwin, 3wood/0.5 0.13 7.75 5.280 5.280 5.280 5.280 0.020 0.0233 optiwin, 2wood/0.6 0.17 5.99 5.280 5.280 5.280 5.280 0.020 0.0234 optiwin, 2wood/0.5 0.17 5.99 5.280 5.280 5.280 5.280 0.020 0.0235 Frostkorken6789
101112 Metal, no thermal break, varnish 0.97 1.03 3.63 3.63 3.63 3.63 0.026 0.02913 Metal, no thermal break 0.79 1.26 3.63 3.63 3.63 3.63 0.026 0.02914 Metal, with thermal break 0.42 2.37 3.63 3.63 3.63 3.63 0.026 0.02915 Vinyl Casement, Stainless Steel Spacer 0.38 2.63 3.63 3.63 3.63 3.63 0.026 0.02916 Clad Wood Casement, Wide Sash, Warm Edge 0.45 2.22 3.63 3.63 3.63 3.63 0.020 0.02917 Clad Wood Casement, Narrow Sash, Warm Edge 0.45 2.22 2.63 2.63 2.63 2.63 0.020 0.02918 Clad Wood Fixed (Low Profile), Warm Edge 0.45 2.22 1.63 1.63 1.63 1.63 0.020 0.02919 Insulated Wood Casement (ie. German), Warm Edge 0.13 7.69 4.78 4.78 4.78 4.78 0.020 0.02920 Insulated Fiberglass Casement, Warm Edge 0.28 3.61 2.73 2.73 2.73 2.73 0.020 0.02921 Insulated Fiberglass Fixed (Low Profile), Warm Edge 0.30 3.35 1.72 1.72 1.72 1.72 0.020 0.02922
PHPP 2007, Window WAL-PHPP-20110121-JT.xlsx
Window Rough Openings Installed Glazing Frame SHGC U-Value R-Value Window Frame Dimensions Installation Ψ-Value Results
Description Qty Window Unit # Deviation from North
Angle of Inclination from the
Horizontal
Orientation x in Area in the Areas worksheet #
Select glazing from the WinType
worksheet#
Select window from the WinType
worksheet#
Perpen-dicular
RadiationGlazing Frames Glazing Frames Width - Left Width -
RightWidth - Below
Width - Above
Left1/0
Right1/0
Sill1/0
Head1/0 ΨSpacer ΨInstallation
Window Area
Glazing Area
U-ValueWindow
R-ValueWindow
Degrees Degrees Select: Select: Select: - BTU/hr.ft2.F BTU/hr.ft2.F hr.ft2.F/BTU hr.ft2.F/BTU in in in in BTU/hr.ft.°F BTU/hr.ft.°F ft2 ft2 BTU/hr.ft2.F hr.ft2.F/BTUn1win1b 1 1 315 90 West 3 ft 6 in x 7 ft 6 in 1 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 0 1 1 0.020 0.023 26.3 17.3 0.14 6.9n2win1c 1 2 10 90 North 3 ft 9 1/4 in x 3 ft 1 in 3 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 11.6 6.4 0.17 6.1n2win1b 1 3 10 90 North 3 ft 9 1/4 in x 5 ft 1 in 3 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 0 1 1 0.020 0.023 19.2 12.2 0.15 6.7e2win1a 1 4 100 90 East 2 ft 5 in x 5 ft 1 in 5 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 0 1 1 0.020 0.023 12.3 6.5 0.16 6.4e2door1c 1 5 100 90 East 3 ft 7 in x 8 ft in 5 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 28.7 19.2 0.14 7.0e2win1.2c 1 6 100 90 East 3 ft 7 in x 2 ft 4 1/2 in 5 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 8.5 4.0 0.18 5.6e2win2.1b 1 7 100 90 East 3 ft 5/8 in x 6 ft 1 in 5 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 0 1 1 0.020 0.023 18.6 11.3 0.15 6.5e2win2.2b 1 8 100 90 East 3 ft 5/8 in x 2 ft 11 3/4 in 5 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 9.1 4.6 0.17 5.8s1win1.1c 1 9 180 90 South 4 ft 7 5/8 in x 6 ft 1 in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 28.2 19.5 0.14 7.1s1win1.2c 1 10 180 90 South 4 ft 7 5/8 in x 3 ft 7 in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 0 1 1 0.020 0.023 16.6 10.2 0.15 6.7s1win2.1d 1 11 180 90 South 4 ft 3/4 in x 6 ft 1 in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 0 1 1 0.020 0.023 24.7 16.6 0.14 7.2s1win2.2d 1 12 180 90 South 4 ft 3/4 in x 3 ft 8 1/2 in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 0 1 1 0.020 0.023 15.1 9.0 0.15 6.6s1win3.1b 1 13 180 90 South 4 ft 3/4 in x 6 ft 1 in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 0 1 1 0.020 0.023 24.7 16.6 0.14 6.9s1win3.2b 1 14 180 90 South 4 ft 3/4 in x 3 ft 10 in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 0 1 1 0.020 0.023 15.6 9.4 0.16 6.4s1win4c 0 15 180 90 South 4 ft in x 2 ft 2 in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 0.0 0.0s1win5b 0 16 180 90 South 4 ft in x 2 ft 2 in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 0 1 1 0.020 0.023 0.0 0.0s1door1c 1 17 180 90 South 12 ft in x 8 ft in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 1 1 1 0.020 0.023 96.0 79.2 0.12 8.1s1win6.2c 0 18 180 90 South 5 ft in x 2 ft in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 0.0 0.0s1door1b 0 19 180 90 South 5 ft in x 8 ft in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 0 1 1 0.020 0.023 0.0 0.0s1win7.2b 0 20 180 90 South 5 ft in x 2 ft 2 in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 0 1 1 0.020 0.023 0.0 0.0e3win1c 1 21 95 90 East 2 ft 7 in x 5 ft 7 in 6 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 14.4 8.0 0.16 6.2e3win1d 1 22 95 90 East 4 ft 3 in x 5 ft 7 in 6 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 0 1 1 0.020 0.023 23.7 15.9 0.14 7.2e3win1b 1 23 95 90 East 2 ft 7 in x 5 ft 7 in 6 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 0 1 1 0.020 0.023 14.4 8.0 0.16 6.2e3win2c 1 24 95 90 East 4 ft 1 in x 5 ft 7 in 6 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 22.8 15.1 0.15 6.9e3door1b 1 25 95 90 East 3 ft 5 in x 8 ft 1/2 in 6 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 0 1 1 0.020 0.023 27.5 18.2 0.14 7.3e3door2c 1 26 95 90 East 3 ft 5 in x 8 ft 1/2 in 6 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 27.5 18.2 0.14 6.9e3win3b 1 27 95 90 East 4 ft 1 in x 5 ft 7 in 6 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 0 1 1 0.020 0.023 22.8 15.1 0.15 6.9e3win4c 1 28 95 90 East 4 ft 1 in x 5 ft 7 in 6 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 22.8 15.1 0.15 6.9e3door3d 0 29 95 90 East 4 ft in x 7 ft 10 in 6 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 0 1 1 0.020 0.023 0.0 0.0
Width Height
ft in ft inoptiwin, 2wood/0.5n 1a wall (storage, wetroom)
n 2 wall (dining room)
n 2 wall (dining room)
e 2 wall (dining room)
e 2 wall (dining room)
e 2 wall (dining room)
e 2 wall (dining room)
e 2 wall (dining room)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
s 1 wall (dining room)
s 1 wall (dining room)
s 1 wall (dining room)
s 1 wall (dining room)
s 1 wall (dining room)
s 1 wall (dining room)
s 1 wall (dining room)
s 1 wall (dining room)
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
n1win1b (sidelight)n2win1cn2win1be2 win1ae2door2.1c
e2win2.2ce2win3.1be2win3.2bs1win1.1cs1win1.2cs1win2.1ds1win2.2ds1win3.1bs1win3.2bs1win4c GONEs1win5b GONEs1door1a
s1win6.2c GONEs1door1b GONEs1win7.2b GONEe3win1ce3win1de3win1be3win2ce3door1b
e3door2c
e3win3be3win4ce3door3d GONE s 1 wall (dining room) optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
PHPP 2007, Window WAL-PHPP-20110121-JT.xlsx
Window Rough Openings Installed Glazing Frame SHGC U-Value R-Value Window Frame Dimensions Installation Ψ-Value Results
Description Qty Window Unit # Deviation from North
Angle of Inclination from the
Horizontal
Orientation x in Area in the Areas worksheet #
Select glazing from the WinType
worksheet#
Select window from the WinType
worksheet#
Perpen-dicular
RadiationGlazing Frames Glazing Frames Width - Left Width -
RightWidth - Below
Width - Above
Left1/0
Right1/0
Sill1/0
Head1/0 ΨSpacer ΨInstallation
Window Area
Glazing Area
U-ValueWindow
R-ValueWindow
Degrees Degrees Select: Select: Select: - BTU/hr.ft2.F BTU/hr.ft2.F hr.ft2.F/BTU hr.ft2.F/BTU in in in in BTU/hr.ft.°F BTU/hr.ft.°F ft2 ft2 BTU/hr.ft2.F hr.ft2.F/BTUn1win1b 1 1 315 90 West 3 ft 6 in x 7 ft 6 in 1 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 0 1 1 0.020 0.023 26.3 17.3 0.14 6.9n2win1c 1 2 10 90 North 3 ft 9 1/4 in x 3 ft 1 in 3 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 11.6 6.4 0.17 6.1n2win1b 1 3 10 90 North 3 ft 9 1/4 in x 5 ft 1 in 3 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 0 1 1 0.020 0.023 19.2 12.2 0.15 6.7e2win1a 1 4 100 90 East 2 ft 5 in x 5 ft 1 in 5 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 0 1 1 0.020 0.023 12.3 6.5 0.16 6.4e2door1c 1 5 100 90 East 3 ft 7 in x 8 ft in 5 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 28.7 19.2 0.14 7.0e2win1.2c 1 6 100 90 East 3 ft 7 in x 2 ft 4 1/2 in 5 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 8.5 4.0 0.18 5.6e2win2.1b 1 7 100 90 East 3 ft 5/8 in x 6 ft 1 in 5 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 0 1 1 0.020 0.023 18.6 11.3 0.15 6.5e2win2.2b 1 8 100 90 East 3 ft 5/8 in x 2 ft 11 3/4 in 5 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 9.1 4.6 0.17 5.8s1win1.1c 1 9 180 90 South 4 ft 7 5/8 in x 6 ft 1 in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 28.2 19.5 0.14 7.1s1win1.2c 1 10 180 90 South 4 ft 7 5/8 in x 3 ft 7 in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 0 1 1 0.020 0.023 16.6 10.2 0.15 6.7s1win2.1d 1 11 180 90 South 4 ft 3/4 in x 6 ft 1 in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 0 1 1 0.020 0.023 24.7 16.6 0.14 7.2s1win2.2d 1 12 180 90 South 4 ft 3/4 in x 3 ft 8 1/2 in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 0 1 1 0.020 0.023 15.1 9.0 0.15 6.6s1win3.1b 1 13 180 90 South 4 ft 3/4 in x 6 ft 1 in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 0 1 1 0.020 0.023 24.7 16.6 0.14 6.9s1win3.2b 1 14 180 90 South 4 ft 3/4 in x 3 ft 10 in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 0 1 1 0.020 0.023 15.6 9.4 0.16 6.4s1win4c 0 15 180 90 South 4 ft in x 2 ft 2 in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 0.0 0.0s1win5b 0 16 180 90 South 4 ft in x 2 ft 2 in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 0 1 1 0.020 0.023 0.0 0.0s1door1c 1 17 180 90 South 12 ft in x 8 ft in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 1 1 1 0.020 0.023 96.0 79.2 0.12 8.1s1win6.2c 0 18 180 90 South 5 ft in x 2 ft in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 0.0 0.0s1door1b 0 19 180 90 South 5 ft in x 8 ft in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 0 1 1 0.020 0.023 0.0 0.0s1win7.2b 0 20 180 90 South 5 ft in x 2 ft 2 in 7 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 0 1 1 0.020 0.023 0.0 0.0e3win1c 1 21 95 90 East 2 ft 7 in x 5 ft 7 in 6 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 14.4 8.0 0.16 6.2e3win1d 1 22 95 90 East 4 ft 3 in x 5 ft 7 in 6 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 0 1 1 0.020 0.023 23.7 15.9 0.14 7.2e3win1b 1 23 95 90 East 2 ft 7 in x 5 ft 7 in 6 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 0 1 1 0.020 0.023 14.4 8.0 0.16 6.2e3win2c 1 24 95 90 East 4 ft 1 in x 5 ft 7 in 6 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 22.8 15.1 0.15 6.9e3door1b 1 25 95 90 East 3 ft 5 in x 8 ft 1/2 in 6 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 0 1 1 0.020 0.023 27.5 18.2 0.14 7.3e3door2c 1 26 95 90 East 3 ft 5 in x 8 ft 1/2 in 6 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 27.5 18.2 0.14 6.9e3win3b 1 27 95 90 East 4 ft 1 in x 5 ft 7 in 6 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 1 0 1 1 0.020 0.023 22.8 15.1 0.15 6.9e3win4c 1 28 95 90 East 4 ft 1 in x 5 ft 7 in 6 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 1 1 1 0.020 0.023 22.8 15.1 0.15 6.9e3door3d 0 29 95 90 East 4 ft in x 7 ft 10 in 6 4 4 0.53 0.09 0.17 10.8 6.0 5.3 5.3 5.3 5.3 0 0 1 1 0.020 0.023 0.0 0.0
Width Height
ft in ft inoptiwin, 2wood/0.5n 1a wall (storage, wetroom)
n 2 wall (dining room)
n 2 wall (dining room)
e 2 wall (dining room)
e 2 wall (dining room)
e 2 wall (dining room)
e 2 wall (dining room)
e 2 wall (dining room)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
e 3 wall (bedroom wing)
s 1 wall (dining room)
s 1 wall (dining room)
s 1 wall (dining room)
s 1 wall (dining room)
s 1 wall (dining room)
s 1 wall (dining room)
s 1 wall (dining room)
s 1 wall (dining room)
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
n1win1b (sidelight)n2win1cn2win1be2 win1ae2door2.1c
e2win2.2ce2win3.1be2win3.2bs1win1.1cs1win1.2cs1win2.1ds1win2.2ds1win3.1bs1win3.2bs1win4c GONEs1win5b GONEs1door1a
s1win6.2c GONEs1door1b GONEs1win7.2b GONEe3win1ce3win1de3win1be3win2ce3door1b
e3door2c
e3win3be3win4ce3door3d GONE s 1 wall (dining room) optiwin, 2wood/0.5
optiwin, 2wood/0.5
optiwin, 2wood/0.5
78 kWH / square meter / year
MAXIMUM CONDUCTANCE:!0.01 W/mK!or!0.0058 BTU / hr•ft•F
THERMAL BRIDGE FREE DESIGN
CONDUCTANCE OF STEEL:!29 BTU / hr•ft•F
5,000x PASSIVHAUS LIMIT
5,000x BETTER?
