Passive House Planning: Worksheet Directory

PHPP 2007, Brief Instructions PHPP2007_Päikesepüüdja.ods

B R I E F I N S T R U C T I O N S Version 1.0

Passive House Verification: Meaning of Field Formats

Example Field Format Meaning

78.8 Courier, blue, bold on yellow background Input Field: Please enter the required value here

6619 Arial, black, standard on white background Calculation field; please do not change

78.8 Courier New, purple, bold on white background Field with references to another sheet - should not be changed.

126.0 Arial, black, large & bold on green background Important result

Passive House Planning: Worksheet DirectoryWorksheet Name Function Brief Description Required for the certification?

Verification Building Data; Summary of Results Building description, selection of the calculation method, summary of results yes

Areas Areas Summary Building Element Areas, Thermal Bridges, Treated Floor Area. Use exterior dimension references! yes

U-List U-Value Summary List of calculation results from the U-Values worksheet, Building Element Database yes

U-Values Calculation of Standard Building Element U-Values Heat transmission coefficient calculations in accordance with DIN EN ISO 6946. yes

Ground Calculation of Reduction Factors Against Ground More precise calculation of heat losses through the ground if applicable

Windows yes

WinType Characteristic Values of Glazings and Frames Lists of glazings and window frames with all necessary characteristics yes

Shading Input of shading parameters, e.g. balcony, neighbouring building, window reveal and calculating the shading factors yes

Ventilation yes

Annual Heat Demand Annual Heat Demand / Annual Method yes

Monthly Method Monthly Method Following EN 13790 if selected

Heating Load Building Heat Load Calculation yes

Summer Assessment of Summer Climate Calculation of the frequency of overheating as a measure of summer comfort yes

Shading-S Determination of Shading Factors for the Summer Shading factors for the summer period yes

SummVent Determination of Summer Ventilation Estimation of air flow rates for natural ventilation during the summer period if used

Cooling Monthly Method for Cooling Demand Calculation of the annual useful cooling demand, analogous to Monthly Method worksheet if present

Cooling Units Latent Cooling Energy Calculation of the energy demand for dehumidification and choice of cooling method if present

Cooling Load Building Cooling Load Calculation Calculation of the daily average cooling load of the building no

DHW+Distribution Distribution losses; DHW Requirement and Losses yes

SolarDHW Solar DHW Heating Calculation of the solar fraction of DHW

Electricity Electricity Demand for Dwellings Calculation of the electricity demand of Passive Houses with residential use yes

Electricity Non-Dom Electricity Demand for Non-Domestic Use Calculation of the electricity demand for lighting, electric devices and kitchens for non-domestic buildings no

Aux Electricity Auxiliary Electricity Demand Calculation of auxiliary electricity and corresponding primary energy demand yes

PE Value Selection of heat generators, calculation of the specific primary energy and CO2 demands from the present results yes

Compact if present

Boiler if present

District Heat District Heat Transfer Station Calculation of the final and primary energy demands (heat) if present

Climate Data Climate Region Selection or Definition of User Data if not standard

IHG Internal Heat Gains in Dwellings Calculation of the internal heat gains based on the Electricity and Aux Electricity sheets. no

IHG Non-Dom Internal Heat Gains for Non-Domestic Use Calculation of the internal heat gains for non-domestic buildings based on the Electricity Non-Dom worksheet and the occupancy no

Use Non-Dom Patterns of Non-Domestic Utilisation Input or selection of utilisation patterns for planning of electricity demand and internal heat gains no

Data Database Table of primary energy factors following Gemis and database no

CopyrightPHPP 1998-2007Passivhaus Institut

Place your mouse here to see the PHPP help.

If no help appears when the mouse passes over cell B5, you can activate it by going into the Worksheet Menu Bar/Tools/Options/View, and under "Comments", select "Comment Indicator Only".

UW-Value Determination

Input of geometry, orientation, frame lengths, frame widths, Ug and U-values of the frame, and the thermal bridge heat loss coefficients

of the connections; from these inputs, determine UW

and total radiation.

Determination of Shading Factors and Influence of Window Orientation

Air Flow Rates, Exhaust/Supply Air Balancing, Pressurization Test Results

Sizing the ventilation system from extract and supply air requirements, infiltration air change rate and actual efficiency of heat recovery, input of pressurization test results

Calculation of the annual space heat demand according to the energy balance method following EN 13790: Transmission + Ventilation - η (Solar Gains + Internal Gains)

Calculation procedure for the monthly method following EN 13790. Make appropriate selection in the Verification worksheet, if calculations should be performed following this procedure

Calculation of the nominal heat load using a balance procedure for the design day: max transmission + max ventilation - h (minimum solar gains + internal heat gains)

Heat loss calculation of the distribution systems (heating; DHW); calculation of the useful heat requirement of DHW and storage losses

if a solar system is present

Specific Primary Energy and CO2 Demands

Efficiency of Heat GeneratorCompact Heat Pump Unit

Calculation of the efficiency of a combined heat generation for heating and DHW exclusively by means of an electric compact heat pump unit under the boundary conditions of the project

Efficiency of Heat GeneratorBoiler

For the calculation of the efficiency of heat generation with standard boilers (NT and calorific boilers) for the project given boundary conditions.

Climate data for the worksheets Annual Heat Demand, Windows, Heating Load, Monthly Method, Summer, Cooling, Cooling Units, Cooling Load

PHPP 2007, Windows PHPP2007_Päikesepüüdja.ods

Passive House Planning

R E D U C T I O N F A C T O R S O L A R R A D I A T I O N , W I N D O W U - V A L U E

Building: Päikesepüüdja Annual Heat Demand: 14 kWh/(m²a) Heating Degree Hours:

Climate: Tallinn EMHI 99.9

Shading Dirt g-Value

maximum: kWh/(m²a) 0.75 0.95 0.85 kWh/a kWh/a

North 124 0.94 0.95 0.85 0.726 0.50 0.55 0.90 0.81 0.7 122 73 30East 161 0.91 0.95 0.85 0.726 0.50 0.53 0.90 0.81 0.7 177 73 42South 301 0.91 0.95 0.85 0.924 0.50 0.68 65.79 0.69 60.8 301 4512 6736West 187 0.91 0.95 0.85 0.768 0.50 0.56 2.79 0.78 2.1 172 218 135Horizontal 248 0.75 0.95 0.85 0.000 0.00 0.00 0.00 0.00 0.0 248 0 0

Total or Average Value for All Windows. 0.50 0.67 70.38 0.69 64.2 4876 6944

Installed Glazing Frame g-Value U-Value Window Frame Dimensions Installation Results

Description Orientation Width Height Nr. Nr. Nr. Glazing Frames

Degrees Degrees m m Select: Select: Select: - m m m m W/(mK) W/(mK) %2 A1S 190 90 South 2.1 2.55 2 2 10 0.50 0.60 0.90 0.02 0.02 0.02 0.02 0 0 1 1 0.025 0.010 10.7 10.43 0.66 0.972 A2S 190 90 South 0.9 2.55 2 2 10 0.50 0.60 0.90 0.02 0.02 0.02 0.02 0 1 1 1 0.025 0.010 4.6 4.38 0.71 0.961 D1W 280 90 West 0.9 2.1 4 2 11 0.50 0.60 0.90 0.07 0.07 0.07 0.07 1 1 1 1 0.025 0.010 1.9 1.49 0.77 0.791 A5W 280 90 West 0.9 1 4 2 11 0.50 0.60 0.90 0.07 0.07 0.07 0.07 1 1 1 1 0.025 0.010 0.9 0.65 0.81 0.731 A5N 10 90 North 0.9 1 1 2 11 0.50 0.60 0.90 0.07 0.07 0.07 0.07 1 1 1 1 0.025 0.010 0.9 0.65 0.81 0.731 A5E 100 90 East 0.9 1 3 2 11 0.50 0.60 0.90 0.07 0.07 0.07 0.07 1 1 1 1 0.025 0.010 0.9 0.65 0.81 0.733 A3S 190 90 South 2.1 2.55 2 2 10 0.50 0.60 0.90 0.02 0.02 0.02 0.02 0 1 1 1 0.025 0.010 16.1 15.65 0.66 0.974 A4S 190 90 South 0.9 2.55 2 2 11 0.50 0.60 0.90 0.07 0.07 0.07 0.07 0 0 1 1 0.025 0.010 9.2 7.33 0.74 0.804 A5S 190 90 South 0.9 2.55 2 2 11 0.50 0.60 0.90 0.07 0.07 0.07 0.07 0 0 1 1 0.025 0.010 9.2 7.33 0.74 0.803 A6S 190 90 South 2.1 2.55 2 2 10 0.50 0.60 0.90 0.02 0.02 0.02 0.02 0 1 1 1 0.025 0.010 16.1 15.65 0.66 0.97

0 0 0

A1S 180 90 South 1.200 2.100 2 2 29 0.50 0.60 0.73 0.05 0.05 0.05 0.05 0 1 1 1 0.034 0.040 0.0 0.00

0 0 0

0 0 0

0 0 0

0 0 0

0 0 0

0 0 0

0 0 0

0 0 0

0 0 0

0 0 0

0 0 0

0 0 0

0 0 0

0 0 0

0 0 0

0 0 0

0 0 0

Window Area Orientation

Global Radiation (Cardinal Points)

Non-Perpendicu-lar Incident Radiation

Glazing Fraction

Reduction Factor for Solar Radiation

WindowArea

WindowU-Value

GlazingArea

Average Global

Radiation

Transmission Losses

Heat Gains Solar

Radiationm2 W/(m2K) m2 kWh/(m2a)

Window Rough Openings Ψ-Value

Quan-tity

Deviation from North

Angle of Inclination from the

Horizontal

in Area in the Areas

worksheet

Select glazing from the WinType

worksheet

Select window from the WinType

worksheet

Perpen-dicular

Radiation

Width - Left

Width - Right

Width - Below

Width - Above

Left1/0

Right1/0

Sill1/0

Head1/0

ΨSpacer

ΨInstallation

Window Area

Glazing Area

U-ValueWindow

Glazed Fraction

per Window

W/(m2K) W/(m2K) m2 m2 W/(m2K)

PHPP 2007, Verification PHPP2007_Päikesepüüdja.ods

Passive House Verification

Photo or Drawing

Building: PäikesepüüdjaLocation and Climate: Tallinn EMHI

Street:

Postcode/City: TallinnCountry: Estonia

Building Type: Private house

Home Owner(s) / Client(s):

Street:

Postcode/City:

Architect:

Street:

Postcode/City:

Mechanical System:

Street:

Postcode/City:

Year of Construction: 2013

Number of Dwelling Units: 1 Interior Temperature: 20.0 °C

375.0 Internal Heat Gains: 2.1

Number of Occupants: 4.3

Specific Demands with Reference to the Treated Floor Area

Treated Floor Area: 150.0

Applied: Monthly Method PH Certificate: Fulfilled?

Specific Space Heat Demand: 14 15 Yes

Pressurization Test Result: 0.4 0.6 Yes

58 120 Yes

30

20

Heating Load: 17Frequency of Overheating: 0 % over 25 °C

Specific Useful Cooling Energy Demand: 15

Cooling Load: 5

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.