PASSIVHAUS CASE STUDIES
SINGLE FAMILY CUSTOM HOME
EARTHSHIP FARMSTEAD
NET-ZERO!PASSIVHAUS!
LEED PLATINUM!SHEEP ON THE ROOF
WAL05/09/2011
5/9/11, 3:42 PM: DESIGN:_ACTIVE CLIENTS:WAL-Wallace VA:WAL-04 ARCHICAD:WAL-01 MODEL:WAL-HOUSE:WAL_H-20110503-ConDocs.pln
Project: Drawing: BUILDING CONSTRUCTION DIAGRAMS
Revised:Date: May 9, 2011424 fore st., portland, me 04101207-842-2888 fax:842-2828
Wallace ResidenceDavid and Liisa Wallace127 Rye Cove CreekStuart, VA A-0.1Revised:
Drawn by: JB / JJTScale:BUILDING PERMIT DRAWINGS
GABION RETAININGWALLS. VERIFY W/OWNER / ARCHITECT.
PLANTING/EARTHBETWEEN GABIONWALLS
ENTRY HARDSCAPE
GRAVEL DRIVEWAY
WATER CISTERN FORROOF RUNOFF.
TO BE USED FORSITE WATERING
CIP CONC. WALL W/STONE VENEER(SEE STRUCT.)
HARDSCAPE
HERB GARDENBY OWNER
PIZZA OVENBY OWNER
GABION RETAININGWALLS. VERIFY W/OWNER / ARCHITECT.
PLANTING/EARTHBETWEEN GABIONWALLS
SITE RETAINING WALLS
MEMBRANE ROOF
STANDING SEAMMETAL ROOF
FLASHED ROOFEDGE
18" +/- SOD ROOF
9" +/- SEDUMROOF EDGE
18" +/- SOD ROOF
9" +/- SEDUMROOF EDGE
STANDING SEAMMETAL ROOF
STANDING SEAMMETAL ROOF
FLASHED ROOFEDGE
EXPOSEDWOOD BEAM
CONCRETE DECK
CONCRETE DECK
CONCRETE DECK
EXPOSED WOOD BEAMS
EXTERIOR EXPOSED WOOD BEAM(SEE STRUCT.)
ROUND STEELCOLUMN
(SEE STRUCT.)
CONCRETE DECK
STONE VENEER
FRAMED WALL
ROOF MONITORWALLS
STONEON CURVED,
FRAMED WALL
DOOR
MASONRYONFRAMEDWALL
MASONRYONFRAMEDWALL
STONE VENEER
FRAMED WALL
WINDOW
FRENCH DOOR
LIFT-SLIDE DOOR
ROOFMONITOR
ON ROOFFRAMING
CONCRETEWALL
FRAMEDWALL
FRAMEDWALL
BOND-OUT FORGARAGE SLAB
CONCRETE REAR WALL
CONCRETE FOOTING
CONCRETE FOOTING
RETAINING WALLAGAINST EARTH
CMU STONE LEDGE
THICKENEDSLAB FOOTINGS
COLUMN SUPPORTS
CONC. REAR WALL
CONCWALL
ROOTCELLAR
TURNED-D
OWN SLAB EDGE F
OOTING
CONCRETE FOOTING
CONC. BATHROOMWALL
10 Landscape
9 Landscape
8 Roof
7 Roof
6 Roof Structure
5 Roof Structure
4 Ambient Walls & Windows
3 Ambient Walls & Windows
2 Foundation & Retaining Walls
1 Foundation & Retaining Walls
EVEN # VIEWS
ODD # VIEWS
VIEW KEY
WAL05/09/2011
5/9/11, 5:17 PM: DESIGN:_ACTIVE CLIENTS:WAL-Wallace VA:WAL-04 ARCHICAD:WAL-01 MODEL:WAL-HOUSE:WAL_H-20110503-ConDocs.pln
Project: Drawing: BUILDING SECTIONS
Revised:Date: May 9, 2011424 fore st., portland, me 04101207-842-2888 fax:842-2828
Wallace ResidenceDavid and Liisa Wallace127 Rye Cove CreekStuart, VA A-3.1Revised:
Drawn by: JB / JJTScale:BUILDING PERMIT DRAWINGS
A
B
C
D
E
F
G
H
J
K
L
M
N
P
Q
ASSEMBLY NOTESSod Roof: ~R-61Green Roof System (See Specs), On 4" Termite Treated EPSInsulation, On Fluid-Applied Waterproof Layer, On 13" Lite-DeckComposite Slab (See Struct.), On 8" Avg. Dense PackCellulose Insulation, w/ 1x Strapping @ 12" O.C. See InteriorFinish Schedule for Finish Materials.
Metal Roof @ Framing: ~R-32Standing Seam Metal Roof, On Slip Sheet, On 5/8" Ply., On 1xWood Sleepers @ 24" O.C., On 2x Perpendicular WoodSleepers @ 24" O.C., On 15# Asphalt Felt (ASTM D226), OnStructural Insulated Panel (See Struct.), On Glulam Beams (SeeStruct.). See Interior Finish Schedule for Finish Materials.
Metal Roof @ Eave: ~R-32Standing Seam Metal Roof, On Slip Sheet, On 5/8" Ply., On 1xWood Sleepers @ 24" O.C., On 2x Perpendicular WoodSleepers @ 24" O.C., On 15# Asphalt Felt (ASTM D226),OnStructural Insulated Panel (See Struct.), w/ T&G Cedar Soffit.
Roof @ Entry: ~R-32Membrane Roof (TPO per Specs.), On Separation Layer(Sarnafil or Equiv.), On Structural Insulated Panel (See Struct.)w/ 1x strapping @ 12" O.C. See Interior Finish Schedule forFinish Materials.
Exterior Wall @ Ambient Condition: ~R-32Wood Siding, On 1x Wood Strapping Rainscreen, On Air Barrier,On 3.5" Nailbase (See Struct.), On 1/2" "Zip System WallSheathing" w/ Taped Seams, On 2x8 Stud Wall @ 24" o.c. w/Full-Depth Dense-Packed Cellulose (See Struct.), On 1/2"Plywood Sheathing, On GWB. See Interior Finish Schedule forFinish Materials.
Exterior Wall @ Ambient Condition w/ Stone Veneer: ~R-326"-8" Stone Veneer (TBD) w/ Sandstone Cap, On StoneAnchors Attached To Face Of Nailbase, On Breathable, Free-Draining Stone Masonry Underlayment w/ Associated WeepHoles, On 3.5" Nailbase, On 1/2" "Zip System Wall Sheathing"w/ Taped Seams, On 2x8 Stud Wall @ 24" o.c. w/ Full-DepthDense-Packed Cellulose (See Struct.), On 1/2" PlywoodSheathing, On GWB. See Interior Finish Schedule for FinishMaterials.
Exterior Wall @ Sub-grade Condition: ~R-19Free Draining Backfill w/ 3 Lengths Drain Tiles, On DrainageBoard, On Waterproof Layer, On 2" 1# Density Termite TreatedEPS Rigid Insulation, On CIP Reinf. Conc. Wall (See Struct.),On 2" EPS Rigid Insulation, On 1x Or 2x Furring Strips As NotedIn Plans For Plumbing, On 1/2" Plywood Sheathing, On GWB.See Interior Finish Schedule for Finish Materials.
Exterior Wall @ Garage (Between Garage and ConditionedSpace): ~R-32Type "X" Gypsum Wall Board (GWB) w/ taped seams, On AirBarrier, On 3.5" Nailbase (See Struct.), On 1/2" "Zip SystemWall Sheathing" w/ Taped Seams, On 2x8 Stud Wall @ 24" o.c.w/ Full-Depth Dense-Packed Cellulose (See Struct.), On 1/2"Plywood Sheathing, On GWB. See Interior Finish Schedule forFinish Materials.
Exterior Wall @ Root Cellar:Free Draining Backfill, On Waterproof Layer, On CIP ReinforcedConcrete Wall (See Struct.)(No Insulation Necessary).
Exterior Gabion Walls @ Parking & Master Bedroom:Design and Detailing TBD.
Exterior Low Landscape Walls:6"-8" Stone Veneer (TBD) w/ Sandstone Cap, On StoneAnchors, On Reinforced CMU Wall (See Struct.)
Interior Slab on Grade: ~R-28Finished Floor Material (See Interior Finish Schedule), On 2Layers 3/4" Plywood Subfloor, On 4" Reinforced Concrete Slab(See Struct.), On 6 mil. Min. Poly Vapor Barrier, On 6" RigidTermite Treated EPS Insulation, On 6" Gravel Fill (No Fines).
Garage Slab on Grade:Reinforced Concrete Slab (See Struct.), On 6 mil. Min. PolyVapor Barrier taped & sealed, On 6" Gravel Fill (No Fines).
Exterior Wall @ Skylight: ~R-32Wood Siding, On Breathable Wood Siding Underlayment, On 2"Rigid EPS Insulation, On 1/2" "Zip System Wall Sheathing" w/Taped Seams, On 2x6 Stud Wall @ 24" o.c. w/ Dense PackCellulose Insulation, On 2" Rigid EPS Insulation (R-34 min.), On1x Strapping, On GWB. See Interior Finish Schedule for FinishMaterials.
Exposed Interior Slab on Grade: ~R-28Sealed 4" Reinforced Concrete Slab (See Struct.), On 6 mil.Min. Poly Vapor Barrier taped & sealed, On 6" Rigid TermiteTreated EPS Insulation, On 6" Gravel Fill (No Fines).
B
M
F
E
F
C
3.1
2A-4.2
1A-4.2
VARIES
108'-6"
109'-6 3/4"
RED LINE DENOTES PROPOSEDAIR TIGHT BARRIER BOUNDARY AIR BARRIER:
TAPED SIP PANEL
AIR BARRIER
AIR BARRIER:TAPED VAPORBARRIER
AIR BARRIER:FACE OF CASTCONCRETE DINING ROOM
MAIN LEVEL100'-0"
3.B
B
M
C
A
F
E
G
5A-4.1
108'-2 3/8"
RED LINE DENOTES PROPOSEDAIR TIGHT BARRIER BOUNDARY
ORANGE LINE DENOTESAIR-TIGHT SEPARATION/INDEPENDENT VENTILATIONSYSTEM
AIR BARRIER:TAPED SIP PANEL
AIR BARRIER:FACE OF CONC.
AIR BARRIER:TAPED VAPORBARRIER
AIR BARRIER:FACE OF CAST
CONCRETE
KITCHEN DINING ROOM LIVING ROOMPANTRYSTORAGE
SOD ROOF
MAIN LEVEL100'-0"
MAIN LEVEL100'-0"
Q
2.A
A
B
AD
M
F
PP
4A-4.1
108'-2 3/8"
113'-1 3/4"
117'-2"
6'-0"
R 9'-4 3/4"
RED LINE DENOTES PROPOSEDAIR TIGHT BARRIER BOUNDARY
AIR BARRIER:TAPED SIP PANEL
AIR BARRIER:FACE OF CONCRETE
AIR BARRIER:FACE OF TAPEDOSB SHEATHING
AIR BARRIER:TAPED VAPORBARRIER
AIR BARRIER:FACE OF CONCRETE
PROVIDE BEVEL AT INSIDE CORNERSTO ALLOW BETTER DRAINAGE
RADIUSED PLASTER CEILING@ LIGHT MONITOR
CONCEALED DUCTED HEAT PUMPINDOOR UNITW/ CONCEALED ACCESS PANELV.I.F ACTUAL LOCATION
FLUSH PLASTER @WINDOW HEAD
HALLWAYMASTER BEDROOM ENTRYCLOSETPANTRYMASTERBATHROOM
SOD ROOF SOD ROOFSOD ROOF
SIM.
T.O. PLATE
T.O. PLATE
MAIN LEVEL100'-0"
2.B
2A-4.1
2.4
A
MF
E
B
G
2A-4.1
1A-4.1
3A-4.1
108'-2 3/8"
5 5/
8"
7 5/
8"
11 1
/8"
RED LINE DENOTES PROPOSEDAIR TIGHT BARRIER BOUNDARY
AIR BARRIER:TAPED SIP PANEL
AIR BARRIER:FACE OF CONC.DECK (LITEDECK)
AIR BARRIER:FACE OF FRAMEDWALL SHEATHING
AIR BARRIER:TAPED VAPORBARRIER
AIR BARRIER:FACE OF TAPEDOSB SHEATHING
CRICKET
4" TERMITE TREATEDEPS RIGID INSULATION
CMU STONE LEDGE
STEEL "C" CHANNEL@ AMBIENT WALL CONDITION
STEEL "W" SECTION@ MID-SPAN BEARING(SEE STRUCT.)
CONC. CURB W/ WATER STOP
FOOTING FORSTONE LEDGE
SLATTED WOOD SUNSHADEVERIFY W/ ARCHITECT.
BEDROOMHALLWAYCLOSET
SOD ROOF
CELLULOSE INSUL
CONC
. WAL
L
EPS
EPS
EPS
MAIN LEVEL100'-0"
2.1
SOD ROOF
2X8
2.2
1'-5
3/8
"
CAST CURB W/ WATER STOP,2X FRAMED WALL ABOVE
WATERSTOP
LITE-DECK CONCRETE ROOF
EPS
SCALE: 1/4" = 1'-0"3 SECTION: DINING ROOM (LOW)0 2' 4' 8'
SCALE: 1/4" = 1'-0"2 SECTION: LIVING AREA LENGTH0 2' 4' 8'
SCALE: 1/4" = 1'-0"1 SECTION: LONG HALLWAY0 2' 4' 8'
SCALE: 1/4" = 1'-0"4 SECTION: BEDROOM0 2' 4' 8'
WAL05/09/2011
5/9/11, 3:33 PM: DESIGN:_ACTIVE CLIENTS:WAL-Wallace VA:WAL-04 ARCHICAD:WAL-01 MODEL:WAL-HOUSE:WAL_H-20110503-ConDocs.pln
Project: Drawing: WALL SECTIONS
Revised:Date: May 9, 2011424 fore st., portland, me 04101207-842-2888 fax:842-2828
Wallace ResidenceDavid and Liisa Wallace127 Rye Cove CreekStuart, VA A-4.1Revised:
Drawn by: JB / JJTScale:BUILDING PERMIT DRAWINGS
99'-9 3/4"+100'-0"
+98'-11 3/4"
T.O. FIN. FLR.
T.O. CONC. FOOTING
T.O. CONC. SLAB
M
36" M
AX
.
PERIMETER DRAIN TO DAYLIGHT (SEE SPECS)FREE DRAINING GRAVEL (NO FINES)
FILTER FABRIC
TERMITE TREATEDRIGID EPS INSULATION(SEE SPECS)
COMPACTEDSTRUCTURALFILLPROVIDE CAPILLARY
BREAK BETW. WALLAND FOOTING, TYP.
A
B
C
D
E
F
G
H
J
K
L
M
N
P
Q
ASSEMBLY NOTESSod Roof: ~R-61Green Roof System (See Specs), On 4" Termite Treated EPSInsulation, On Fluid-Applied Waterproof Layer, On 13" Lite-DeckComposite Slab (See Struct.), On 8" Avg. Dense PackCellulose Insulation, w/ 1x Strapping @ 12" O.C. See InteriorFinish Schedule for Finish Materials.
Metal Roof @ Framing: ~R-32Standing Seam Metal Roof, On Slip Sheet, On 5/8" Ply., On 1xWood Sleepers @ 24" O.C., On 2x Perpendicular WoodSleepers @ 24" O.C., On 15# Asphalt Felt (ASTM D226), OnStructural Insulated Panel (See Struct.), On Glulam Beams (SeeStruct.). See Interior Finish Schedule for Finish Materials.
Metal Roof @ Eave: ~R-32Standing Seam Metal Roof, On Slip Sheet, On 5/8" Ply., On 1xWood Sleepers @ 24" O.C., On 2x Perpendicular WoodSleepers @ 24" O.C., On 15# Asphalt Felt (ASTM D226),OnStructural Insulated Panel (See Struct.), w/ T&G Cedar Soffit.
Roof @ Entry: ~R-32Membrane Roof (Sarnafil TPO or Equiv.), On Separation Layer(Sarnafil or Equiv.), On Structural Insulated Panel (See Struct.)w/ 1x strapping @ 12" O.C. See Interior Finish Schedule forFinish Materials.
Exterior Wall @ Ambient Condition: ~R-32Wood Siding, On 1x Wood Strapping Rainscreen, On Air Barrier,On 3.5" Nailbase (See Struct.), On 1/2" "Zip System WallSheathing" w/ Taped Seams, On 2x8 Stud Wall @ 24" o.c. w/Full-Depth Dense-Packed Cellulose (See Struct.), On 1/2"Plywood Sheathing, On GWB. See Interior Finish Schedule forFinish Materials.
Exterior Wall @ Ambient Condition w/ Stone Veneer: ~R-326"-8" Stone Veneer (TBD) w/ Sandstone Cap, On StoneAnchors Attached To Face Of Nailbase, On Breathable, Free-Draining Stone Masonry Underlayment w/ Associated WeepHoles, On 3.5" Nailbase, On 1/2" "Zip System Wall Sheathing"w/ Taped Seams, On 2x8 Stud Wall @ 24" o.c. w/ Full-DepthDense-Packed Cellulose (See Struct.), On 1/2" PlywoodSheathing, On GWB. See Interior Finish Schedule for FinishMaterials.
Exterior Wall @ Sub-grade Condition: ~R-19Free Draining Backfill w/ 3 Lengths Drain Tiles, On DrainageBoard, On Waterproof Layer, On 2" 1# Density Termite TreatedEPS Rigid Insulation, On CIP Reinf. Conc. Wall (See Struct.),On 2" EPS Rigid Insulation, On 1x Or 2x Furring Strips As NotedIn Plans For Plumbing, On 1/2" Plywood Sheathing, On GWB.See Interior Finish Schedule for Finish Materials.
Exterior Wall @ Garage (Between Garage and ConditionedSpace): ~R-32Type "X" Gypsum Wall Board (GWB) w/ taped seams, On AirBarrier, On 3.5" Nailbase (See Struct.), On 1/2" "Zip SystemWall Sheathing" w/ Taped Seams, On 2x8 Stud Wall @ 24" o.c.w/ Full-Depth Dense-Packed Cellulose (See Struct.), On 1/2"Plywood Sheathing, On GWB. See Interior Finish Schedule forFinish Materials.
Exterior Wall @ Root Cellar:Free Draining Backfill, On Waterproof Layer, On CIP ReinforcedConcrete Wall (See Struct.)(No Insulation Necessary).
Exterior Gabion Walls @ Parking & Master Bedroom:Design and Detailing TBD.
Exterior Low Landscape Walls:6"-8" Stone Veneer (TBD) w/ Sandstone Cap, On StoneAnchors, On Reinforced CMU Wall (See Struct.)
Interior Slab on Grade: ~R-28Finished Floor Material (See Interior Finish Schedule), On 2Layers 3/4" Plywood Subfloor, On 4" Reinforced Concrete Slab(See Struct.), On 6 mil. Min. Poly Vapor Barrier, On 6" RigidTermite Treated EPS Insulation, On 6" Gravel Fill (No Fines).
Garage Slab on Grade:Reinforced Concrete Slab (See Struct.), On 6 mil. Min. PolyVapor Barrier taped & sealed, On 6" Gravel Fill (No Fines).
Exterior Wall @ Skylight: ~R-32Wood Siding, On Breathable Wood Siding Underlayment, On 2"Rigid EPS Insulation, On 1/2" "Zip System Wall Sheathing" w/Taped Seams, On 2x6 Stud Wall @ 24" o.c. w/ Dense PackCellulose Insulation, On 2" Rigid EPS Insulation (R-34 min.), On1x Strapping, On GWB. See Interior Finish Schedule for FinishMaterials.