Enclosed Volume Ve: m3 W/m2

m2

kWh/(m2a) kWh/(m2a)

h-1 h-1

Specific Primary Energy Demand(DHW, Heating, Cooling, Auxiliary and Household Electricity): kWh/(m2a) kWh/(m2a)

Specific Primary Energy Demand(DHW, Heating and Auxiliary Electricity): kWh/(m2a)

Specific Primary Energy DemandEnergy Conservation by Solar Electricity: kWh/(m2a)

W/m2

kWh/(m2a) kWh/(m2a)

W/m2

PHPP 2007, Areas PHPP2007_Päikesepüüdja.ods


A R E A S D E T E R M I N A T I O N

Building:Päikesepüüdja Heat Demand 14 kWh/(m²a)

SummaryBuilding Element Overview

Area Group Area Unit Comments

1 Treated Floor Area 150.00 m² Living area or useful area within the thermal envelope

2 North Windows A 0.90 m² North Windows 0.814

3 East Windows A 0.90 m² East Windows 0.814

4 South Windows A 65.79 m² Results are from the Windows worksheet. South Windows 0.686

5 West Windows A 2.79 m² West Windows 0.782

6 Horizontal Windows A 0.00 m² Horizontal Windows

7 Exterior Door A 0.00 m² Please subtract area of door from respective building element Exterior Door

8 Exterior Wall - Ambient A 176.96 m² Window areas are subtracted from the individual areas specified in the "Windows" worksheet. Exterior Wall - Ambient 0.077

9 Exterior Wall - Ground B 0.00 m² Temperature Zone "A" is ambient air. Exterior Wall - Ground

10 Roof/Ceiling - Ambient A 94.93 m² Temperature zone "B" is the ground. Roof/Ceiling - Ambient 0.069

11 Floor Slab B 94.93 m² Floor Slab 0.083

12 0.00 m² Temperature zones "A", "B","P" and "X" may be used. NOT "I"

13 0.00 m² Temperature zones "A", "B","P" and "X" may be used. NOT "I" Factor for X

14 X 0.00 m² 75%

Thermal Bridge Overview

15 Thermal Bridges Ambient A 62.00 m Units in m Thermal Bridges Ambient -0.029

16 Perimeter Thermal Bridges P 36.00 m Units in m; temperature zone "P" is perimeter (see Ground worksheet). Perimeter Thermal Bridges -0.045

17 Thermal Bridges Floor Slab B 0.00 m Units in m Thermal Bridges Floor Slab

18 Partition Wall to Neighbour I 0.00 m² No heat losses, only considered for the heat load calculation. Partition Wall to Neighbour

Total Thermal Envelope 437.20 m² Average Therm. Envelope 0.168

Area InputNr.

Area Nr. Building Element Description Assigned to Group x ( x + - - ) =

Treated Floor Area 1 Treated Floor Area 1 x ( x + 150.00 - ) = 150.0

North Windows 2 North Windows 0.9 From Windows sheet 0.814

East Windows 3 East Windows 0.9 From Windows sheet 0.814

South Windows 4 South Windows Please complete in Windows worksheet only! 65.8 From Windows sheet 0.686

West Windows 5 West Windows 2.8 From Windows sheet 0.782

Horizontal Windows 6 Horizontal Windows 0.0 From Windows sheet 0.000

Exterior Door 7 Exterior Door x ( x + - ) - = U-Value Exterior Door

1 Välissein põhjas 8 Exterior Wall - Ambient 1 x ( 11.00 x 6.30 + - ) - 0.9 = 68.4 1 0.077

2 Välissein lõunas 8 Exterior Wall - Ambient 1 x ( 11.00 x 6.30 + - ) - 65.8 = 3.5 1 0.077

3 Välissein idas 8 Exterior Wall - Ambient 1 x ( 8.63 x 6.30 + - ) - 0.9 = 53.5 1 0.077

4 Välissein läänes 8 Exterior Wall - Ambient 1 x ( 8.63 x 6.30 + - ) - 2.8 = 51.6 1 0.077

5 x ( x + - ) - 0.0 = 0

6 Põrand 11 Floor Slab 1 x ( 8.63 x 11.00 + - ) - 0.0 = 94.9 3 0.083

7 x ( x + - ) - 0.0 = 0

8 Katuslagi 10 Roof/Ceiling - Ambient 1 x ( 8.63 x 11.00 + - ) - 0.0 = 94.9 2 0.069

9 x ( x + - ) - 0.0 = 0

10 x ( x + - 366.82 ) - 0.0 = 0

11 x ( x + - ) - 0.0 = 0

12 x ( x + - ) - 0.0 = 0

13 x ( x + - ) - 0.0 = 0

14 x ( x + - ) - 0.0 = 0

15 x ( x + - ) - 0.0 = 0

16 x ( x + - ) - 0.0 = 0

17 x ( x + - ) - 0.0 = 0

18 x ( x + - ) - 0.0 = 0

19 x ( x + - ) - 0.0 = 0

20 x ( x + - ) - 0.0 = 0

21 x ( x + - ) - 0.0 = 0

22 x ( x + - ) - 0.0 = 0

23 x ( x + - ) - 0.0 = 0

24 x ( x + - ) - 0.0 = 0

25 x ( x + - ) - 0.0 = 0

26 x ( x + - ) - 0.0 = 0

27 x ( x + - ) - 0.0 = 0

28 x ( x + - ) - 0.0 = 0

29 x ( x + - ) - 0.0 = 0

30 x ( x + - ) - 0.0 = 0

31 x ( x + - ) - 0.0 = 0

32 x ( x + - ) - 0.0 = 0

33 x ( x + - ) - 0.0 = 0

34 x ( x + - ) - 0.0 = 0

35 x ( x + - ) - 0.0 = 0

36 x ( x + - ) - 0.0 = 0

37 x ( x + - ) - 0.0 = 0

38 x ( x + - ) - 0.0 = 0

39 x ( x + - ) - 0.0 = 0

40 x ( x + - ) - 0.0 = 0

41 x ( x + - ) - 0.0 = 0

42 x ( x + - ) - 0.0 = 0

43 x ( x + - ) - 0.0 = 0

44 x ( x + - ) - 0.0 = 0

45 x ( x + - ) - 0.0 = 0

46 x ( x + - ) - 0.0 = 0

47 x ( x + - ) - 0.0 = 0

48 x ( x + - ) - 0.0 = 0

49 x ( x + - ) - 0.0 = 0

50 x ( x + - ) - 0.0 = 0

FLend

Average U-Value

[W/(m²K)]Group Nr.

Temp Zone

Temperature zone "X": Please provide user-defined reduction factor ( 0 < ft < 1):

Ψ [W/(mK)]

Selection of the Corresponding Building

Element Assembly

U-Value[W/(m²K)]Group

Nr.Quan-

titya

[m]b

[m]User-Deter-mined [m²]

User Sub-traction

[m²]

Subtraction Window Areas

[m²]

Area[m²]



A R E A S D E T E R M I N A T I O N

Building:Päikesepüüdja Heat Demand 14 kWh/(m²a)

SummaryBuilding Element Overview

Area Group Area Unit Comments

1 Treated Floor Area 150.00 m² Living area or useful area within the thermal envelope

2 North Windows A 0.90 m² North Windows 0.814

3 East Windows A 0.90 m² East Windows 0.814

4 South Windows A 65.79 m² Results are from the Windows worksheet. South Windows 0.686

5 West Windows A 2.79 m² West Windows 0.782

6 Horizontal Windows A 0.00 m² Horizontal Windows

7 Exterior Door A 0.00 m² Please subtract area of door from respective building element Exterior Door

8 Exterior Wall - Ambient A 176.96 m² Window areas are subtracted from the individual areas specified in the "Windows" worksheet. Exterior Wall - Ambient 0.077

9 Exterior Wall - Ground B 0.00 m² Temperature Zone "A" is ambient air. Exterior Wall - Ground

10 Roof/Ceiling - Ambient A 94.93 m² Temperature zone "B" is the ground. Roof/Ceiling - Ambient 0.069

11 Floor Slab B 94.93 m² Floor Slab 0.083

12 0.00 m² Temperature zones "A", "B","P" and "X" may be used. NOT "I"

13 0.00 m² Temperature zones "A", "B","P" and "X" may be used. NOT "I" Factor for X

14 X 0.00 m² 75%

Thermal Bridge Overview

15 Thermal Bridges Ambient A 62.00 m Units in m Thermal Bridges Ambient -0.029

16 Perimeter Thermal Bridges P 36.00 m Units in m; temperature zone "P" is perimeter (see Ground worksheet). Perimeter Thermal Bridges -0.045

17 Thermal Bridges Floor Slab B 0.00 m Units in m Thermal Bridges Floor Slab

18 Partition Wall to Neighbour I 0.00 m² No heat losses, only considered for the heat load calculation. Partition Wall to Neighbour

Total Thermal Envelope 437.20 m² Average Therm. Envelope 0.168

Average U-Value

[W/(m²K)]Group Nr.

Temp Zone

Temperature zone "X": Please provide user-defined reduction factor ( 0 < ft < 1):

Ψ [W/(mK)]

Thermal Bridge Inputs

Assigned to Group x ( - )=

1 Põranda perimeeter 16 Perimeter Thermal Bridges 1 x ( 36.00 - ) = 36.00 Põranda perimeeter -0.045

2 Katuse perimeeter 15 Thermal Bridges Ambient 1 x ( 36.00 - ) = 36.00 Katuse perimeeter -0.035

3 Sein-sein 15 Thermal Bridges Ambient 4 x ( 6.50 - ) = 26.00 Sein-sein -0.020

4 x ( - ) =

5 x ( - ) =

6 x ( - ) =

7 x ( - ) =

8 x ( - ) =

9 x ( - ) =

10 x ( - ) =11 x ( - ) =12 x ( - ) =13 x ( - ) =14 x ( - ) =15 x ( - ) =16 x ( - ) =17 x ( - ) =18 x ( - ) =19 x ( - ) =20 x ( - ) =21 x ( - ) =22 x ( - ) =23 x ( - ) =24 x ( - ) =25 x ( - ) =26 x ( - ) =27 x ( - ) =28 x ( - ) =29 x ( - ) =30 x ( - ) =31 x ( - ) =32 x ( - ) =33 x ( - ) =34 x ( - ) =35 x ( - ) =36 x ( - ) =37 x ( - ) =38 x ( - ) =39 x ( - ) =40 x ( - ) =41 x ( - ) =42 x ( - ) =43 x ( - ) =44 x ( - ) =45 x ( - ) =46 x ( - ) =47 x ( - ) =48 x ( - ) =49 x ( - ) =50 x ( - ) =

TBend

Nr. of Thermal Bridge

Thermal BridgeDescription

Group Nr.

Quantity

User Deter-mined Length

[m]

Subtrac-tion User-

Determined Length

[m]

Length l[m]

Input ofThermal Bridge Heat Loss

CoefficientW/(mK)

ΨW/(mK)


Additional Inputs for Radiation Balance

Exterior Emissivity

These columns serve for considering

the radiation balance of exterior, opaque surfaces.

Inputs only for those surfaces which are adjacent to ambient air!

For consideration of heating in Central European climates no input is required.

Exterior Absorptivity


Angle of Inclination from the Horizontal

Reduction Factor Shading







A Tool for Thermal Bridge Conversion To Exterior Dimensions

Description Units

W/(mK) 0.130Temperature Diff. TB K 25

Adjacent K 20Exterior - Interior Dim. I m 10.60U-Value Building Element I W/(m²K) 0.070

Adjacent K 20Exterior - Interior Dim. II m 10.00U-Value Building Element II W/(m²K) 0.070

W/(mK) -1.024

Ψ Interior Dimensions

Temperature Diff. ∆ϑ I

Area I

Temperature Diff. ∆ϑ II

Area II

Ψ Exterior Dimensions

PHPP 2007, U-Values PHPP2007_Päikesepüüdja.ods

Passive House PlanningU - V A L U E S O F B U I L D I N G E L E M E N T S

Wedge Shaped Building Element Layers andBuilding:Päikesepüüdja Still Air Spaces -> Secondary Calculation to the Right

1 VälisseinAssembly No. Building Assembly Description

0.13

0.04

Total Width

Area Section 1 Area Section 2 (optional) Area Section 3 (optional) Thickness [mm]

1. Dold plaat 0.140 52

2. Homatherm rigid board 0.040 500

3.

4.

5.

6.

7.

8.

Percentage of Sec. 2 Percentage of Sec. 3 Total

55.2 cm

U-Value: 0.077 W/(m²K)

2 KatuslagiAssembly No. Building Assembly Description

0.10

0.04

Total Width


1. Tselluvill 0.041 355

2. Tselluvill 0.041 Liimpuit 0.140 100

3. Tselluvill 0.041 Liimpuit 0.140 Liimpuit 0.140 145


5.

6.

7.

8.Percentage of Sec. 2 Percentage of Sec. 3 Total

8.0% 1.0% 62.1 cm


3 PõrandAssembly No. Building Assembly Description

0.17

exterior Rse: 0.04

Total Width




3. Tselluvill 0.041 Liimpuit 0.140 260



6.

7.

8.


4.0% 1.0% 54.2 cm


Heat Transfer Resistance [m²K/W] interior Rsi :

exterior Rse

:

λ [W/(mK)] λ [W/(mK)] λ [W/(mK)]

1/RTeilfläche


exterior Rse

:

λ [W/(mK)] λ [W/(mK)] λ [W/(mK)]

1/RTeilfläche


λ [W/(mK)] λ [W/(mK)] λ [W/(mK)]

1/RTeilfläche




4 VaheseinAssembly No. Building Assembly Description

0.13

0.00

Total Width


1. DOLD plaat 0.140 21

2. ISOMODUL 0.057 50


4.

5.

6.

7.


9.2 cm


5 Välissein OSB taladAssembly No. Building Assembly Description

0.130.04

Total Width


1. Voodrilaud 0.140 20

2. Õhkvahe t.t.membraan 0.000 25

3. Diagonaallaudis 0.140 25

4. Tselluvill 0.039 OSB tala 0.140 400

5. Diagonaallaudis 0.140 25

6. Krohv 0.870 25

7.


1.6% 52.0 cm


6 Välissein lounastAssembly No. Building Assembly Description

0.130.04

Total Width



2. Liimpuit 0.140 100

3. Tselluvill 0.041 500

4.

5.

6.

7.


62.1 cm



exterior Rse

:

λ [W/(mK)] λ [W/(mK)] λ [W/(mK)]

1/RTeilfläche

Heat Transfer Resistance [m²K/W] interior R si :

exterior Rse

:

λ [W/(mK)] λ [W/(mK)] λ [W/(mK)]

1/RTeilfläche


exterior Rse

:

λ [W/(mK)] λ [W/(mK)] λ [W/(mK)]

1/RTeilfläche




7Assembly No. Building Assembly Description

Total Width


1. EPS 0.020 50


3.

4.

5.

6.

7.


9.2 cm



Total Width



2. EPS 0.024 17


4.

5.

6.

7.


7.7 cm


9 VAHELAGIAssembly No. Building Assembly Description

0.100.04

Total Width



2. Tselluvill 0.041

3. Tselluvill 0.041

4. Tselluvill 0.041


6.

7.


4.2 cm



exterior Rse

:

λ [W/(mK)] λ [W/(mK)] λ [W/(mK)]

1/RTeilfläche


exterior Rse :

λ [W/(mK)] λ [W/(mK)] λ [W/(mK)]

1/RTeilfläche


exterior Rse

:

λ [W/(mK)] λ [W/(mK)] λ [W/(mK)]

1/RTeilfläche





Total Width


1.

2.

3.

4.

5.

6.

7.


cm

U-Value: W/(m²K)


Total Width


1.

2.

3.

4.

5.

6.

7.


cm

U-Value: W/(m²K)


Total Width


1.

2.

3.

4.

5.

6.

7.


cm

U-Value: W/(m²K)


exterior Rse

:

λ [W/(mK)] λ [W/(mK)] λ [W/(mK)]

1/RTeilfläche


exterior Rse :

λ [W/(mK)] λ [W/(mK)] λ [W/(mK)]

1/RTeilfläche


exterior Rse

:

λ [W/(mK)] λ [W/(mK)] λ [W/(mK)]

1/RTeilfläche





Total Width


1.

2.

3.

4.

5.

6.

7.


cm

U-Value: W/(m²K)


Total Width


1.

2.

3.

4.

5.

6.

7.


cm

U-Value: W/(m²K)


Total Width


1.

2.

3.

4.

5.

6.

7.


cm

U-Value: W/(m²K)


exterior Rse

:

λ [W/(mK)] λ [W/(mK)] λ [W/(mK)]

1/RTeilfläche


exterior Rse :

λ [W/(mK)] λ [W/(mK)] λ [W/(mK)]

1/RTeilfläche


exterior Rse

:

λ [W/(mK)] λ [W/(mK)] λ [W/(mK)]

1/RTeilfläche





Total Width


1.

2.

3.

4.

5.

6.

7.


cm

U-Value: W/(m²K)


Total Width


1.

2.

3.

4.

5.

6.

7.


cm

U-Value: W/(m²K)


Total Width


1.

2.

3.

4.

5.

6.

7.


cm

U-Value: W/(m²K)


exterior Rse

:

λ [W/(mK)] λ [W/(mK)] λ [W/(mK)]

1/RTeilfläche


exterior Rse :

λ [W/(mK)] λ [W/(mK)] λ [W/(mK)]

1/RTeilfläche


exterior Rse

:

λ [W/(mK)] λ [W/(mK)] λ [W/(mK)]

1/RTeilfläche





Total Width


1.

2.

3.

4.

5.

6.

7.


cm

U-Value: W/(m²K)


Total Width


1.

2.

3.

4.

5.

6.

7.


cm

U-Value: W/(m²K)


exterior Rse

:

λ [W/(mK)] λ [W/(mK)] λ [W/(mK)]

1/RTeilfläche


exterior Rse :

λ [W/(mK)] λ [W/(mK)] λ [W/(mK)]

1/RTeilfläche


Secondary Calculation: Equivalent Thermal Conductivity of Still Air Spaces

Air Layer Thickness mm λDirection of Upwards W/(m²K) W/(mK)

Heat Flow Horizontal 4.17 W/(m²K)

(check only one field) Downwards

Secondary Calculation: Equivalent Thermal Conductivity of Still Air Spaces

ha

hr


Air Layer Thickness 25 mm λDirection of x Upwards W/(m²K) W/(mK)

Heat Flow 21 Horizontal 4.17 W/(m²K)

(check only one field) 12 Downwards

ha

hr


Wedge-Shaped Layers (at an inclination of max. 5%)(Calculation following EN 6946 Appendix C)

Assembly No. Building Assembly Description

A Parallel Assemblies Layer Total Width

Area Section 1 Area Section 2 (optional) Area Section 3 (optional)

1.

2.

3.

4.

5.


cm

W/(m²K)

(m²K)/W

B Wedge-Shaped Assembly Layer


Percentage of Sec. 2 Percentage of Sec. 3

cm

W/(m²K)

(m²K)/W

Rectangular Area U-Value: W/(m²K)

U-value of triangular area with the thickest point at the apex: W/(m²K)

U-value of triangular area with the thinnest point at the apex: W/(m²K)


exterior Rse

:

λ [W/(mK)] λ [W/(mK)] λ [W/(mK)] Thickness d0 [mm]

U0:

R0:


Thickness d1 [cm]

U1:

R1:


Wedge-Shaped Layers (at an inclination of max. 5%)(Calculation following EN 6946 Appendix C)

Assembly No. Building Assembly Description

A Parallel Assemblies Layer Total Width


1.

2.

3.

4.

5.


cm

W/(m²K)

(m²K)/W

B Wedge-Shaped Assembly Layer


Percentage of Sec. 2 Percentage of Sec. 3

cm

W/(m²K)

(m²K)/W

Rectangular Area U-Value: W/(m²K)

U-value of triangular area with the thickest point at the apex: W/(m²K)

U-value of triangular area with the thinnest point at the apex: W/(m²K)


exterior Rse

:


U0:

R0:


Thickness d1 [cm]

U1:

R1:

PHPP 2007, U-List PHPP2007_Päikesepüüdja.ods


U - L I S T

Compilation of the building elements calculated in the U-Values worksheet and other construction types from databases.

Type

Assembly Description U-Value

m

1 Välissein 0.552 0.082 Katuslagi 0.621 0.073 Põrand 0.542 0.084 Vahesein 0.092 0.765 Välissein OSB talad 0.520 0.096 Välissein lounast 0.621 0.087 0.092 0.368 0.077 0.859 VAHELAGI 0.042 2.27

1011121314151617181920

21 Wood24-old 0.275 1.440

22 Solid Brick 38-old 0.415 1.64023 Framework18-old 0.210 1.80024 VerticalCoringBrick30-old 0.335 1.23025 PrecastConcrete-old 0.275 1.30026 WoodenJoistCeiling-old 0.284 0.99027 BasementFloor-old 0.242 1.2302829 AW-ALS032-mas: alseco, exterior insulation compound system on masonry 0.500 0.10030 AW-ALS034/035-mas: alseco, exterior insulation compound system on masonry 0.500 0.11031 AW-ALS040/041-mas: alseco, exterior insulation compound system on masonry 0.500 0.13032 AW-ALG032-mas: Alligator, exterior insulation compound system on masonry 0.500 0.10033 AW-ALG034/035-mas: Alligator, exterior insulation compound system on masonry 0.500 0.11034 AW-ALG040/041-mas: Alligator, exterior insulation compound system on masonry 0.500 0.13035 AW-CAP032-mas: Caparol, exterior insulation compound system on masonry 0.500 0.10036 AW-CAP034/035-mas: Caparol, exterior insulation compound system on masonry 0.500 0.11037 AW-CAP040/041-mas: Caparol, exterior insulation compound system on masonry 0.500 0.13038 AW-FGH035-lei: Fingerhaus, wooden beam load-bearing wall with ETICS 0.415 0.10039 AW-FIN040-lei: Finnforest Merk, FJI-beam 0.404 0.12040 AW-GPT031-mas: Gisoplan-Therm 375/225, ICF from expanded clay 0.400 0.12041 AW-GRE050-mas: Greisel, exterior insulation compound system on porous concrete 0.515 0.11942 AW-HEB045-mas: Hebel, exterior insulation compound system on porous concrete 0.470 0.14043 AW-HVH035-mas: Heinz von Heiden, exterior insulation compound system on Ytong 0.497 0.10144 AW-HVH040-lei: Heinz von Heiden, lightweight wall with exterior insulation compound system0.453 0.09445 AW-ISR035-dws: isorast, insulating concrete form Dickwandstein 0.400 0.14046 AW-ISR035-sdw: isorast, insulating concrete form Superdickwandstein 0.463 0.11047 AW-MAR035-mas: Marmorit, ETICS from limestone and PS 0.500 0.11048 AW-MAR040-mas: Marmorit, ETICS from limestone and MW 0.500 0.13049 AW-NUS035-mas: Naumann&Stahr, wooden lightweight elements with DokAW-beams 0.423 0.12050 AW-STO035-mas: Sto, ETICS from limestone and PS 035 0.495 0.11051 AW-STO040-mas: Sto, ETICS from limestone and PS 040 0.495 0.13052 AW-WOC250-mas: Wochner, ETICS from porous concrete and PS, 250 0.460 0.13053 AW-WOC300-mas: Wochner, ETICS from porous concrete and PS, 250 0.510 0.11054 DA-ALS045-lei: alseco, lightweight roof 0.395 0.14055 DA-ALS040-Fla: alseco, Flachdach 0.515 0.13056 DA-ALG045-lei: Alligator, lightweight roof 0.395 0.14057 DA-ALG040-Fla: Alligator, flat roof 0.515 0.13058 DA-CAP045-lei: Caparol, lightweight roof 0.395 0.14059 DA-CAP040-Fla: Caparol, flat roof 0.515 0.13060 DA-FGH035-lei: Fingerhaus, lightweight roof 0.333 0.13061 DA-FIN040-lei: Finnforest Merk, lightweight roof 0.344 0.14162 DA-GIS035-lei: Gisoton, lightweight roof 0.343 0.13063 DA-GIS035-mas: Gisoton, massive roof 0.510 0.11064 DA-GRE035-mas: Greisel, flat roof 0.610 0.086

AssemblyNo.