Exposed Interior Slab on Grade: ~R-28Sealed 4" Reinforced Concrete Slab (See Struct.), On 6 mil.Min. Poly Vapor Barrier taped & sealed, On 6" Rigid TermiteTreated EPS Insulation, On 6" Gravel Fill (No Fines).
3A-4.2
108'-10 1/4"
108'-2 3/8"
112'-3 1/2"
VARIES
FOAM CRICKET
STEEL "W" SECTION
WATERPROOF LAYER(SEE SPECS)
18" EARTH ROOF - SOIL ANDNATIVE VEGETATION TO BLENDW/ SURROUNDINGS. (SEE SPECS.)
WATERPROOF LAYER (SEE SPECS)
VERT. FURRINGSTRIPS
METAL FLASHING W/DRIP EDGE
1X STAPPING & INSULWEBTO HOLD CELLULOSEINSULATION & ATTACH GWB.
4" TERMITE TREATED EPS RIGIDINSULATION
2" EPS INSULATION
LITE-DECK CONC. & FOAMCOMPOSITE SLABDENSE-PACK CELLULOSEINSULATION
CONCRETE CRICKET
PROTECTION BOARD
PLYWOOD TO BECONTINUOUS PASTSTEEL BEAM, V.I.F.
CAST-INWATERSTOP
LINE OF LITE-DECK FORM BEYOND
SIM.
2.2
P
A6" CAST CURB W/ WATER STOP,
2X6 FRAMED WALL ABOVE
WALL SET-OUTSHOULD BE 1/4" PAST
STEEL FLANGE TOALLOW ANY VARIANCEOF STEEL PLACEMENT
VARIES
112'-3 1/2"
117'-2"
STEEL "C" SECTION (SEE STRUCT.)
WATERPROOF LAYER (SEE SPECS)
WATERPROOF LAYER (SEE SPECS)
METAL FLASHING W/DRIP EDGE
1X STAPPING & INSULWEBTO HOLD CELLULOSEINSULATION & ATTACH GWB.
4" TERMITE TREATED EPS RIGIDINSULATION
LITE-DECK CONC. & FOAMCOMPOSITE SLAB
DENSE-PACK CELLULOSEINSULATION
PROTECTION BOARD
P.T. FILLET
FOAM CRICKET
WALL JAMB BEYOND
WALL JAMB BEYOND
RADIUS PLASTER CEILINGTO CREATE
FLUSH WINDOW INTERSECTION
STEEL "L" SECTION (SEE STRUCT.)
P
A
6" CAST CURB W/ WATER STOP,2X6 FRAMED WALL ABOVE
108'-3 3/4"
108'-8 1/2"
18" EARTH ROOF - SOIL ANDNATIVE VEGETATION TO BLENDW/ SURROUNDINGS.
PROPRIETARY DRAINAGE LAYER(SEE SPECS)
WATER-PROOF LAYER(SEE SPECS)LITE-DECK FOAM/CONC.COMPOSITE SLAB
GWB. CEILING
1X STAPPING & INSULWEBTO HOLD CELLULOSEINSULATION & ATTACH GWB.
GWB., ON PLYWOOD,ON 1X P.T. FURRING STRIPS,ON 2" EPS INSULATION
FILTER FABRIC
T.O. CONC. WALL
2.1
B.O. FIN. CLG.
SOD ROOF
G
A
#DrgID#LayID
FREE DRAINING FILL(SEE SPECS)DRAIN TILES
SLOPED TO DRAIN.DRAIN TO DAYLIGHT
(TYP.)
WATERPROOF LAYER(SEE SPECS)
PROPRIETARYDRAINAGE LAYER
(SEE SPECS)
3A-4.2
112'-6"
VARIES
AIR BARRIER LAPPEDAND SEALED OVER
WATERPROOF LAYER(SEE SPECS)
FOAM CRICKET
WATERPROOF LAYER(SEE SPECS)
2" TERMITE TREATEDEPS INSULATION
18" EARTH ROOF - SOIL ANDNATIVE VEGETATION TO BLEND
W/ SURROUNDINGS.
WATERPROOF LAYER (SEE SPECS)
4" TERMITE TREATEDEPS RIGID INSULATION
LITE-DECK CONC. & FOAMCOMPOSITE SLAB
DENSE-PACK CELLULOSEINSULATION
SIP OR FRAMINGV.I.F.
GWB., ON PLYWOOD,ON 1X P.T. FURRING STRIPS,ON 2" EPS INSULATION
GWB., ON PLYWOOD,ON 2X FRAMING W/INSULATION
ERV VENTINGMUST BE COORD. W/STRUCTURE
ERVVERIFY LOCATION
W/ ARCHITECT
3.B
A
6" CAST CURB W/ WATER STOP,2X6 FRAMED WALL ABOVE
P.T. FILLET
SCALE: 3/4" = 1'-0"1 Earth Wall0 1' 2' 3'
SCALE: 3/4" = 1'-0"3 Skylight Cricket0 1' 2' 3' SCALE: 3/4" = 1'-0"4 Skylight Window
0 1' 2' 3'
SCALE: 3/4" = 1'-0"5 Roof Intersection @ Kitchen0 1' 2' 3'
97'-7"
99'-9 3/4"
102'-6"
+100'-0"
FREE DRAINING FILL (SEE SPECS)
STONE CAPGWB. ON PLYWOOD
AIR BARRIER
T.O. FIN. FLR.
T.O. CONC. FOOTING
2X8
WAL
L
T.O. CONC. SLAB
CMU FOOTING
GRA
DE B
EAM
CONC SLAB
STO
NE V
ENEE
R
F
M
2A-5.1
PERF. PERIMETER DRAIN TO DAYLIGHT(SEE SPECS)FREE DRAINING GRAVEL (NO FINES)FILTER FABRIC
CMU STONE LEDGE
PAVER
SCALE: 3/4" = 1'-0"2 Bedroom Wall0 1' 2' 3'
1A-5.1
6A-4.2
3'-0"4"
109'-8 3/4"
111'-6 1/2"
111'-10"
18" EARTH ROOF - SOIL ANDNATIVE VEGETATION TO BLEND
W/ SURROUNDINGS.
WATERPROOF LAYER (SEE SPECS)
VERT. FURRINGSTRIPS
1X STAPPING & INSULWEBTO HOLD CELLULOSE
INSULATION & ATTACH GWB.
2x8 CEDAR SLATS
2" OD. GALV. STEEL PIPEBRACKET (DOTTED)
COPPER PIPE CAP. RECESS 1/2" IN TO FACE OF SLAT
TERMITE TREATEDEPS RIGID INSULATION
STEEL "C" CHANNEL(SEE STRUCT.)
NAILBASE
6" CONC. CURB W/ WATER STOP(SEE STRUCT.)
LITE-DECK CONC. & FOAMCOMPOSITE SLAB
DENSE-PACK CELLULOSEINSULATION
METAL COPING W/ DRIP EDGE
STEEL "L" CHANNEL(SEE STRUCT.)
DRY STACK STONEWALL @ EARTH EDGE
B.O. BEARING
E
WIN. R.O.
T.O. CONC. CURB
T.O. PLATE
SEE STRUCT. FORCONNECTION DETAILS
A
E
108'-3 3/4" 108'-5"
2" + ID. COPPER SLEEVESPACERS BETWEEN SLATS.
77 Oak Street
Portland, ME, 04101 p. 207-774-4614 f. 866-793-7835
www.structuralinteg.com
BUILD WITH CONFIDENCE © 2011 Structural Integrity Consulting Engineers, Inc.
WAL08/10/2011
9/2/11, 11:16 AM: DESIGN:_ACTIVE CLIENTS:WAL-Wallace VA:WAL-04 ARCHICAD:WAL-01 MODEL:WAL-HOUSE:WAL_H-20110817-CA-Windows.pln
Project: Drawing: WINDOW DETAILS
Revised:Date: August 10, 2011424 fore st., portland, me 04101207-842-2888 fax:842-2828
Wallace ResidenceDavid and Liisa Wallace127 Rye Cove CreekStuart, VA A-5.1Revised:
Drawn by: JB / JJTScale:CONSTRUCTION DRAWINGS
108'-2 3/8"
108'-3"
WINDOW
4/4" CEDAR HEAD EXTENSIONATTACHED W/ TRIM SCREWS
LINE OF STONE JAMBBEYOND
AIR-SEALING TAPE
METAL FLASHING W/ DRIP EDGE
FROM EDGE OF CLADDING, TYP. FOR OPERABLEWINDOWS, ABOUT 5/8" FOR FIXED WINDOWS
2.4
R.O.
1"2
1/2"
1/2"
108'-1" 108'-1"
108'-4"
WALL JAMBEXTENSION
BEYOND
FILL WINDOW R.O. CAVITYWITH LOW EXPANSION FOAM
FOR MAX. CONTINUITYOF THERMAL INSULATION
BLOCKING LET INTO NAILBASE,ATTACH W/ CONSTR. ADHESIVE
BLACK VINYLBUG SCREEN
FROM EDGE OF UNIT HEAD,TYP. FOR ALL WINDOWS
5 1/4"
102'-7"STONE CAPW/ DRIP EDGE
SELF-ADHERED PAN FLASHING/AIR BARRIER ONZIP SYSTEM WALL SHEATHING
BREATHABLE STONE MASONRYUNDERLAYMENT W/ CORRESPONDINGWEEP STRIPS
GWB. ON PLYWOOD
WINDOW
TAPED AIR BARRIER ON OSBNAILBASE
LINE OF STONE JAMBBEYOND
2.4
R.O.
WALL SHEATHING/AIR BARRIER
NAILBASE
1A-5.5
WOOD SILL
WALL JAMBEXTENSION
BEYOND METAL SILL FROM WINDOWMANUF. INSUL. VOID
2X8 WALL
SEALANT BEAD BETW.SHEATHING & FRAMING
AIR SEALING TAPE
1/2" 2 3/8" 1"
DRYWALL RETURN
GWB ON PLYWOOD
BREATHABLE STONE MASONRYUNDERLAYMENT W/ CORRESPONDINGWEEP STRIPS
2x8 WALL
WINDOW SILL BEYOND
WINDOW
STONE VENEER
CAULK & BACKER ROD
EDGE OF METAL SILL FLASHING BEYOND
EDGE OF STONE SILL BEYOND
FROM EDGE OF CLADDING, TYP. FOR OPERABLEWINDOWS, ABOUT 5/8" FOR FIXED WINDOWS
FROM EDGE OFUNIT JAMB, TYP.
FOR ALL WINDOWS
2.42.4
WEATHER RESISTANTBARRIER ON OSB NAILBASE
AIR SEALING TAPE
SEALANT BEAD BETW.SHEATHING & FRAMING
FILL WINDOW R.O. CAVITYWITH LOW EXPANSION FOAMFOR MAX. CONTINUITYOF THERMAL INSULATION
WALL SHEATHING/ AIR BARRIER
SELF-ADHERED PAN FLASHING/AIR BARRIER ON ZIP SYSTEM WALL SHEATHING
101'-11"
2"
2X8 WALL
SELF-ADHERED PAN FLASHING/AIR BARRIER
GWB. ON PLYWOOD
WINDOW
PTD. STEEL COL. BEYOND(SEE STRUCT.)
WEATHER RESISTANT BARRIER
METAL JAMB PROFILE BEYOND
LIVING ROOM ONLY
SHEATHING/ AIR BARRIER
SANDSTONE CAPW/ DRIP EDGE
WOOD SILL
ANGLED DRYWALL RETURNBEYOND
METAL SILL FROMWINDOW MANUF.
FILL WINDOW R.O. CAVITYWITH LOW EXPANSION FOAMFOR MAX. CONTINUITYOF THERMAL INSULATION
SEALANT BEAD BETW.SHEATHING & FRAMING
AIR SEALING TAPE
1"
VARIES
WINDOW
T&G CEDAR SOFFIT
EXPOSED GLUE-LAMBEAM (SEE STRUCT.)PTD. COLUMN BEYOND(SEE STRUCT.)
METAL JAMB PROFILE BEYOND
CEILING(SEE FINISH SCHED.)
METAL PROFILE @HEAD & JAMB
3.2
VARIES
HOLLOW STEEL BEAM(SEE STRUCT.)
FILL WINDOW R.O. CAVITYWITH LOW EXPANSION FOAM
FOR MAX. CONTINUITYOF THERMAL INSULATION
SEALANT BEAD BETW. SHEATHINGAND BLOCKING
SELF-ADHERED PAN FLASHING/AIR BARRIER
ANGLED DRYWALL RETURNBEYOND
108'-10"
108'-3"
4"
WINDOW
2X4 BOX BEAM
WOOD TRIM
SELF-ADHERED PAN FLASHING/AIR BARRIER
AIR SEALING TAPE
WOOD TRIM
STEEL WIND GIRT(SEE STRUCT.)
METAL FLASHING(ISOLATE FROM STEEL)
METAL PROFILE @HEAD & JAMB
METAL JAMB PROFILE BEYOND
METAL JAMB PROFILE BEYOND
3.2 & 3.A
3.2 & 3.A
SHEATHING/ AIR BARRIER
METAL SILL FROM WINDOWMANUF.
SEALANT BEAD BETW.SHEATHING & FRAMING
AIR SEALING TAPE
ANGLED DRYWALL RETURNBEYOND
STEEL COL.BEYOND
110.0°
ANGLED DRYWALL RETURN
WINDOW SILL BEYOND
WINDOW
STONE SILL BEYOND
APPROX. LOC. OF STEELBEAM ABOVE (SEE STRUCT.)
APPROX. LOC. OFGLU-LAM BEAM ABOVE
(WIN. 08,09 ONLY)
METAL TRIM @ HEAD& JAMB -TUCKS BEHINDCLADDING
3.23.2
SHEATHING/ AIR BARRIER
AIR SEALING TAPE
SEALANT BEAD BETW.SHEATHING & FRAMING
FILL WINDOW R.O. CAVITYWITH LOW EXPANSION FOAMFOR MAX. CONTINUITYOF THERMAL INSULATION
SELF-ADHERING PAN FLASHING/AIR BARRIERNAILBASE
WOOD SIDING
WEATHER RESISTANT BARRIER
1/2" 2 3/8" 1"
DRYWALL RETURN
GWB ON PLYWOOD
2x8 WALL
WINDOW SILL BEYOND
WINDOW
WOOD SIDING
EDGE OF METAL SILL FLASHING BEYOND
EDGE OF STONE SILL BEYOND
FROM EDGE OFUNIT JAMB, TYP.
FOR ALL WINDOWSFROM EDGE OF CLADDING, TYP. FOR OPERABLEWINDOWS, ABOUT 5/8" FOR FIXED WINDOWS
2.4
SELF-ADHERED PAN FLASHING/AIR BARRIER ON ZIP SYSTEM WALL SHEATHING
AIR SEALING TAPE
SEALANT BEAD BETW.SHEATHING & FRAMING
FILL WINDOW R.O. CAVITYWITH LOW EXPANSION FOAMFOR MAX. CONTINUITYOF THERMAL INSULATION
WALL SHEATHING/ AIR BARRIER
SCALE: 3" = 1'-0"1 Window Head / Swing Door Head Detail (Center Alignment)0 3'' 6'' 9''
SCALE: 3" = 1'-0"2 Window Sill Detail (Center Alignment)0 3'' 6'' 9''
SCALE: 3" = 1'-0"3 Window Jamb Detail/Stone (Center Alignment)0 3'' 6'' 9''
SCALE: 3" = 1'-0"5 Window Sill Detail (Outer Alignment0 3'' 6'' 9''
SCALE: 3" = 1'-0"4 Window Head Detail (Outer Alignment)0 3'' 6'' 9''
SCALE: 3" = 1'-0"7 Window Transom Detail (Outer Alignment)0 3'' 6'' 9''
SCALE: 3" = 1'-0"6 Window Jamb Detail (Outer Alignment)0 3'' 6'' 9''SCALE: 3" = 1'-0"8 Window Jamb Detail/Wood (Center Alignment)
0 3'' 6'' 9''
Sept. 02, 2011
Sept. 02, 2011
Sept. 02, 2011
HEATING ENERGY: !4.5 kBTU / SF / YR!
!
TOTAL ENERGY: !32 kBTU / SF / YR!
!
AIR TIGHTNESS:!0.5 ACH50
CUSTOM HOME > $250 / SF:!!
PH = HIGH QUALITY!PH = TOUGH & SAFE
MARKET-RATE CONDOMINIUM TOWNHOUSES
HARBORVIEW TOWNHOUSES
424 fore st., portland, me 04101207-842-2888 fax:842-2828
2/18/11: DESIGN:_ACTIVE CLIENTS:RDF_T-Redfern Townhouses:RDF_T-04 ARCHICAD:RDF_T-01 MODEL:RDF_T-20110215-site.pln
A-9.2
Project:
Revised:Date: February 18, 2011
Scale:
Drawing: MASSING STUDYRedfern TownhomesJonathan & Catherine Culley121 York Street
Portland, ME
Drawn by: JB
PRELIMINARY DESIGN
7 65 4 3
12
7 UNITS AT $140 / SF
$350K!to!
$450k
PRELIMINARY DESIGN
424 fore st., portland, me 04101207-842-2888 fax:842-2828
3/14/11: DESIGN:_ACTIVE CLIENTS:RDF_T-Redfern Townhouses:RDF_T-04 ARCHICAD:RDF_T-01 MODEL:RDF_T-20110314-PD3.pln
PD3-6
Project:
Revised:Date: March 14, 2011
Scale:
Drawing: ELEVATION STUDIESHarborview Development LLCdba Redfern Homes LLC121 York Street
Portland, ME
Drawn by: JB
1 Side Elevation: WRAP
RDF_T04/02/2012
6/1/12, 11:19 AM: /Volumes/DESIGN/_ACTIVE CLIENTS/RDF_T-Redfern Townhouses/RDF_T-04 ARCHICAD/RDF_T-01 MODEL/RDF_T-20111103-PERMIT.pln
Project: Drawing: WALL SECTIONS
Revised:Date: April 2, 2012424 fore st., portland, me 04101
207-842-2888 fax:842-2828
Harborview Development LLCdba Redfern Homes LLC121 York StreetPortland, ME A-4.1Revised:
Drawn by: JBScale:FOR PERMIT
LOW SLOPE ROOFABOVE UNIT A
THIRD FLOOR UNIT A
F
A
1A-5.1
8A-5.2
79'-3"T.O. ROOF BEAM
6
77'-1"T.O. SUNSHADE
HEAD FLASHING
FOAM INSULATION
SUNSHADE
PARAPET SHEATHINGSCABBED ON
C
A
F
F
5A-5.2
1'-2
"
THIRD FLOOR UNIT F
SLOPING ROOFLOW SLOPE ROOF
91'-0 1/2"T.O. ROOF BEAM
HT. VARIEST.O. ROOF BEAM
THIRD FLOOR UNIT E
2
C
6A-5.1
VARIES
METAL FLASHING W/DRIP EDGE. MATCH
WINDOW COLOR
2x FASCIA
1x FASCIA
LVL BEAMB.O. BEARING
122
B
C
7A-5.1
TAPE, SEAL @ PANEL EDGES
SHIPLAP CEDAR
1X STRAPPING TYP.
LAT. CROSS BRACING
THIRD FLOOR UNIT C, D,E
5A-5.1
(ENT
RY D
OO
R)
2 X 8 STRAPPING
THIRD FLOORBACONY
UNIT C,D,E
T.O. PARAPET
D
F
4A-5.1
8A-5.2
74'-7.5"T.O. FIN. DECKING
74'-10.5"T.O. FIN. FLOOR
C
0'-0"T.O. R.O.
0'-0"TOP PLATE
0'-0"
HEAD FLASHING
FOAM INSULATION
OPEN WEB JOISTS
PARAPET SHEATHINGSCABBED ON
R-25 AVE.@ 5.6/ IN = 4.5" AV
F
M
1A-5.2
6A-5.2
10" TYP.
FIRST FLOORENTRY CANOPY
1 1/2" RIGID EPS FOAMON SET IN RIM JOIST
63'-0"T.O. FIN. FLOOR
SECOND FLOOR UNIT C
0'-0"TOP PLATE
FOAMED INSULATION
PAN FLASHING
LATERAL CROSS BRACING.INTERIOR WALL NOT TO BEARON RIGID
EPDM GASKET UNDERMUDSILL, TYP.
SOUND BATTINSULATION
DENSE PACK CELL.
1 X 3 BASEBOARD
FI
EPDM GASKET UNDERMUDSILL, TYP.
AIR BARRIER:TAPED VAPOR BARRIER
SEAL BOTTOM EDGEOF SHEATHING TO B.P.
FIRST FLOOR UNIT C
53'-0"
10"
4"
DAMPPROOFING, TYP.
(2) #4 CONT.
4" PERFORATED PIPE W/FILTER FABRIC, DRAIN TO
DAYLIGHT, TYP.
CAPILLARY BREAK@ T.O. FOOTING
(DAMPPROOFING ORMEMBRANE), TYP.
PROVIDE PERF PIPE BELOWSLAB FOR RADONMITIGATION
CONC. WALKWAY
LATERAL CROSS BRACING.INTERIOR WALL NOT TO BEAR
ON RIGID
FOOTING DRAIN
52'-6"
T.O. FIN. CONC.
THIRD FLOOR UNIT FM
77'-4.5"T.O. FIN. FLOOR
SECOND FLOOR UNIT E
SECOND FLOOR UNIT FTHIRD FLOOR UNIT E
G
G
M
9 1/
2"
! ! PROVIDE FIREBLOCKING, TYP.
74'-10.5"T.O. FIN. FLOOR
DF
F
M
2A-5.1
2A-5.2
3'-6
"
SECOND FLOOR UNIT A
THIRD FLOOR UNIT A
69'-3"T.O. FIN. FLOOR
HEAD FLASHINGFOAM INSULATION
FOAMED INSULATION
PAN FLASHING5/4 WOOD SILL BOARD
5/4 WOOD BASEBOARD
LIGHT COVE
PARAPET SHEATHINGSCABBED ON
1/4" PITCH
1X4 WOOD, CLEAR FINISH
1 1/2" STEEL TUBE
F
M
3A-5.1
1A-5.2
ENTRY CANOPY
FIRST FLOOR UNIT A
58'-0"T.O. SUBFLOOR
82 DEGREES
TAPERED RIGID FOAMW/ BLOCKING @ 24" O.C.
LATERAL CROSS BRACING.INTERIOR WALL NOT TO BEAR
ON RIGID
1 x 3
1X SHIPLAP SOFFIT,CLR FINISH
FL
10"
DAMPPROOFING, TYP.
(2) #4 CONT.
4" PERFORATED PIPE W/FILTER FABRIC, DRAIN TODAYLIGHT, TYP.
CAPILLARY BREAK@ T.O. FOOTING(DAMPPROOFING ORMEMBRANE), TYP.
PROVIDE PERF PIPE BELOWSLAB FOR RADON
MITIGATION
PATIO
EPDM GASKET UNDERMUDSILL, TYP.