TotalThickness

W/(m2K)

PHPP 2007, U-List PHPP2007_Päikesepüüdja.ods


U - L I S T

Compilation of the building elements calculated in the U-Values worksheet and other construction types from databases.

Type

Assembly Description U-Value

m

AssemblyNo.

TotalThickness

W/(m2K)

65 DA-GRE035-lei: Greisel, lightweight roof 0.438 0.10766 DA-HEB045-mas: Hebel, massive roof 0.510 0.13067 DA-HVH030/040-mas: Heinz von Heiden, lightweight roof 0.393 0.10368 DA-ISR035-sst: isorast, lightweight roof 0.333 0.12069 DA-MAR035-lei: Marmorit, lightweight roof 0.308 0.13070 DA-NUS040-lei: Naumann&Stahr, lightweight roof 0.460 0.10071 DA-STO040-lei: Sto, lightweight roof 0.325 0.13072 DA-STO030-mas: Sto, massive roof 0.520 0.10073 DA-WOC035-lei: Wochner, lightweight roof 0.313 0.14074 DA-WOC035-mas: Wochner, massive roof 0.480 0.12075 BP-ALS035/040-mas: alseco, floor slab 0.620 0.13076 BP-ALG035/040-mas: Alligator, floor slab 0.620 0.13077 BP-CAP035/040-mas: Caparol, floor slab 0.620 0.13078 BP-FGH035-mas: Fingerhaus, floor slab 0.550 0.14079 BP-FIN040-mas: Finnforest Merk, floor slab 0.429 0.11580 BP-GIS040-mas: Gisoton, floor slab 0.565 0.15081 BP-GRE035-mas: Greisel, floor slab 0.495 0.13982 BP-HEB035-mas: Hebel, floor slab 0.635 0.10083 BP-HVH025/045/140-mas: Heinz von Heiden, floor slab 0.759 0.12584 BP-ISQ035-mas: Isoquick, insulated floor trough 0.630 0.10085 BP-ISR035-mas: isorast, floor slab 0.580 0.16086 BP-MAR035-mas: Marmorit, floor slab 0.615 0.13087 BP-N&S040-lei: Naumann&Stahr, floor slab 0.385 0.13088 BP-STO035-mas: Sto, floor slab 0.520 0.13089 BP-WOC035-mas: Wochner, floor slab 0.515 0.13090 KD-ALS040-mas: alseco, basement floor 0.470 0.17091 KD-ALG040-mas: Alligator, basement floor 0.470 0.17092 KD-CAP040-mas: Caparol, basement floor 0.470 0.17093 KD-FGH035-mas: Fingerhaus, basement floor 0.460 0.14094 KD-FIN040-lei: Finnforest Merk, basement floor 0.369 0.15095 KD-GIS040-mas: Gisoton, basement floor 0.525 0.13096 KD-GRE035-mas: Greisel, basement floor 0.645 0.08897 KD-HEB035-mas: Hebel, basement floor 0.635 0.10098 KD-HVH035-mas: Heinz von Heiden, basement floor 0.459 0.12199 KD-ISR035-mas: isorast, basement floor 0.580 0.160100 KD-MAR035-mas: Marmorit, basement floor 0.565 0.130101 KD-NUS040-lei: Naumann&Stahr, basement floor 0.385 0.130102 KD-STO035-mas: Sto, basement floor 0.520 0.130103 KD-WOC035-mas: Wochner, basement floor 0.515 0.130104

PHPP 2007, WinType PHPP2007_Päikesepüüdja.ods

Passive House PlanningG L A Z I N G A C C O R D I N G T O C E R T I F I C A T I O N

for frame types, go to row: 71Type

Glazing g-Value

1 Arcon II - arcon N41-3i 0.540 0.6102 Viking Window klaaspakett 0.500 0.6003 Saint Gobain klaaspakett 0.410 0.7004 Saint Gobain klaaspakett 0.500 0.6005 Kalesy klaaspakett HTP10 0.470 0.6006 Kalesy klaaspakett HTP1 0.770 1.4007891011

AssemblyNo.

Ug-Value

W/(m2K)

PHPP 2007, WinType PHPP2007_Päikesepüüdja.ods

Passive House PlanningF 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 N

for glazings, go to row: 2

Type Frame Dimensions

Frame Frame Width - Left

m m m m W/(mK) W/(mK)

1 Schüco - CORONA SI 82 + Passiv - with spacer 'Swisspacer'0.75 0.121 0.121 0.121 0.121 0.034 0.0402 Viking Window raam_fix 0.90 0.140 0.140 0.140 0.170 0.030 0.0153 REHAU - Clima Design - with spacer 'Swisspacer' 0.71 0.120 0.120 0.120 0.120 0.035 0.0404 Rehau Geneo MD pluss 0.76 0.054 0.054 0.054 0.054 0.036 0.0405 Viking Window raam openable 0.86 0.120 0.120 0.120 0.160 0.030 0.0106 VW 1 0.90 0.140 0.140 0.140 0.140 0.030 0.0407 VW 2 0.90 0.140 0.140 0.140 0.140 0.030 0.0108 VW 3 0.90 0.140 0.140 0.140 0.140 0.010 0.0109 Viking Window raam_openable 0.90 0.140 0.140 0.140 0.170 0.030 0.01510 shuco 0.90 0.015 0.015 0.015 0.015 0.025 0.01011 shuco op 0.90 0.070 0.070 0.070 0.070 0.025 0.010

Uf-Value Thermal

BridgeThermal Bridge

AssemblyNo.

Width - Right

Width - Below

Width - Above

ΨSpacer

ΨInstallation

W/(m2K)

PHPP 2007, Shading PHPP2007_Päikesepüüdja.ods


C A L C U L A T I N G S H A D I N G F A C T O R S

Climate:Tallinn EMHI

Building: Päikesepüüdja Glazing Area Reduction Factor

Latitude: 59 ° m²

North 0.65 94%

East 0.65 91%

South 60.77 91%

West 2.14 91%

Horizontal 0.00 100%

Quantity Description Orientation Glazing Width Glazing Area

Degrees Degrees m m m m m m m m % % % % %

2 A1S 190 90 South 2.07 2.52 10.4 3.20 20.00 0.01 0.020 91% 100% 100% 91%2 A2S 190 90 South 0.87 2.52 4.4 3.20 20.00 0.01 0.020 91% 100% 100% 91%1 D1W 280 90 West 0.76 1.96 1.5 0.10 0.100 100% 91% 100% 91%1 A5W 280 90 West 0.76 0.86 0.7 0.10 0.100 100% 91% 100% 91%1 A5N 10 90 North 0.76 0.86 0.7 0.10 0.100 100% 94% 100% 94%1 A5E 100 90 East 0.76 0.86 0.7 0.10 0.100 100% 91% 100% 91%3 A3S 190 90 South 2.07 2.52 15.6 3.20 20.00 0.01 0.020 91% 100% 100% 91%4 A4S 190 90 South 0.76 2.41 7.3 3.20 20.00 0.01 0.020 91% 100% 100% 91%4 A5S 190 90 South 0.76 2.41 7.3 3.20 20.00 0.01 0.020 91% 100% 100% 91%3 A6S 190 90 South 2.07 2.52 15.6 3.20 20.00 0.01 0.020 91% 100% 100% 91%

A1S 180 90 South 1.10 2.00 0.0 0.09 0.100 98% 100%

Orien-tation

rS



Glazing Height

Height of the Shading Object

Horizontal Distance

Window Reveal Depth

Distance from Glazing Edge to

Reveal

Overhang Depth

Distance from Upper Glazing

Edge to Overhang

Additional Shading

Reduction Factor

Horizontal Shading Reduction Factor

Reveal Shading Reduction Factor

Overhang Shading Reduction Factor

Total Shading Reduction Factor

wG

hG

AG

hHori d

Horio

Reveald

Revealo

overd

overr

otherr

Hr

Rr

Or

S

PHPP 2007, Ground PHPP2007_Päikesepüüdja.ods


H E A T L O S S E S V I A T H E G R O U N D

Ground Characteristics Climate Data

Thermal Conductivity λ 2.0 W/(mK) Av. Indoor Temp. Winter 20.0 °C

Heat Capacity 2.0 MJ/(m³K) Av. Indoor Temp. Summer 25.0 °C

Periodic Penetration Depth δ 3.17 m Average Ground Surface Temperature 6.7 °C

10.6 °C

Length of the Heating Period n 6.7 months

Heating Degree Hours - Exterior 99.9 kKh/a

Building Data Floor Slab U-Value 0.070 W/(m²K)

Floor Slab Area A 144.0 m² Thermal Bridges at Floor Slab 0.00 W/K

Floor Slab Perimeter P 50.0 m Floor Slab U-Value incl. TB 0.070 W/(m²K)

Charact. Dimension of Floor Slab B' 5.76 m Eq. Thickness Floor 28.6 m

Floor Slab Type (select only one) Please choose one option only.Heated Basement or Underground Floor Slab Unheated basement

Slab on Grade Suspended Floor

For Basement or Underground Floor Slab

Basement Depth z m U-Value Belowground Wall W/(m²K)

Additionally for Unheated Basements Height Aboveground Wall h m

Air Change Unheated Basement n U-Value Aboveground Wall W/(m²K)

Basement Volume V m³ U-Value Basement Floor Slab W/(m²K)

For Perimeter Insulation for Slab on Grade For Suspended Floor

Perimeter Insulation Width/Depth D 1.00 m U-Value Crawl Space 5.900 W/(m²K)

Perimeter Insulation Thickness 0.20 m Height of Crawl Space Wall h 0.30 m

Conductivity Perimeter Insulation 0.035 W/(mK) U-Value Crawl Space Wall 5.000 W/(m²K)

Area of Ventilation Openings 0.50 m²

Location of the Perimeter Insulation horizontal 1 Wind Velocity at 10 m Height v 4.0 m/s

(check only one field) vertical 1 Wind Shield factor 0.05 -

Additional Thermal Bridge Heat Losses at Perimeter Steady-State Fraction -1.620 W/K

Phase Shift β months Harmonic Fraction -1.620 W/K

Groundwater Correction

Depth of the Groundwater Table 3.0 m Transm. Belowground El. (w/o Ground) -1.62 W/K

Groundwater Flow Rate 0.05 m/d Relative Insulation Standard -

Relative Groundwater Depth 0.52 -

Groundwater Correction Factor - Relative Groundwater Velocity l/B' 0.14 -

Basement or Underground Floor Slab

Eq. Thickness Floor Slab m Phase Shift β months

U-Value Floor Slab W/(m²K) Exterior Periodic Transmittance W/K

Eq. Thickness Basement Wall m

U-Value Wall W/(m²K)

Steady-State Transmittance W/K

Unheated Basement

Steady-State Transmittance W/K Phase Shift β months

Exterior Periodic Transmittance W/K

Slab on Grade

Heat Transfer Coefficient W/(m²K) Phase Shift β months

Eq. Ins. Thickness Perimeter Ins. d' m Exterior Periodic Transmittance W/K

Perimeter Insulation Correction ∆Ψ W/(mK)


Suspended Floor Above a Ventilated Crawl Space (at max. 0.5 m Below Ground)

Eq. Ins. Thickness Crawl Space m Phase Shift β months

U-Value Crawl Space Floor Slab W/(m²K) Exterior Periodic Transmittance W/K

U-Value Crawl Space Wall & Vent. W/(m²K)


Interim Results

Phase Shift β months Steady-State Heat Flow W

Steady-State Transmittance W/K Periodic Heat Flow W

Exterior Periodic Transmittance W/K Heat Losses During Heating Period kWh

Ground Reduction Factor for "Annual Heat Demand" Sheet

Monthly Average Ground Temperatures for Monthly MethodMonth 1 2 3 4 5 6 7 8 9 10 11 12 Average ValueWinterSummer