AIR BARRIER:TAPED VAPOR BARRIER
48'-0"
47'-6"
T.O. FIN. CONC.
FIRST FLOOR UNIT A
T.O. WALKWAY
LATERAL CROSS BRACING.INTERIOR WALL NOT TO BEARON RIGID
I K
F
B
8A-5.1
82'-"3T.O. DOUBLE
TOP PLATE
RAIN LEADER
GUTTERTO RAIN LEADERS
AIR BARRIER:TAPED ZIP SYSTEM SHEATHING
AIR BARRIER:TAPED ZIP SYSTEMSHEATHING
1X STRAPPING TYP.
A
B
C
D
F
G
H
J
K
L
M
ASSEMBLY NOTES
FLAT ROOF: ~R-68Fully Adhered T.P.O. Membrane Roof System, On 1/2"Protection Board, On Tapered Polyiso. Insulation, On Non-Tapered Polyiso. Insulation (R-25 avg.), On "Zip System RoofSheathing" w/ Taped Seams(See Struct.) On Open Web Joists(See Struct.) filled w/ Dense Pack Cellulose Insulation (R-43),On 5/8" Type X GWB Ceiling. See Interior Finish Schedule forFinish Materials.
SHED ROOF : ~R-68Fully Adhered T.P.O. Membrane Roof System, On 1/2"Protection Board, On Non-Tapered Polyiso. Insulation (R-25avg.), On "Zip System Roof Sheathing" w/ Taped Seams (SeeStruct.) On Open Web Joists (See Struct.) filled w/ Dense PackCellulose Insulation (R-50), On 5/8" Type X GWB Ceiling. SeeInterior Finish Schedule for Finish Materials.
SHED ROOF (@ EAVE):Fully Adhered T.P.O. Membrane Roof System, On 1/2"Protection Board, On Non-Tapered Polyiso. Insulation (R-25avg.), On Roof Sheathing (See Struct.), On 2x framing (SeeStruct.), on Soffit Material. See Interior Finish Schedule forFinish Materials.
ROOF DECK: ~R-581x Decking (Alt. Synth. Decking), On Reverse Tapered 2xSleepers @ 16 O.C., On Fully Adhered T.P.O. Membrane RoofSystem, On 1/2" Protection Board, On Tapered Polyiso.Insulation, On Non-Tapered Polyiso. Insulation (R-25 avg.), On"Zip System Roof Sheathing" w/ Taped Seams (See Struct.), OnOpen Web Joists (See Struct.) filled w/ Dense Pack CelluloseInsulation (R-34), on 5/8" Type X GWB Ceiling. See InteriorFinish Schedule for Finish Materials.
EXTERIOR WALL: ~R-36Exterior Siding Type S1, S2 or S3 (See Elevations for Extents),On Rainscreen (1x3 K.D. strapping or "Home Slicker" - seesiding type for extents, incl. black vinyl bug screen), On WeatherResistant Barrier (WRB),On 1/2" "Zip System Wall Sheathing"w/ Taped Seams, On 10" Double Stud Wall ( See Struct.) w/Full-Depth Dense-Packed Cellulose (R-36), on 5/8" Type XGWB. See Interior Finish Schedule for Finish Materials.
PARTY WALL Type 1: Interior/Interior ~STC Rating: 45Double 2 x 4 Wall (8") w/ Min. Formaldehyde-Free BattInsulation One Side w/ 5/8" Type X GWB both sides.
PARTY WALL Type 2: Exterior/Interior ~R-36Exterior Siding Type S1, S2 or S3 (See Elevations for Extents),On Rainscreen (1x3 K.D. strapping or "Home Slicker" - seesiding type for extents), On Weather Resistant Barrier(WRB),On 1/2" "Zip System Wall Sheathing" w/ Taped Seams,On Type X GWB, On 10" Double Stud Wall ( See Struct.) w/Full-Depth Dense-Packed Cellulose (R-36), on 5/8" Type XGWB. See Interior Finish Schedule for Finish Materials. Type XGWB both sides.
PARTY WALL Type 3: Parapet Wall ~UninsulatedSAME ASSEMBLY BOTH SIDES: Exterior Siding Type 1, 2 or 3(See Elevations for Extents), On Rainscreen (1x3 K.D. strappingor "Home Slicker" - see siding type for extent), On WeatherResistant Barrier (WRB),On 1/2" "Zip System Wall Sheathing"w/ Taped Seams, On Type X GWB, On 10" Double Stud Wall( See Struct.)
CONC. FOUND. WALL @ Grade Change: ~R-17Free Draining Backfill, on Fluid-Applied Damproofing, OnReinforced Concrete Retaining Wall (See Struct.) On 1" RigidInsul., On Min. 15 Mil. Vapor Barrier Taped & Sealed, On 2xFraming w/ Dense Pack Cellulose, On 5/8" Type X GWB, OnInterior Finish. See Interior Finish Schedule for Finish Materials.
INTERIOR SLAB ON GRADE: ~R-16Sealed Reinforced 4" Concrete slab ( see struct), On 15 Mil.min. Poly Vapor Barrier Taped and Sealed, On 4" Rigid EPSInsulation, On 6" Crushed Gravel fill (No Fines)
INTERIOR FRAMED FLOORS:Finish Floor Material (See Interior Finish Schedule), OnStructural Floor Sheathing (See Struct.), On Floor Joists (SeeStruct.), On 5/8" Type X GWB Ceiling. See Interior FinishSchedule For Finish Materials.
SECOND FLOOR UNIT F
SECOND FLOOR UNIT E
M65'-6"T.O. FIN. FLOOR
SECOND FLOOR UNIT E
FIRST FLOOR UNIT E
FIRST FLOOR UNIT F
G
G
M
9 1/
2"
! ! PROVIDE FIREBLOCKING, TYP.
63'-0"T.O. FIN. FLOOR
FIRST FLOOR UNIT EFIRST FLOOR UNIT F
G
K
L
L
4A-5.2
8" TYP.
CAPILLARY BREAK@ T.O. FOOTING
(DAMPPROOFING ORMEMBRANE), TYP.
CONC. FOOTING(SEE STRUCT.)
AIR SEAL UNDERMUDSILL, TYP.DAMPROOFING
BATT SOUNDINSULATION
EPDM GASKET UNDERMUDSILL, TYP.
PROVIDE PERF PIPE BELOWSLAB FOR RADONMITIGATION
PROVIDE PERF PIPE BELOWSLAB FOR RADON
MITIGATION
1" RIGID INSUL.W/ D.P. CELL.
55'-6"T.O. CONCRETE
53'-0"T.O. FIN. CONC
SCALE: 3/4" = 1'-0"4 WALL SECTION - DECK_EAVE SCALE: 3/4" = 1'-0"2 WALL SECTION - BAY WINDOW SCALE: 3/4" = 1'-0"1 WALL SECTION - THICK SLAB
SCALE: 3/4" = 1'-0"3 PARTY WALL - INTERIORJUNE 1, 2012
BUILDING ELEMENTS PEAK LOAD 454,933 BTU / HOUR (EQUIP SIZING)
PEAK LOAD PER UNIT 32,495 BTU / HOUR
VENTILATION PRIMARY ENERGY 69.53 kBTU / SF / YEAR (TOTAL DAMAGE)
X EXHAUST ONLY SITE ENERGY 9.17 kBTU / SF / YEAR (LOCAL DAMAGE)HRV OR ERV 0 % EFFICIENT PV TO BE NET-ZERO 154.57 KW
PV PANELS NEEDED 672 8,400 SF OF PV
AIR TIGHTNESS ANNUAL HEATING 36.89 kBTU / SF / YEAR (TOTAL HEATING)
5.00 ACH50: ANNUAL COOLING kBTU / SF / YEAR (TOTAL COOLING)
R- VALUES WINDOW ENERGY (96,421) KBTU / YEAR (ENERGY + OR -)
19 WALLS TYPE: WALLS: FROM DASHBOARD
49 ROOF TYPE: ROOF: FROM DASHBOARD
10 SUSPENDED FLOORS TYPE: RAISED FLOOR: FROM DASHBOARD
20 BASEMENT WALLS TYPE: BASEMENT WALLS: FROM DASHBOARD HEAT GAINS10 SLABS TYPE: SLAB: FROM DASHBOARD SOLAR GAINS: 9%
PEOPLE, LIGHTS & APPLIANCES: 10%WINDOWS & DOORS MECHANICAL HEATING: 81%
WINDOWSSHGC: 0.37
GLASS 4.0 U-VALUE: 0.25FRAME 2.2 U-VALUE: 0.45 HEAT LOSSTOTAL 2.9 U-VALUE: 0.34 BUILDING SHELL: 30%
SOLID DOORS WINDOWS: 17%5.0 U-VALUE: 0.20 VENTILATION & AIR LEAKS: 53%
GLAZED DOORSGLASS SHGC: 0.37GLASS 4.0 U-VALUE: 0.25FRAME 2.2 U-VALUE: 0.45TOTAL 2.9 U-VALUE: 0.34 SHELL LOSSES
GLAZING % OF TFA WALLS: 46%6% SOUTH: ROOF: 9%7% NORTH: SUSPENDED FLOORS: 35%7% EAST: BASEMENT WALLS & SLAB: 11%7% WEST:
22,4
11U
S S
F:26
,506
Blu
eber
ry
Com
mon
s: B
ldg
12C
LIM
ATE
LO
CAT
ION
:
Falm
outh
, ME
SC
HE
ME
A: C
OD
E
TFA
:
0%# 2%# 4%# 6%# 8%#
SOUTH:
NORTH:
EAST:
WEST:
BUILDING SHELL:,
30% WINDOWS:, 17%
VENTILATION & AIR LEAKS:,
53%
SOLAR GAINS:,
9%
PEOPLE, LIGHTS & APPLIANCES:, 10%
MECHANICAL
HEATING:, 81%
WALLS:, 46%
ROOF:, 9%
SUSPENDED
FLOORS:, 35%
BASEMENT WALLS & SLAB:,
11%
IRC 2009 SCENARIO
Kaplan Thompson ArchitectsBlueberry Commons 14 Unit Bldgs10/9/12
Construction System Estimates:
TYPE CODEWALLS 2x6 FiberglassROOF Truss w/ Fiberglass BattsGROUND FLOOR / GARAGE CEILING 2" Thermax Rigid InsulationBASEMENT WALLS & SLAB 2" XPS Rigid Insulation
WINDOWSParadigm Vinyl, Double Glazed
AIR SEALING Minimal
LOW ENERGY Estimated Cost
WALLS
2" Dow Tuff-R Poly-Iso Rigid over Zip Wall over 2x6 w/ Cellulose
$1 / SF insulation + strapping, $1 SF labor
ROOFTruss w/ 15" Cellulose, OSB underside, air sealed
$0.50 / SF OSB + tape, $2 / SF cellulose
GROUND FLOOR / GARAGE CEILING
4" Thermax Rigid Insulation or 5" EIFS
$2 / SF insulation, $2 / SF labor
BASEMENT WALLS & SLAB 2" EPS Rigid Insulation $1,500 total bldg
WINDOWSMarvin Integrity or Pella 350 Triple Glazed +$30 / SF upgrade
AIR SEALING MESHA Standard $500 / unit labor + materials
PASSIVE HOUSE Estimated Cost
WALLS
4" Dow Tuff-R Poly-Iso Rigid over Zip Wall over 2x6 w/ Cellulose
$2 / SF insulation + strapping, $2 SF labor
ROOFTruss w/ 24" Cellulose, OSB underside, air sealed
$0.50 / SF OSB + tape, $4 / SF cellulose
GROUND FLOOR / GARAGE CEILING
6" Thermax Rigid Insulation or 7" EIFS
$4 / SF insulation, $4 / SF labor
BASEMENT WALLS & SLAB 2" EPS Rigid Insulation $2,200 total bldgWINDOWS Intus Vinyl, Triple Glazed +$30 / SF upgrade
AIR SEALING Passive House verified $1,500 / unit labor + materials
$25,000 PER UNIT MECHANICAL SYSTEMS
40,000 BTU / HR PEAK LOAD
LOW-ENERGY SCENARIO
BUILDING ELEMENTS PEAK LOAD 160,607 BTU / HOUR (EQUIP SIZING)
PEAK LOAD PER UNIT 11,472
VENTILATION PRIMARY ENERGY 38.91 kBTU / SF / YEAR (TOTAL DAMAGE)
EXHAUST ONLY SITE ENERGY 5.45 kBTU / SF / YEAR (LOCAL DAMAGE)
X HRV OR ERV 75 % EFFICIENT PV TO BE NET-ZERO 91.89 KWPV PANELS NEEDED 400 4,994 SF OF PV
AIR TIGHTNESS ANNUAL HEATING 10.83 kBTU / SF / YEAR (TOTAL HEATING)
1.50 ACH50: ANNUAL COOLING kBTU / SF / YEAR (TOTAL COOLING)
R- VALUES WINDOW ENERGY (15,106) KBTU / YEAR (ENERGY + OR -)
30 WALLS TYPE: WALLS: FROM DASHBOARD
49 ROOF TYPE: ROOF: FROM DASHBOARD
30 SUSPENDED FLOORS TYPE: RAISED FLOOR: FROM DASHBOARD