Design Ground Temperature for Heat Load Sheet for Cooling Load Sheet

Ti

ρc Ti

Tg,ave

Amplitude of Tg,ave

Tg,^

Gt

Uf

ΨB*l

Uf'

dt

UwB

h-1 UW

UfB

UCrawl

dn

λnU

W

εP

fW

ΨP,stat*l

ΨP,harm*l

zW Lreg

qW

dt/B'

zW/B'

GW

dt

Ubf

Lpe

dw

Ubw

LS

LS

Lpe

U0

Lpe

LS

dg

Ug

Lpe

UX

LS

Φstat

LS Φharm

Lpe Qtot

PHPP 2007, Ventilation PHPP2007_Päikesepüüdja.ods


V E N T I L A T I O N D A T A

Building: Päikesepüüdja

m² 150 (Areas worksheet)

Room Height h m 2.5 (Annual Heat Demand worksheet)

m³ 375 (Annual Heat Demand worksheet)

Ventilation System Design - Standard Operation

Occupancy m²/P 35Number of Occupants P 4.3Supply Air per Person m³/(P*h) 38Supply Air Requirement m³/h 163Extract Air Rooms Kitchen Bathroom Shower WCQuantity 1 1 1Extract Air Requirement per Room m³/h 60 40 20 20Total Extract Air Requirement m³/h 120

Design Air Flow Rate (Maximum) m³/h 267

Average Air Change Rate CalculationDaily Operation Factors Referenced to Air Flow Rate Air Change RateDuration Maximum

Type of Operation h/d m³/h 1/h

Maximum 6.0 1.00 267 0.71Standard 6.0 0.90 240 0.64Basic 6.0 0.70 187 0.50Minimum 6.0 0.50 134 0.36

Average Air Flow Rate (m³/h) Average Air Change Rate (1/h)

x Residential Building Average value 0.78 207 0.55

Infiltration Air Change Rate according to EN 13790

Wind Protection Coefficients According to EN 13790Several One

Coefficient e for Screening Class Sides SideExposed Exposed

No Screening 0.10 0.03Moderate Screening 0.07 0.02High Screening 0.04 0.01Coefficient f 15 20

for Annual Demand: for Heat Load:

Wind Protection Coefficient, e 0.10 0.25Wind Protection Coefficient, f 15 15 Air Permeability

Air Change Rate at Press. Test 1/h 0.40 0.40 395 m³ 0.36 m³/(hm²)

Type of Ventilation System

x Balanced PH Ventilation Please Check for Annual Demand: for Heat Load:

Pure Extract Air

Excess Extract Air 1/h 0.00 0.00

Infiltration Air Change Rate 1/h 0.042 0.105

Effective Heat Recovery Efficiency of the Ventilation System with Heat Recovery

x Central unit within the thermal envelope.

Central unit outside of the thermal envelope.

Efficiency of Heat Recovery 0.93 3Transmittance Ambient Air Duct Ψ W/(mK) 0.318 Calculation see Secondary CalculationLength Ambient Air Duct m 1.5Transmittance Exhaust Air Duct Ψ W/(mK) 0.362 Calculation see Secondary Calculation

Length Exhaust Air Duct m 1.5 Room Temperature (°C) 20Temperature of Mechanical Services Room °C Av. Ambient Temp. Heating P. (°C) -0.4(Enter only if the central unit is outside of the thermal envelope.) Av. Ground Temp (°C) 6.7

Effective Heat Recovery Efficiency 91.6%

Effective Heat Recovery Efficiency Subsoil Heat Exchanger

SHX EfficiencyHeat Recovery Efficiency SHX 0%

Treated Floor Area ATFA

Room Ventilation Volume (ATFA

*h) = VV

Net Air Volume for Press. Test

Vn50

q50

n50

nV,Res

ηHR

ηHR,eff

η∗SHX

ηSHX

PHPP 2007, Ventilation PHPP2007_Päikesepüüdja.ods

Secondary Calculation:

Nominal Width 160mm

Insul. Thickness: 50mm

Reflective? Please mark with an "x"!x Yes

NoThermal Conductivity 0.03W/(mK)

Nominal Air Flow Rate 207 m³/h

∆ϑ 20 K

Interior Duct Diameter 0.160 mInterior Diameter 0.160 m

Exterior Diameter 0.260 m

12.88 W/(m²K)

2.98 W/(m²K)0.318 W/(mK)

Surface Temperature Difference 3.667 K

Secondary Calculation:

Nominal Width 160mm

Insul. Thickness: 50mm

Reflective? Please mark with an "x"!

x Yes

No

Thermal Conductivity 0.04W/(mK)

Nominal Air Flow Rate 207 m³/h

∆ϑ 20 K

Interior Duct Diameter 0.16000 m

Exterior Duct Diameter 0.16000 m

Exterior Diameter 0.26000 m

12.88 W/(m²K)

3.07 W/(m²K)

0.362 W/(mK)Surface Temperature Difference 4.082 K

Ψ-value Supply or Ambient Air Duct

α-Interior

α−SurfaceΨ-value

Ψ-value Extract or Exhaust Air Duct

α-Interior

α−Surface

Ψ-value

PHPP 2007, Annual Heat Demand PHPP2007_Päikesepüüdja.ods


S P E C I F I C A N N U A L H E A T D E M A N D

Climate:Tallinn EMHI Interior Temperature: 20.0 °C

Building:Päikesepüüdja Building Type/Use:Private houseLocation: 150.0 m²

per m²Area U-Value Treated

Building Element Temperature Zone m² W/(m²K) kKh/a kWh/a Floor Area1.Exterior Wall - Ambient A 177.0 * 0.077 * 1.00 * 99.9 = 13562.Exterior Wall - Ground B * * 0.67 * =3.Roof/Ceiling - Ambient A 94.9 * 0.069 * 1.00 * 99.9 = 6574.Floor Slab B 94.9 * 0.083 * 0.67 * 99.9 = 5245. A * * 1.00 * =6. A * * 1.00 * =7. X * * 0.75 * =8.Windows A 70.4 * 0.693 * 1.00 * 99.9 = 48769.Exterior Door A * * 1.00 * =

10.Exterior TB (length/m) A 62.0 * -0.029 * 1.00 * 99.9 = -17811.Perimeter TB (length/m) P 36.0 * -0.045 * 0.67 * 99.9 = -10812.Ground TB (length/m) B * * 0.67 * = Total of All Building Envelope Areas 437.2 –––––––––––––- kWh/(m²a)

Total 7128 47.5

Clear Room Heightm² m m³

Ventilation System: 150.0 * 2.50 = 375.0Effective Heat Recovery Efficiency 92%of Heat Recovery

Efficiency of Subsoil Heat Exchanger 0%1/h 1/h 1/h

0.552 * (1 - 0.92 ) + 0.042 = 0.088

m³ 1/h Wh/(m³K) kKh/a kWh/a kWh/(m²a)

375 * 0.088 * 0.33 * 99.9 = 1095 7.3

Reduction Factor Night/Weekend

kWh/a kWh/a Saving kWh/a kWh/(m²a)

( 7128 + 1095 ) * 1.0 = 8223 54.8

Orientation Reduction Factor g-Value Area Radiation HPof the Area See Windows Sheet (perp. radiation)

m² kWh/(m²a) kWh/a

1. North 0.55 * 0.50 * 0.90 * 122 = 302. East 0.53 * 0.50 * 0.90 * 177 = 423. South 0.68 * 0.50 * 65.79 * 301 = 67364. West 0.56 * 0.50 * 2.79 * 172 = 1355. Horizontal 0.40 * 0.00 * 0.00 * 248 = 0

kWh/(m²a)

Total 6944 46.3

Length Heat. Periodkh/d d/a W/m² m² kWh/a kWh/(m²a)

0.02 * 205 * 2.10 * 150.0 = 1546 10.3

kWh/a kWh/(m²a)

= 8490 56.6

Ratio of Free Heat to Losses = 1.03

= 82% kWh/a kWh/(m²a)

= 6960 46.4

kWh/a kWh/(m²a)

= 1263 8

kWh/(m²a) (Yes/No)

Limiting Value 15 Requirement met? Yes

For buildings with a gain-loss-ratio above 0,7 you should use the Monthly Method (cf. manual).


:

Temp. Factor ft

Gt

Transmission Heat Losses QT

ATFA

Effective Air Volume, VV

ηeff

ηSHX

nV,system Φ

HRn

V,Res

Energetically Effective Air Exchange nV

VV

nV

cAir

Gt

Ventilation Heat Losses QV

QT

QV

Total Heat Losses QL

Available Solar Heat Gains QS

Spec. Power qIA

TFA

Internal Heat Gains QI

Free Heat QF Q

S + Q

I

QF / Q

L

Utilisation Factor Heat Gains ηG

(1 - ( QF / Q

L )5 ) / (1 - ( Q

F / Q

L )6 )

Heat Gains QG

ηG * Q

F

Annual Heat Demand QH

QL - Q

G

PHPP 2007, Monthly Method PHPP2007_Päikesepüüdja.ods

PASSIVE HOUSE PLANNING

S P E C I F I C A N N U A L H E A T D E M A N DM O N T H L Y M E T H O D

Climate:Tallinn EMHI Interior Temperature: 20 °C

Building:Päikesepüüdja Building Type/Use:Private houseLocation: 150 m²

Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec YearHeating Degree Hours - Exterior17.6 16.5 15.8 11.6 7.5 4.0 2.5 3.1 6.6 10.3 13.5 16.4 125 kKh

Heating Degree Hours - Ground10.5 10.5 12.2 11.6 11.1 9.4 8.3 7.2 6.5 6.9 7.6 9.1 111 kKh

Losses - Exterior 1378 1287 1233 906 588 316 192 239 518 803 1058 1279 9795 kWh

Losses - Ground 66 66 76 72 69 59 52 45 41 43 47 57 693 kWh

Sum Spec. Losses 9.6 9.0 8.7 6.5 4.4 2.5 1.6 1.9 3.7 5.6 7.4 8.9 69.9 kWh/m²

Solar Gains - North 2 5 9 11 15 18 16 12 8 4 2 0 103 kWh

Solar Gains - East 3 7 15 18 24 26 25 20 13 7 3 -4 157 kWh

Solar Gains - South 424 965 2138 1918 2216 2248 2254 2138 1589 1022 482 411 17804 kWh

Solar Gains - West 8 21 44 50 68 76 74 59 36 17 7 4 463 kWh

Solar Gains - Horiz. 0 0 0 0 0 0 0 0 0 0 0 0 0 kWh

Solar Gains - Opaque 0 0 0 0 0 0 0 0 0 0 0 0 0 kWh

Internal Heat Gains 234 212 234 227 234 227 234 234 227 234 227 234 2759 kWh

Sum Spec. Gains Solar + Internal4.5 8.1 16.3 14.8 17.1 17.3 17.4 16.4 12.5 8.6 4.8 4.3 141.9 kWh/m²

Utilisation Factor 100% 93% 53% 44% 26% 14% 9% 12% 30% 65% 99% 100% 39%

Annual Heat Demand 774 230 5 1 0 0 0 0 0 12 395 691 2108 kWh

Spec. Heat Demand 5.2 1.5 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.1 2.6 4.6 14.1 kWh/m²


:

Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec0

2

4

6

8

10

12

14

16

18

20

Sum Spec. Gains Solar + InternalSpec. Heat DemandSum Spec. Losses

Sp

ecif

ic L

os

ses,

Gai

ns,

Hea

tin

g D

eman

d [

kWh

/(m

² m

on

th)]