20 BASEMENT WALLS TYPE: BASEMENT WALLS: FROM DASHBOARD HEAT GAINS10 SLABS TYPE: SLAB: FROM DASHBOARD SOLAR GAINS: 27%
PEOPLE, LIGHTS & APPLIANCES: 20%WINDOWS & DOORS MECHANICAL HEATING: 53%
WINDOWSSHGC: 0.55
GLASS 5.9 U-VALUE: 0.17FRAME 4.0 U-VALUE: 0.25 HEAT LOSSTOTAL 4.5 U-VALUE: 0.22 BUILDING SHELL: 40%
SOLID DOORS WINDOWS: 25%5.0 U-VALUE: 0.20 VENTILATION & AIR LEAKS: 35%
GLAZED DOORSGLASS SHGC: 0.55GLASS 5.9 U-VALUE: 0.17FRAME 4.0 U-VALUE: 0.25TOTAL 4.5 U-VALUE: 0.22 SHELL LOSSES
GLAZING % OF TFA WALLS: 48%6% SOUTH: ROOF: 15%7% NORTH: SUSPENDED FLOORS: 19%7% EAST: BASEMENT WALLS & SLAB: 18%7% WEST:
22,4
11U
S S
F:26
,506
Blu
eber
ry
Com
mon
s: B
ldg
12C
LIM
ATE
LO
CAT
ION
:
Falm
outh
, ME
SC
HE
ME
C: L
OW
EN
ERG
Y
TFA
:
0%# 2%# 4%# 6%# 8%#
SOUTH:
NORTH:
EAST:
WEST:
BUILDING SHELL:,
40%
WINDOWS:, 25%
VENTILATION & AIR LEAKS:,
35%
SOLAR GAINS:,
27% PEOPLE, LIGHTS & APPLIANCES:, 20%
MECHANICAL
HEATING:, 53%
WALLS:, 48%
ROOF:, 15% SUSPEND
ED FLOORS:,
19%
BASEMENT WALLS & SLAB:,
18%
Kaplan Thompson ArchitectsBlueberry Commons 14 Unit Bldgs10/9/12
Construction System Estimates:
TYPE CODEWALLS 2x6 FiberglassROOF Truss w/ Fiberglass BattsGROUND FLOOR / GARAGE CEILING 2" Thermax Rigid InsulationBASEMENT WALLS & SLAB 2" XPS Rigid Insulation
WINDOWSParadigm Vinyl, Double Glazed
AIR SEALING Minimal
LOW ENERGY Estimated Cost
WALLS
2" Dow Tuff-R Poly-Iso Rigid over Zip Wall over 2x6 w/ Cellulose
$1 / SF insulation + strapping, $1 SF labor
ROOFTruss w/ 15" Cellulose, OSB underside, air sealed
$0.50 / SF OSB + tape, $2 / SF cellulose
GROUND FLOOR / GARAGE CEILING
4" Thermax Rigid Insulation or 5" EIFS
$2 / SF insulation, $2 / SF labor
BASEMENT WALLS & SLAB 2" EPS Rigid Insulation $1,500 total bldg
WINDOWSMarvin Integrity or Pella 350 Triple Glazed +$30 / SF upgrade
AIR SEALING MESHA Standard $500 / unit labor + materials
PASSIVE HOUSE Estimated Cost
WALLS
4" Dow Tuff-R Poly-Iso Rigid over Zip Wall over 2x6 w/ Cellulose
$2 / SF insulation + strapping, $2 SF labor
ROOFTruss w/ 24" Cellulose, OSB underside, air sealed
$0.50 / SF OSB + tape, $4 / SF cellulose
GROUND FLOOR / GARAGE CEILING
6" Thermax Rigid Insulation or 7" EIFS
$4 / SF insulation, $4 / SF labor
BASEMENT WALLS & SLAB 2" EPS Rigid Insulation $2,200 total bldgWINDOWS Intus Vinyl, Triple Glazed +$30 / SF upgrade
AIR SEALING Passive House verified $1,500 / unit labor + materials
Kaplan Thompson ArchitectsBlueberry Commons 14 Unit Bldgs10/9/12
Construction System Estimates:
TYPE CODEWALLS 2x6 FiberglassROOF Truss w/ Fiberglass BattsGROUND FLOOR / GARAGE CEILING 2" Thermax Rigid InsulationBASEMENT WALLS & SLAB 2" XPS Rigid Insulation
WINDOWSParadigm Vinyl, Double Glazed
AIR SEALING Minimal
LOW ENERGY Estimated Cost
WALLS
2" Dow Tuff-R Poly-Iso Rigid over Zip Wall over 2x6 w/ Cellulose
$1 / SF insulation + strapping, $1 SF labor
ROOFTruss w/ 15" Cellulose, OSB underside, air sealed
$0.50 / SF OSB + tape, $2 / SF cellulose
GROUND FLOOR / GARAGE CEILING
4" Thermax Rigid Insulation or 5" EIFS
$2 / SF insulation, $2 / SF labor
BASEMENT WALLS & SLAB 2" EPS Rigid Insulation $1,500 total bldg
WINDOWSMarvin Integrity or Pella 350 Triple Glazed +$30 / SF upgrade
AIR SEALING MESHA Standard $500 / unit labor + materials
PASSIVE HOUSE Estimated Cost
WALLS
4" Dow Tuff-R Poly-Iso Rigid over Zip Wall over 2x6 w/ Cellulose
$2 / SF insulation + strapping, $2 SF labor
ROOFTruss w/ 24" Cellulose, OSB underside, air sealed
$0.50 / SF OSB + tape, $4 / SF cellulose
GROUND FLOOR / GARAGE CEILING
6" Thermax Rigid Insulation or 7" EIFS
$4 / SF insulation, $4 / SF labor
BASEMENT WALLS & SLAB 2" EPS Rigid Insulation $2,200 total bldgWINDOWS Intus Vinyl, Triple Glazed +$30 / SF upgrade
AIR SEALING Passive House verified $1,500 / unit labor + materials
$15,000 PER UNIT MECHANICAL SYSTEMS
12,000 BTU / HOUR PEAK LOAD
PASSIVHAUS SCENARIO
BUILDING ELEMENTS PEAK LOAD 82,329 BTU / HOUR (EQUIP SIZING)
PEAK LOAD PER UNIT 5,881
VENTILATION PRIMARY ENERGY 31.68 kBTU / SF / YEAR (TOTAL DAMAGE)
EXHAUST ONLY SITE ENERGY 4.57 kBTU / SF / YEAR (LOCAL DAMAGE)
X HRV OR ERV 90 % EFFICIENT PV TO BE NET-ZERO 76.95 KWPV PANELS NEEDED 335 4,182 SF OF PV
AIR TIGHTNESS ANNUAL HEATING 4.70 kBTU / SF / YEAR (TOTAL HEATING)
0.60 ACH50: ANNUAL COOLING kBTU / SF / YEAR (TOTAL COOLING)
R- VALUES WINDOW ENERGY 8,689 KBTU / YEAR (ENERGY + OR -)
44 WALLS TYPE: WALLS: FROM DASHBOARD
80 ROOF TYPE: ROOF: FROM DASHBOARD
25 SUSPENDED FLOORS TYPE: RAISED FLOOR: FROM DASHBOARD
20 BASEMENT WALLS TYPE: BASEMENT WALLS: FROM DASHBOARD HEAT GAINS20 SLABS TYPE: SLAB: FROM DASHBOARD SOLAR GAINS: 35%
PEOPLE, LIGHTS & APPLIANCES: 28%WINDOWS & DOORS MECHANICAL HEATING: 37%
WINDOWSSHGC: 0.55
GLASS 7.69 U-VALUE: 0.13FRAME 5.88 U-VALUE: 0.17 HEAT LOSSTOTAL 5.87 U-VALUE: 0.17 BUILDING SHELL: 48%
SOLID DOORS WINDOWS: 29%5.00 U-VALUE: 0.20 VENTILATION & AIR LEAKS: 23%
GLAZED DOORSGLASS SHGC: 0.55GLASS 7.69 U-VALUE: 0.13FRAME 5.88 U-VALUE: 0.17TOTAL 5.87 U-VALUE: 0.17 SHELL LOSSES
GLAZING % OF TFA WALLS: 42%6% SOUTH: ROOF: 12%7% NORTH: SUSPENDED FLOORS: 30%7% EAST: BASEMENT WALLS & SLAB: 16%7% WEST:
22,4
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ldg
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LIM
ATE
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CAT
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:
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SC
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IVE
HO
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:
0%# 2%# 4%# 6%# 8%#
SOUTH:
NORTH:
EAST:
WEST:
BUILDING SHELL:,
48%
WINDOWS:, 29%
VENTILATION & AIR LEAKS:,
23%
SOLAR GAINS:,
35%
PEOPLE, LIGHTS & APPLIANCES:, 28% MECHANI
CAL HEATING:,
37%
WALLS:, 42%
ROOF:, 12%
SUSPENDED
FLOORS:, 30%
BASEMENT WALLS & SLAB:,
16%
Kaplan Thompson ArchitectsBlueberry Commons 14 Unit Bldgs10/9/12
Construction System Estimates:
TYPE CODEWALLS 2x6 FiberglassROOF Truss w/ Fiberglass BattsGROUND FLOOR / GARAGE CEILING 2" Thermax Rigid InsulationBASEMENT WALLS & SLAB 2" XPS Rigid Insulation
WINDOWSParadigm Vinyl, Double Glazed
AIR SEALING Minimal
LOW ENERGY Estimated Cost
WALLS
2" Dow Tuff-R Poly-Iso Rigid over Zip Wall over 2x6 w/ Cellulose
$1 / SF insulation + strapping, $1 SF labor
ROOFTruss w/ 15" Cellulose, OSB underside, air sealed
$0.50 / SF OSB + tape, $2 / SF cellulose
GROUND FLOOR / GARAGE CEILING
4" Thermax Rigid Insulation or 5" EIFS
$2 / SF insulation, $2 / SF labor
BASEMENT WALLS & SLAB 2" EPS Rigid Insulation $1,500 total bldg
WINDOWSMarvin Integrity or Pella 350 Triple Glazed +$30 / SF upgrade
AIR SEALING MESHA Standard $500 / unit labor + materials
PASSIVE HOUSE Estimated Cost
WALLS
4" Dow Tuff-R Poly-Iso Rigid over Zip Wall over 2x6 w/ Cellulose
$2 / SF insulation + strapping, $2 SF labor
ROOFTruss w/ 24" Cellulose, OSB underside, air sealed
$0.50 / SF OSB + tape, $4 / SF cellulose
GROUND FLOOR / GARAGE CEILING
6" Thermax Rigid Insulation or 7" EIFS
$4 / SF insulation, $4 / SF labor
BASEMENT WALLS & SLAB 2" EPS Rigid Insulation $2,200 total bldgWINDOWS Intus Vinyl, Triple Glazed +$30 / SF upgrade
AIR SEALING Passive House verified $1,500 / unit labor + materials
$7,500 PER UNIT MECHANICAL SYSTEMS
Kaplan Thompson ArchitectsBlueberry Commons 14 Unit Bldgs10/9/12
Construction System Estimates:
TYPE CODEWALLS 2x6 FiberglassROOF Truss w/ Fiberglass BattsGROUND FLOOR / GARAGE CEILING 2" Thermax Rigid InsulationBASEMENT WALLS & SLAB 2" XPS Rigid Insulation
WINDOWSParadigm Vinyl, Double Glazed
AIR SEALING Minimal
LOW ENERGY Estimated Cost
WALLS
2" Dow Tuff-R Poly-Iso Rigid over Zip Wall over 2x6 w/ Cellulose
$1 / SF insulation + strapping, $1 SF labor
ROOFTruss w/ 15" Cellulose, OSB underside, air sealed
$0.50 / SF OSB + tape, $2 / SF cellulose
GROUND FLOOR / GARAGE CEILING
4" Thermax Rigid Insulation or 5" EIFS
$2 / SF insulation, $2 / SF labor
BASEMENT WALLS & SLAB 2" EPS Rigid Insulation $1,500 total bldg
WINDOWSMarvin Integrity or Pella 350 Triple Glazed +$30 / SF upgrade
AIR SEALING MESHA Standard $500 / unit labor + materials
PASSIVE HOUSE Estimated Cost
WALLS
4" Dow Tuff-R Poly-Iso Rigid over Zip Wall over 2x6 w/ Cellulose
$2 / SF insulation + strapping, $2 SF labor
ROOFTruss w/ 24" Cellulose, OSB underside, air sealed
$0.50 / SF OSB + tape, $4 / SF cellulose
GROUND FLOOR / GARAGE CEILING
6" Thermax Rigid Insulation or 7" EIFS
$4 / SF insulation, $4 / SF labor
BASEMENT WALLS & SLAB 2" EPS Rigid Insulation $2,200 total bldgWINDOWS Intus Vinyl, Triple Glazed +$30 / SF upgrade
AIR SEALING Passive House verified $1,500 / unit labor + materials
6,000 BTU / HOUR PEAK LOAD
1,500 WATTS = 6,400 BTU / HOUR
1,500 SF PASSIVHAUS HEATING LOAD
(2) $50 = $100
750 W!+!
750 W
HARBORVIEW TOWNHOUSES
HEATING ENERGY: !14 kBTU / SF / YR!
!
TOTAL ENERGY: !39 kBTU / SF / YR!
!
AIR TIGHTNESS:!1.5 ACH50
DEVELOPER DRIVEN MARKET RATE:!
!
PH = “TOO MUCH”
LIHTC AFFORDABLE MULTI-FAMILY
BLUEBERRY COMMONS Kaplan Thompson ArchitectsENERGY COST OPTIMIZATION October 9, 2012
BUILDING DATAUtility Electricity cost: $0.11 ($131.58) ($95.89) ($59.91)Typical kWH / Month Useage 350 27% 54%
House Model: Typical APTDescription: 1,500 SF 2 BRHouse Size (square feet): 1,500Constr Cost: ($/SF) $135Estimated Base House Cost: $202,500
Option A: Option B: Option C:Window Square Feet: (includes glass doors) 127 CODE LOW ENERGY PASSIVE HOUSEExterior Wall Linear Feet: 42 5.00 ACH50 1.50 ACH50 0.60 ACH50Roof Square Feet: 500 R-10 Slab R-10 Slab R-20 SlabBasement Square Feet: 50 R-10 Basement Walls R-20 Basement Walls R-20 Basement WallsSlab on Grade Square Feet: 500 R-19 Walls R-30 Walls R-44 Walls
R-49 Roof R-49 Roof R-80 RoofLocation: Falmouth, ME US Double Glazed Vinyl US TRIPLE Glazed Fiberglass Euro Triple Glazed Vinyl
Peak Heat Load (kBTU / Hour) (system sizing only) 32,495 11,472 5,881Peak Load (Watts) 3,364 1,725 Annual Heat Demand (kBTU / YR) 55,335 16,245 7,125Annual Heat Load (kWH/YR) 16,217 4,761 2,088kBTU / SF / YR (Passivhaus = 4.75 BTU/sf/yr TFA sf!)) 36.89 10.83 4.75
Heating System Type: Propane Heat & HWHeat Pump Heat PumpHeating System $ $27,000 $10,000 $8,000Ventilation System Cost (exhaust only vs. HRV) $250 $3,000 $5,000COP 2.5 2.5Heating Demand (kWH / YR) 4,761 835
Lights & Appliances (kWH / YR) 4,200 4,200 4,200
Family Size 1 1 1DHW demand (kWH / YR) 1,500 1,500 1,500
Total kWH / Year: 5,700 10,461 6,535Propane Cost / Year: 952.00$ Window Upgrade Cost / SF: $0 $30 $30Wall Upgrade Cost / linear foot: $16.00 $24.00Roof Upgrade Cost / SF: $2.50 $4.50Basement Upgrade Cost / Total: $2.00 $3.00Slab on Grade upgrade cost / SF: $2.00 $3.00
Window Upgrade Cost: $0 $3,810 $3,810Wall Upgrade Cost: $672 $1,008Roof Upgrade Cost / 14 UNITS: $1,250 $2,250Basement Upgrade Cost / SF: $100 $150Ground Floor Upgrade Cost / SF / 14 UNITS: $1,000 $1,500Air Sealing Cost Increase / UNIT: $500 $1,500TOTAL CONSTRUCTION COST INCREASE: $0 $7,332 $10,218
Base House Cost: $175,250 $175,250 $175,250Mechanical System Cost: $27,250 $13,000 $13,000Construction Cost Increase for Options: $0 $6,832 $8,718
Total Building Cost: $202,500 $195,082 $196,968Cost Savings: $7,418 $5,532
Interest Rate YearsMonthly Payment for Total Building: 5.5% 20 ($1,392.97) ($1,341.94) ($1,354.92)Cost for energy / mo from Utility Company ( w/out inflation) (131.58) (95.89) (59.91)
TOTAL COST OF BUILDING / MONTH: ($1,524.56) ($1,437.84) ($1,414.82)Cost Savings per Month: $87 $110
Cost per month to run your new apartment (heat, hot water & appliances) on standard utility electricity :
BLUEBERRY COMMONS Kaplan Thompson ArchitectsENERGY COST OPTIMIZATION October 9, 2012
BUILDING DATAUtility Electricity cost: $0.11 ($131.58) ($95.89) ($59.91)Typical kWH / Month Useage 350 27% 54%
House Model: Typical APTDescription: 1,500 SF 2 BRHouse Size (square feet): 1,500Constr Cost: ($/SF) $135Estimated Base House Cost: $202,500
Option A: Option B: Option C:Window Square Feet: (includes glass doors) 127 CODE LOW ENERGY PASSIVE HOUSEExterior Wall Linear Feet: 42 5.00 ACH50 1.50 ACH50 0.60 ACH50Roof Square Feet: 500 R-10 Slab R-10 Slab R-20 SlabBasement Square Feet: 50 R-10 Basement Walls R-20 Basement Walls R-20 Basement WallsSlab on Grade Square Feet: 500 R-19 Walls R-30 Walls R-44 Walls
R-49 Roof R-49 Roof R-80 RoofLocation: Falmouth, ME US Double Glazed Vinyl US TRIPLE Glazed Fiberglass Euro Triple Glazed Vinyl
Peak Heat Load (kBTU / Hour) (system sizing only) 32,495 11,472 5,881Peak Load (Watts) 3,364 1,725 Annual Heat Demand (kBTU / YR) 55,335 16,245 7,125Annual Heat Load (kWH/YR) 16,217 4,761 2,088kBTU / SF / YR (Passivhaus = 4.75 BTU/sf/yr TFA sf!)) 36.89 10.83 4.75
Heating System Type: Propane Heat & HWHeat Pump Heat PumpHeating System $ $27,000 $10,000 $8,000Ventilation System Cost (exhaust only vs. HRV) $250 $3,000 $5,000COP 2.5 2.5Heating Demand (kWH / YR) 4,761 835
Lights & Appliances (kWH / YR) 4,200 4,200 4,200
Family Size 1 1 1DHW demand (kWH / YR) 1,500 1,500 1,500
Total kWH / Year: 5,700 10,461 6,535Propane Cost / Year: 952.00$ Window Upgrade Cost / SF: $0 $30 $30Wall Upgrade Cost / linear foot: $16.00 $24.00Roof Upgrade Cost / SF: $2.50 $4.50Basement Upgrade Cost / Total: $2.00 $3.00Slab on Grade upgrade cost / SF: $2.00 $3.00
Window Upgrade Cost: $0 $3,810 $3,810Wall Upgrade Cost: $672 $1,008Roof Upgrade Cost / 14 UNITS: $1,250 $2,250Basement Upgrade Cost / SF: $100 $150Ground Floor Upgrade Cost / SF / 14 UNITS: $1,000 $1,500Air Sealing Cost Increase / UNIT: $500 $1,500TOTAL CONSTRUCTION COST INCREASE: $0 $7,332 $10,218
Base House Cost: $175,250 $175,250 $175,250Mechanical System Cost: $27,250 $13,000 $13,000Construction Cost Increase for Options: $0 $6,832 $8,718
Total Building Cost: $202,500 $195,082 $196,968Cost Savings: $7,418 $5,532
Interest Rate YearsMonthly Payment for Total Building: 5.5% 20 ($1,392.97) ($1,341.94) ($1,354.92)Cost for energy / mo from Utility Company ( w/out inflation) (131.58) (95.89) (59.91)
TOTAL COST OF BUILDING / MONTH: ($1,524.56) ($1,437.84) ($1,414.82)Cost Savings per Month: $87 $110
Cost per month to run your new apartment (heat, hot water & appliances) on standard utility electricity :
HOW MUCH HEAT CAN YOUR VENTILATION AIR MOVE?
+
HEATING ENERGY: !4.75 kBTU / SF / YR!
!
TOTAL ENERGY: !38 kBTU / SF / YR!
!
AIR TIGHTNESS:!0.6 ACH50
MANAGED RENTAL!!
PH = HEAT INCLUDED!PH = FREE MONEY!
BARRIERS
WALL THICKNESS HANG-UPS
WHERE IS OUR THERMAL “CANTILEVER”
NEW ENGLAND IS COLDER THAN
GERMANY
$$$
PASSIV HAUS INSTITUT
KEY LESSONS
PRIMARY OVER
HEATING
AIR TIGHTNESS IS
CHEAP
SHADING STUDY
WATCH YOUR SOLAR
CERTIFY
4.00 NOT
4.75
PRE-CERTIFY!
NO EXCUSES WITH GOOD BUDGETS
LET’S GET TO WORK