PHPP 2007, Heating Load PHPP2007_Päikesepüüdja.ods


S P E C I F I C S P A C E H E A T I N G L O A D

Building: Päikesepüüdja Building Type/Use: Private house

Location: 150.0 m² 20 °C

Climate (HL): Tallinn EMHI

Design Temperature Radiation: North East South West Horizontal

Weather Condition 1: -17.2 °C 10 20 45 15 20 W/m²

Weather Condition 2: -13.5 °C 5 5 5 5 5 W/m²

Ground Design Temp. 3.7 °C Area U-Value Factor TempDiff 1 TempDiff 2

Building Element Temperature Zone m² W/(m²K) K K W W

1.Exterior Wall - Ambient A 177.0 * 0.077 * 1.00 * 37.2 or 33.5 = 505 or 4552.Exterior Wall - Ground B * * 1.00 * 16.3 or 16.3 = or3.Roof/Ceiling - Ambient A 94.9 * 0.069 * 1.00 * 37.2 or 33.5 = 245 or 2204.Floor Slab B 94.9 * 0.083 * 1.00 * 16.3 or 16.3 = 129 or 1295. A * * 1.00 * 37.2 or 33.5 = or6. A * * 1.00 * 37.2 or 33.5 = or7. X * * 0.75 * 37.2 or 33.5 = or8.Windows A 70.4 * 0.693 * 1.00 * 37.2 or 33.5 = 1816 or 16359.Exterior Door A * * 1.00 * 37.2 or 33.5 = or

10.Exterior TB (length/m) A 62.0 * -0.029 * 1.00 * 37.2 or 33.5 = -66 or -6011.Perimeter TB (length/m) P 36.0 * -0.045 * 1.00 * 16.3 or 16.3 = -26 or -2612.Ground TB (length/m) B * * 1.00 * 16.3 or 16.3 = or13.House/DU Partition Wall I * * 1.00 * 3.0 or 3.0 = or

–––––––––––––- –––––––––––-

Total = 2601 or 2353

Clear Room Height

Ventilation System: m² m m³

150.0 * 2.50 = 375

Efficiency of Heat Recovery 92% Heat Recovery Efficiency SHX 0% Efficiency SHX 0% or 0%of the Heat Exchanger

1/h 1/h 1/h 1/h

0.105 + 0.552 *(1- 0.92 or 0.92 ) = 0.152 or 0.152

TempDiff 1 TempDiff 2

m³ 1/h 1/h Wh/(m³K) K K W W

375.0 * 0.152 or 0.152 * 0.33 * 37.2 or 33.5 = 699 or 629

W W

= 3300 or 2982

Orientation Area g-Value Reduction Factor Radiation 1 Radiation 2

the Area m² (perp. radiation) (see Windows worksheet) W/m² W/m² W W

1. North 0.9 * 0.5 * 0.6 * 10 or 5 = 3 or 12. East 0.9 * 0.5 * 0.5 * 23 or 5 = 6 or 13. South 65.8 * 0.5 * 0.7 * 44 or 5 = 984 or 1124. West 2.8 * 0.5 * 0.6 * 12 or 5 = 10 or 45. Horizontal 0.0 * 0.0 * 0.4 * 20 or 5 = 0 or 0

Total = 1002 or 118

Spec. Power

W/m² m² W W

1.6 * 150 = 240 or 240

W W

= 1242 or 358

= 2057 or 2623

= 2623 W

= 17.5 W/m²

Input Max. Supply Air Temperature 32 °C °C °C

32 °C Supply Air Temperature Without Heating 16.9 17.2

= 1012 W specific: 6.7 W/m²

(Yes/No)

Supply Air Heating Sufficient? No


: Interior Temperature:

PT 1 PT 2

Always 1(except "X")

Transmission Heat Losses PT

ATFA


ηSHX

1 ηSHX

2

ηHR

nV,Res (Heating Load) n

V,system ΦHR

ΦHR

Energetically Effective Air Exchange nV

Ventilation Heating Load PV

VL

nL

nL

cAir P

V 1 P

V 2

PL 1 P

L 2

Total Heating Load PL

PT + PV

PS 1 P

S 2

Solar Heat Gain, PS

ATFA PI 1 P

I 2

Internal Heat Gains PI

PG 1 PG 2

Heat Gains PG

PS + PI

PL - PG

Heating Load PH

Specific Heating Load PH / ATFA

Max. Supply Air Temperature ϑSupply,Max ϑSupply,Min

For Comparison: Heating Load Transportable by Supply Air. PSupply Air,Max

PHPP 2007, Summer PHPP2007_Päikesepüüdja.ods


S U M M E R


Building:Päikesepüüdja Building Type/Use:Private houseLocation: 150.0 m²

Spec. Capacity: 60 Wh/K pro m² TFA

25 °C Area U-Value

Building Element Temperature Zone m² W/(m²K)

1.Exterior Wall - Ambient A 177.0 * 0.077 * 1.00 = 13.62.Exterior Wall - Ground B * * 1.00 =3.Roof/Ceiling - Ambient A 94.9 * 0.069 * 1.00 = 6.64.Floor Slab B 94.9 * 0.083 * 1.00 = 7.95. A * * 1.00 =6. A * * 1.00 =7. X * * 0.75 =8.Windows A 70.4 * 0.693 * 1.00 = 48.89.Exterior Door A * * 1.00 =

10.Exterior TB (length/m) A 62.0 * -0.029 * 1.00 = -1.811.Perimeter TB (length/m) P 36.0 * -0.045 * 1.00 = -1.612.Ground TB (length/m) B * * 1.00 =

–––––––––––

67.2 W/K

6.2 W/K

Clear Room HeightEffective m² m m³

Heat Recovery Efficiency 92% 150.0 * 2.50 = 375

SHX Efficiency 0%

Summer Ventilation continuous ventilation to provide sufficient indoor air quality

Air Change Rate by Natural (Windows & Leakages) or Exhaust-Only Mechanical Ventilation, Summer: 0.60 1/h

Mechanical Ventilation Summer: 1/h with HR (check if applicable)

1/h 1/h 1/h 1/h

0.600 + 0.000 * (1 - 0.000 ) + 0.000 = 0.600

m³ 1/h Wh/(m³K)

375 * 0.600 * 0.33 = 74.3 W/K

375 * 0.000 * 0.33 = 0.0 W/K

Additional Summer Ventilation for Cooling Temperature Amplitude Summer 5.7 K

Select: x Window Night Ventilation, Manual Corresponding Air Change Rate 0.60 1/h

Mechanical, Automatically Controlled Ventilation (for window ventilation: at 1 K temperature difference indoor - outdoor)

Minimum Acceptable Indoor Temperature 21.0 °C

Orientation Angle Shading g-Value Area Portion of Glazing Apertureof the Area Factor Factor Dirt (perp. radiation)

Summer Summer m² m²

1. North 0.9 * 0.21 * 0.95 * 0.50 * 0.9 * 73% = 0.12. East 0.9 * 0.22 * 0.95 * 0.50 * 0.9 * 73% = 0.13. South 0.9 * 0.21 * 0.95 * 0.50 * 65.8 * 92% = 5.44. West 0.9 * 0.22 * 0.95 * 0.50 * 2.8 * 77% = 0.25. Horizontal 0.9 * 1.00 * 0.95 * 0.00 * 0.0 * 0% = 0.06 Sum Opaque Areas 0.0

m²/m²

Solar Aperture Total 5.7 0.04

W/m² m² W W/m²

2.10 * 150 = 315 2.1

0.0% = 25 °C

If the "frequency over 25°C" exceeds 10%, additional measures to protect against summer heat waves are necessary.

Caution: Large daily temperature swing. Calculation of overheating frequency is not reliable.Solar Load Spec. Capacity

kWh/d 1/k Wh/(m²K) m²

Daily Temperature Swing due to Solar Load 28.1 * 1000 / ( 60 * 150 ) = 3.1 K


:

Overheating Limit:

Red. Factor fT,Summer HSummer Heat Conductance

Exterior Thermal Transmittance, HT,e

Ground Thermal Transmittance, HT,g

ATFA

ηHR Air Volume VV

η∗SHX

nL,nat

nV,system Φ

HRn

V,Rest

Energetically Effective Airchange Rate nV

VV

nV,equi,fraction

cAir

Ventilation Transm. Ambient HV,e

Ventilation Transm. Ground HV,g

Specif. Power qI

ATFA

Internal Heat Gains QI

Frequency of Overheating hϑ ≥ ϑmaxat the overheating limit ϑ

max

ATFA

PHPP 2007, Shading-S PHPP2007_Päikesepüüdja.ods


C A L C U L A T I N G S U M M E R S H A D I N G F A C T O R S

Climate:Tallinn EMHI

Summer! Orien-tation

Building:Päikesepüüdja m²

Latitude: 59 North 0.65 21% Results from the Summer worksheet:East 0.65 22% 0.0%

South 60.77 21%

West 2.14 22%

Horizontal 0.00 100%

Input Field

Summer Summer

Description: Orientation Glazing Width Glazing Height Glazing Area Reveal Depth

Degrees Degrees m m m m m m m % % % % % %

2 A1S 190 90 South 2.07 2.52 10.4 3.20 20.00 0.01 0.02 90% 25% 93% 100% 100% 21%2 A2S 190 90 South 0.87 2.52 4.4 3.20 20.00 0.01 0.02 90% 25% 93% 99% 100% 21%1 D1W 280 90 West 0.76 1.96 1.5 0.10 0.10 90% 25% 100% 96% 100% 22%1 A5W 280 90 West 0.76 0.86 0.7 0.10 0.10 90% 25% 100% 96% 100% 22%1 A5N 10 90 North 0.76 0.86 0.7 0.10 0.10 90% 25% 100% 95% 100% 21%1 A5E 100 90 East 0.76 0.86 0.7 0.10 0.10 90% 25% 100% 96% 100% 22%3 A3S 190 90 South 2.07 2.52 15.6 3.20 20.00 0.01 0.02 90% 25% 93% 100% 100% 21%4 A4S 190 90 South 0.76 2.41 7.3 3.20 20.00 0.01 0.02 90% 25% 93% 99% 100% 21%4 A5S 190 90 South 0.76 2.41 7.3 3.20 20.00 0.01 0.02 90% 25% 93% 99% 100% 21%3 A6S 190 90 South 2.07 2.52 15.6 3.20 20.00 0.01 0.02 90% 25% 93% 100% 100% 21%

A1S 180 90 South 1.10 2.00 0.0 0.09 0.10 97%

Glazing Area

Summer Shading Factor

rS

Frequency of Overheating hϑ ≥ ϑmax

Quantity



Height of the Shading Object

Horizontal Distance

Distance from Glazing Edge to

Reveal

Overhang Depth

Distance from Upper Glazing

Edge to Overhang

Additional Shading

Reduction Factor (Summer)

Temporary Shading

Reduction Factor, z

Horizontal Shading

Reduction Factor

Reveal Shading Reduction Factor

Overhang Shading Reduction Factor

Total Summer Shading

Reduction Factor

wG

hG

AG

hHori

dHori

oReveal

dReveal o

overd

overr

otherr

H rR

rO

rS

PHPP 2007, Cooling PHPP2007_Päikesepüüdja.ods

PASSIVE HOUSE PLANNING

S P E C I F I C U S E F U L C O O L I N G D E M A N DM O N T H L Y M E T H O D


Building:Päikesepüüdja Building Type/Use:Private houseLocation: 150 m²

Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec YearHeating Degree Hours - Exterior21.4 19.8 19.5 15.2 11.2 7.6 6.2 6.8 10.2 14.0 17.1 20.1 169 kKh

Heating Degree Hours - Ground14.3 13.9 15.9 15.2 14.8 13.0 12.1 11.0 10.1 10.6 11.2 12.8 155 kKh

Losses - Exterior 2986 2772 2726 2125 1571 1068 864 947 1430 1956 2396 2809 23652 kWh

Losses - Ground 112 109 125 119 116 103 95 86 79 84 88 101 1217 kWh

Losses Summer Ventilation 0 0 0 0 182 393 472 481 219 0 0 0 1748 kWh

Sum Spec. Heat Losses 20.7 19.2 19.0 15.0 12.5 10.4 9.5 10.1 11.5 13.6 16.6 19.4 177.8 kWh/m²

Solar Load North 1 1 2 3 4 4 4 3 2 1 0 0 25 kWh

Solar Load East 1 2 4 4 6 7 6 5 3 2 1 -1 40 kWh

Solar Load South 102 233 516 463 535 542 544 516 383 247 116 99 4295 kWh

Solar Load West 2 5 11 13 17 19 19 15 9 4 2 1 117 kWh

Solar Load Horiz. 0 0 0 0 0 0 0 0 0 0 0 0 0 kWh

Solar Load Opaque 0 0 0 0 0 0 0 0 0 0 0 0 0 kWh

Internal Heat Gains 234 212 234 227 234 227 234 234 227 234 227 234 2759 kWh

Sum Spec. Loads Solar + Internal2.3 3.0 5.1 4.7 5.3 5.3 5.4 5.2 4.2 3.3 2.3 2.2 48.2 kWh/m²

Utilisation Factor Losses 11% 16% 27% 32% 42% 50% 53% 50% 36% 24% 14% 11% 27%

Useful Cooling Energy Demand0 0 1 2 8 16 46 15 3 0 0 0 91 kWh

Spec. Cooling Demand 0.0 0.0 0.0 0.0 0.1 0.1 0.3 0.1 0.0 0.0 0.0 0.0 0.6 kWh/m²

Treated Floor Area ATFA:

Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec0

5

10

15

20

25

Sum Spec. Heat LossesSpec. Cooling DemandSum Spec. Loads Solar + Internal

Sp

ecif

ic L

os

ses,

Lo

ad

s,C

oo

ling

Dem

and

[kW

h/(

m²

mo

nth

)]

PHPP 2007, SummVent PHPP2007_Päikesepüüdja.ods


S U M M E R V E N T I L A T I O N


Location: Building Volume 375 m³

Description

Fraction of Opening Duration 10% 20% 30% 40% 50% 60%

Climate Boundary ConditionsTemperature Diff Interior - Exterior 5 5 5 5 5 5 K

Wind Velocity 0 0 0 0 0 0 m/s

Window Group 1Quantity 1 1 1 1 1 1Clear Width 0.90 0.90 0.90 0.90 0.90 0.90 m

Clear Height 2.50 2.50 2.50 2.50 2.50 2.50 m

Tilting Windows?

Opening Width (for tilting windows) m

Window Group 2 (Cross Ventilation)Quantity 1 1 1 1 1 1Clear Width 0.90 0.90 0.90 0.90 0.90 0.90 m

Clear Height 2.50 2.50 2.50 2.50 2.50 2.50 m

Tilting Windows?

Opening Width (for Tilting Windows) m

Difference in Height to Window 1 0.00 m

Single-Sided Ventilation 1 - Airflow Volume 1057 1057 1057 1057 1057 1057 m³/h

Single-Sided Ventilation 2 - Airflow Volume 1057 1057 1057 1057 1057 1057 m³/h

Cross Ventilation Airflow Volume 2113 2113 2113 2113 2113 2113 m³/h

Contribution to Air Change Rate 0.56 1.13 1.69 2.25 2.82 3.38 1/h

Summary of Summer Ventilation Distribution

Description Ventilation Type

1/h

1/h

1/h

Daily Average Air Change Rate

PHPP 2007, Cooling Units PHPP2007_Päikesepüüdja.ods


C O M P R E S S O R C O O L I N G U N I T S

MonatClimate:Tallinn EMHI Interior Temperature Summer: 25 °C h/d

Building:Päikesepüüdja Building Type/Use:Private house ###

Location: 150.0 m² AußenTempTaupunkttemp

Clear Room Height NutzkältebedarfEffective m² m m³ kg/h

150 * 2.50 = 375 °C°C

Pa1/h Efficiency Humidity Rec. 1/h kg/kg

Hygrically Effective Mech. Air Change Rate Summer 0.000 * (1 - ) = 0.000 Entfeuchtungszahl

kg/kg

1/h 1/h 1/h 1/h

Direct Ambient Air Change Rate Summer 0.600 + 0.000 + 1.133 + 0.000 = 1.733 Wm³/h

Ambient Air Change Rate Summer Total 1.73 1/h °CW°C°C°C

Supply Air Cooling Wcheck as appropriate W

On/Off Mode (check as appropriate) PaMinimum Temperature of Cooling Coil Surface °C kg/kg

kg/kgRecirculation Cooling kg/h

check as appropriate kg/hOn/Off Mode (check as appropriate) WMinimum Temperature of Cooling Coil Surface °C WVolume Flow Rate m³/h

Additional Dehumidification Wcheck as appropriate m³/h

Max. Humidity Ratio 12 g/kg °CHumidity Sources 2 g/(m²h) W

Humidity Capacity Building 700 g/(g/kg)/m² °CHumidity at Beginning of Cooling Period 8 g/kg °C

°C

Panel Cooling Wcheck as appropriate W

sensible latent Pa

Useful Cooling Demand 0.6 0.0 kg/kgof which Sensible Fraction kg/kg

Supply Air Cooling kWh/(m²a) kg/h

Recirculation Cooling kWh/(m²a) kg/h

Dehumidification kWh/(m²a) W

Remaining for Panel Cooling kWh/(m²a) W

Total 0.0 0.0 kWh/(m²a) 0.0%kg/h

Unsatisfied Demand 0.6 0.0 kWh/(m²a) kg/hkg/hkg/kgkg/kgh


:

ATFA

Air Volume VV

nV,system Φ

HR

nV,nat

nV,Res

nNight,Windows

nNight,mechanical

PHPP 2007, Cooling Load PHPP2007_Päikesepüüdja.ods


C O O L I N G L O A D

Building: Päikesepüüdja Building Type/Use: Private house 25 °C

Location: 150.0 m²

Spec. Capacity: 60 Wh/(m²K) (Enter in "Summer" worksheet.) Climate (Cooling Load): Tallinn EMHI

Ambient Air Sky Ground Radiation: North East South West Horizontal

Design Temperature: 22.1 °C 11.4 °C 11.0 °C 90 170 210 160 300 W/m²

Area U-Value Factor TempDiff

Building Elements Temperature Zone m² W/(m²K) K W

1.Exterior Wall - Ambient A 177.0 * 0.077 * 1.00 * -2.9 = -392.Exterior Wall - Ground B * * 1.00 * -14.0 =3.Roof/Ceiling - Ambient A 94.9 * 0.069 * 1.00 * -2.9 = -194.Floor Slab B 94.9 * 0.083 * 1.00 * -14.0 = -1105. A * * 1.00 * -2.9 =6. A * * 1.00 * -2.9 =7. X * * 0.75 * -2.9 =8.Windows A 70.4 * 0.693 * 1.00 * -2.9 = -1429.Exterior Door A * * 1.00 * -2.9 =

10. Exterior TB (length/m) A 62.0 * -0.029 * 1.00 * -2.9 = 511. Perimeter TB (length/m) P 36.0 * -0.045 * 1.00 * -14.0 = 2312. Ground TB (length/m) B * * 1.00 * -14.0 =13. House/DU Partition Wall I * * 1.00 * 3.0 =

TempDiff K TempDiff K

14. Radiation Correction 0.0 * -2.9 + 0.0 * -13.6 = 0 ––––––––

Total = -283

Clear Room Height

Ventilation System: m² m m³

150.0 * 2.50 = 375

Vent. Transm. TempDiffW/K kKh/a W

Exterior 74.3 * -2.9 = -216Ground 0.0 * -14.0 = 0

Additional Summer Ventilation:

x Window Night Ventilation, Manual Corresponding Air Change Rate 0.60 1/h

Mechanical, Automatically Controlled Ventilation Minimum Indoor Temperature 21.0 °CkWh/d kh/d W

Heat Removal Cooling Design Day Window Ventilation -9.5 / 0.02 = -394(from Cooling worksheet) Automatic Night Ventilation 0.0 / 0.02 = 0

W

Total = -610

Orientation Area g-Value Reduction Factor Radiation

of the Area m² (perp. radiation) W/m² W

1. North 0.9 * 0.5 * 0.13 * 92 = 62. East 0.9 * 0.5 * 0.13 * 180 = 113. South 65.8 * 0.5 * 0.16 * 209 = 11264. West 2.8 * 0.5 * 0.14 * 149 = 305. Horizontal 0.0 * 0.0 * 0.40 * 300 = 06. Sum Opaque Areas 0

Total = 1172

Spec. Power

W/m² m² W

3.1 * 150 = 465

= 744 W

= 5.0 W/m²

Caution: Large daily temperature swing. Consideration of daily average cooling load is not sufficient. Reduce solar load!

Solar Load Time Spec. Capacity

W h/d Wh/(m²K) m²

Daily Temperature Swing due to Solar Load 1172.4 * 24 / ( 60 * 150 ) = 3.1 K

Interior Temperature:


:

Always 1(except "X")

Lambient

W/K LSky

W/K

Transmission Heat Losses PT

ATFA


Ventilation Heat Load PV

PS

Heat Gain - Solar Heat Load, PS

ATFA P

I

Internal Heat Load PI

Cooling Load PC

PT + P

V + P

S + P

I

Specific Maximum Cooling Load PC

/ AEB

ATFA

PHPP 2007, DHW + Distribution PHPP2007_Päikesepüüdja.ods


H E A T D I S T R I B U T I O N A N D D H W S Y S T E M

Building: PäikesepüüdjaLocation:

Interior Temperature: 20 °CBuilding Type/Use: Private house

150 m²Occupancy: 4.3 Pers

Number of Residences: 12108 kWh/a

Length of Heating Period: 205 d0.4 kW

Marginal Utilisability of Additional Heat Gains: 39% PartsWarm Region Cold Region Total

Space Heat Distribution 1 2 3

Length of Distribution Pipes (Project) m

Heat Loss Coefficient per m Pipe Ψ (Project) W/(mK)

Temperature of the Room Through Which the Pipes Pass Mechanical Room 20 °C

Design Flow Temperature Flow, Design Value °C

Design System Heat Load (exist./calc.) kW

Flow Temperature Control (check)

Design Return Temperature °C

Annual Heat Emission per m of Plumbing Total 1,2,3 kWh/(m·a)

Possible Utilization Factor of Released Heat -

Annual Losses 0 0 0 0 kWh/a

Specif. Losses kWh/(m²a) 0.0Utilisation Factor of Space Heat Distribution 100% -

DHW: Standard Useful HeatDHW Consumption per Person and Day (60 °C) (Project or Average Value 25 Litres/P/d) 25.0 Litre/Person/d

Average Cold Water Temperature of the Supply Temperature of Drinking Water (10°) 7.0 °CDHW Non-Electric Wash and Dish (Electricity worksheet) 0 kWh/a

Useful Heat - DHW 2404 kWh/a

Specif. Useful Heat - DHW kWh/(m²a) 16.0

DHW Distribution and Storage Warm Region Cold Region Total

Length of Circulation Pipes (Flow + Return) (Project) 12.0 m

Heat Loss Coefficient per m Pipe Ψ (Project) 0.275 W/m/K

Temperature of the Room Through Which the Pipes Pass Mechanical Room 20 °C

Design Flow Temperature Flow, Design Value 55.0 °C

Daily circulation period of operation. (Project) 18.0 h/d

Design Return Temperature 51 °C

Circulation period of operation per year 6570 h/a

Annual Heat Released per m of Pipe 59.3 kWh/m/a

Possible Utilization Factor of Released Heat 21.6% -

Annual Heat Loss from Circulation Lines 558 558 kWh/a

Total Length of Individual Pipes (Project) 30.00 m

Exterior Pipe Diameter (Project) 0.016 m

Heat Loss Per Tap Opening 0.1832 kWh/tap opening

Occupancy Coefficient 4693 Tap openings per year

Annual Heat Loss 859.5 kWh/a

Possible Utilization Factor of Released Heat 21.6% -

Annual Heat Loss of Individual Pipes 673.7 674 kWh/a

Total 1,2,3

Average Heat Released From Storage 49.0 W

Possible Utilization Factor of Released Heat 21.6%

Annual Heat Losses from Storage 336.4 336 kWh/a

Total 1,2,3

Total Heat Losses of the DHW System 1568 kWh/a

Specif. Losses of the DHW System kWh/(m²a) 10.5

Utilisation Factor DHW Distrib and Storage 60.5% -

Total Heat Demand of DHW system 3972 kWh/a

Total Spec. Heat Demand of DHW System kWh/(m²a) 26.5


:

Annual Heat Demand qHeating

Average Heat Load Pave

:

LH

ϑX

ϑdist

Pheating

ϑR

=0.714∗(ϑdist

-20)+20

q*HL = Ψ (ϑ

m−ϑ

X) t

Heating*0.024

ηG

QHL = L

H · q*

HL · (1-η

G)

qHL = ΣQHL / ATFA

ha,HL

= qH

/ ( qH + q

HL)

VDHW

ϑDW

QDHW

qDHW

= QDHW

/ ATFA

LHS

ϑX

ϑdist

tdCirc

ϑR

=0.875*(ϑdist

-20)+20

tCirc = 365 tdCirc

q*Z = Ψ (ϑ

m−ϑ

X) t

Circ

ηGDHW

=theating

/365d * ηG

QZ = L

HS · q*

Z ·(1-η

GDHW)

LU

dU_Pipe

qIndividual

=(cpH2O

VH2O

+cpMat

VMat

)(ϑdist

-ϑX)

nTap = n

Pers . 3 . 365 / n

LU

qU

= nTap

. qIndividual

ηG_U

=theating

/8760*ηG

QU = qU ·(1-η

G_U)

PS

ηG_S =theating/8760*ηG

QS = P

S·8.760 kh·(1-η

G_S)

QWL

= QZ+Q

U+Q

S

qWL = QWL / ATFA

ηa,WL= q

DHW / (q

DHW + q

WV)

QgDHW

= QDHW

+QWL

qgDHW

= QgDHW

/ ATFA

PHPP 2007, DHW + Distribution PHPP2007_Päikesepüüdja.ods

Nominal Width 20 mmInsulation Thickness: 10 mmReflective? Please mark with an "x"! k*-NäherungYes OberflächentemperaturDiff_Näh

x NoThermal Conductivity 0.04 W/(mK) k*-Näherung

OberflächentemperaturDiff_Näh∆ϑ 30 K

Interior Pipe Diameter: 0.02000 m k*-NäherungExterior Pipe Diameter 0.02225 mOberflächentemperaturDiff_Näh

Exterior Pipe Diameter 0.04225 mk*-Näherung

7.37 W/(m²K)OberflächentemperaturDiff_Näh

0.275 W/(mK)

Surface Temperature Difference 0.000 K k*-Näherung

OberflächentemperaturDiff_Näh

Secondary Calculation: Ψ-Values of Plumbing

α− Näherung

α− Näherung

α− Näherung

α− Näherung

α−Surface

Ψ-Value α− Näherung

PHPP 2007, SolarDHW PHPP2007_Päikesepüüdja.ods


H O T W A T E R P R O V I D E D B Y S O L A R


Location: 150.0 m²

Solar Fraction with DHW Demand including Washing and Dish-Washing

Heat Demand DHW 3972 kWh/a from DHW+Distribution worksheet

Latitude: 59.0 ° from Climate Data worksheet

Selection of collector from list (see below): 7 Selection: 7 Improved Flat Plate Collector FPC

Solar Collector Area 10.00 m²

Deviation from North 180 °

Angle of Inclination from the Horizontal 50 °

Height of the Collector Field 2 m

Height of Horizon 1.00 m

Horizontal Distance 25.00 m

Additional Reduction Factor Shading 100% %

Occupancy 4.3 Persons

Specific Collector Area 2.3 m²/Pers

Estimated Solar Fraction of DHW Production 64%

Solar Contribution to Useful Heat 2554 kWh/a 17 kWh/(m²a)

Secondary Calculation of Storage Losses

Selection of DHW storage from list (see below): 12 Selection: 12 Stratified Solar Storage

Total Storage Volume 490 litre

Volume Standby Part (above) 147 litre

Volume Solar Part (below) 343 litre

Specific Heat Losses Storage (total) 3.3 W/K

Typical Temperature DHW 55 °C

Room Temperature 20 °C

Storage Heat Losses (Standby Part Only) 86 W

Total Storage Heat Losses 115 W


:

qgDHW

hHori

aHori

rother

January February March April May June July August September October November December0

200

400

600

800

1000

1200

1400

1600

1800

0.0

0.1

0.2

0.3

0.4

0.5

0.6

0.7

0.8

0.9

1.0

Monthly Heat Load Covered by Solar Total Monthly Heat Load DHW ProductionRadiation on Tilted Collector Surface Monthly Solar Fraction

So

lar

Rad

iati

on

, Hea

t L

oad

DH

W P

rod

uct

ion

, Hea

t L

oad

Co

vere

d b

y S

ola

r

[kW

h/(

m²

mo

nth

)]

So

lar

Fra

ctio

n [

-]

PHPP 2007, Electricity PHPP2007_Päikesepüüdja.ods


Building:Päikesepüüdja E L E C T R I C I T Y D E M A N D

# Households 1 HH

###Persons 4.3 P Solar Fraction of DHW Wash&Dish Prim. Energy Factors: Electricity 2.7 kWh/kWh

###Living Area 150 m² Marginal Performance Ratio DHW 118% Natural Gas 1.1 kWh/kWh

###Annual Heat Demand 14 kWh/(m²a) Marginal Performance Ratio Heating 120% Energy Carrier for Space Heating/DHW:

Column Nr. 1 2 3 4 5 6 7 8 8a 9 10 11 12 13 14

Application

Use

d ?

(1/

0)

Nor

m D

ema

nd

Util

izat

ion

Fac

tor

Fre

que

ncy

Ref

ere

nce

Qu

antit

y

Ele

ctri

c F

ract

ion

So

lar

Fra

ctio

n

Dishwashing 1 1 0.50 kWh/Use * 1.00 * 65 /(P*a) * 4.3 P = 139 * 100% = 139 376Cold Water Connection * 0% * (1+ 0.30 ) * 1.18 *(1- ) =

Clothes Washing 1 1 0.70 kWh/Use * 1.00 * 57 /(P*a) * 4.3 P = 171 * 100% = 171 462Cold Water Connection * 0% * (1+ 0.05 ) * 1.18 *(1- ) =

Clothes Drying with: 1 1 3.50 kWh/Use 0.88 * 57 /(P*a) * 4.3 P = 0 0% = 0 0Clothesline 0.60 = 0 0% 1.00 * 0 0

1 1 3.13 kWh/Use * 0.60 * 57 /(P*a) * 4.3 P = 459 * 100% * (1+ 0.00 ) * 1.20 *(1- 0.80 ) = 111 300Refrigerating 0 1 0.28 kWh/d * 1.00 * 365 d/a * 1 HH = 0 * 100% = 0 0Freezing 0 1 0.32 kWh/d * 1.00 * 365 d/a * 1 HH = 0 * 100% = 0 0or Combined Unit 1 1 0.61 kWh/d * 1.00 * 365 d/a * 1 HH = 223 * 100% = 223 601Cooking with: 1 1 0.25 kWh/Use * 1.00 * 500 /(P*a) * 4.3 P = 536 * 0% = 0 0Gas * 100% 536 589Lighting 1 1 11 W 100% * 1.00 * 2.90 kh/(P*a) * 4.3 P = 137 * 100% = 137 369Consumer Electronics 1 1 200 W * 1.00 * 0.55 kh/(P*a) * 4.3 P = 471 * 100% = 471 1273Small Appliances, etc. 1 1 50 kWh * 1.00 * 1.00 /(P*a) * 4.3 P = 214 * 100% = 214 579Total Aux. Electricity 817 817 2205Other:

0 0 00 0 00 0 0

DHW Non-Electric - Wash&Dish

Total 3167kWh 2172 kWh 0 kWh 647 6754Non-Renewable Non-Electric DHW Wash&Dish

Specific Demand 14.5 0.0 4.3 45.0

Recommended Maximum Value 18 50

With

in th

e T

herm

al

En

velo

pe?

(1

/0)

Use

ful E

nerg

y (k

Wh

/a)

Non

-Ele

ctri

c F

ract

ion

Ele

ctri

cit

y D

em

an

d

(kW

h/a

)

Ad

ditio

nal

Dem

and

Ma

rgin

al

Pe

rfor

ma

nce

Rat

io

No

n-E

lec

tric

D

eman

d (

kWh

/a)

Pri

ma

ry E

ner

gy

-D

eman

d (

kWh

/a)

Residual dampness

Energy Consumed by Evaporation

Percentage CFLs

kWh/(m2a) kWh/(m2a)

PHPP 2007, Electricity Non-Dom PHPP2007_Päikesepüüdja.ods


Building:Päikesepüüdja E L E C T R I C I T Y D E M A N D Non-Domestic Use

150.0 m² Window Properties (from Windows worksheet):

Auxiliary Electricity Demand: 816.7 kWh/a Calculation in Electricity worksheet! Shading Dirt Factor

Primary Energy Factors: North 0.94 0.95 0.85 0.73 CO2

Electricity: 2.7 kWh/kWh East 0.91 0.73 ###

Gas: 1.1 kWh/kWh South 0.91 0.92 ###

Energy Carrier for DHW: kWh/kWh West 0.91 0.77 ###

Solar Fraction of DHW 64%

Marginal Performance Ratio DHW:

Facade with Windows###

Lighting / Non-Domestic

Ro

om C

ateg

ory

Ro

om C

ateg

ory

De

viat

ion

from

Nor

th

Orie

nta

tion

Ro

om D

epth

Ro

om W

idth

Ro

om H

eigh

t

Lint

el H

eig

ht

Win

dow

Wid

th

Inpu

t W

arni

ng

Da

ylig

ht U

tilis

atio

n

Ligh

ting

Con

trol

Ligh

ting

Con

trol

Re

flexi

ons

grad

Dec

ke

Room / Zone Lux Degrees - m m m m m W/m² W/m² h/a kWh/a %

Total of Area Fractions is less than 100%! 2 15 9 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###

69% 0.0 1 0 manual 0.0 ###


:

Non-Perpendicular

Radiation

Glazing Fraction

Room Geometry: Input of a Typical Room or Room by Room

Fra

ctio

n o

f Tre

ated

F

loor

Are

a

No

min

al Il

lum

ina

nce

Leve

l

Ligh

t Tra

nsm

issi

on

Gla

zing

Use

r D

ata

: In

stal

led

Li

ghtin

g P

owe

r

Inst

alle

d Li

ght

ing

Pow

er

(Sta

ndar

d)

Mot

ion

Det

ect

or

with

/with

out

(1/0

)

Util

isat

ion

Hou

rs p

er

Yea

r [h

/a]

Use

r D

eter

min

ed:

Ligh

ting

Fu

ll Lo

ad H

our

s

Fu

ll L

oad

Ho

urs

of

Lig

hti

ng

Ele

ctri

city

Dem

an

d

(kW

h/a

)

Sp

ec.

Ele

ctr

icit

y D

em

and

(k

Wh

/(m

²a))

Pri

mar

y E

ner

gy

De

man

d (

kW

h/a

)

Without MotionWithout MotionWithout MotionWithout MotionWithout MotionWithout MotionWithout MotionWithout MotionWithout MotionWithout MotionWithout MotionWithout MotionWithout MotionWithout MotionWithout MotionWithout MotionWithout MotionWithout MotionWithout MotionWithout MotionWithout MotionWithout Motion

PHPP 2007, Electricity Non-Dom PHPP2007_Päikesepüüdja.ods

Office Equipment

Ro

om C

ateg

ory

Ro

om C

ateg

ory

Qua

ntity

rela

tive

abse

ntee

ism

2 9 20 18

PC 1 1 1 0 * * 80 * ( 0 * (1- ) = 0 = 0.0 0

PC in Energy Saving Mode 1 0 * 2.0 * 0 * 0 = 0 = 0.0 0 ohne Präsenzmelder

Monitor 1 1 1 0 * 6 * 28 * ( 0 * (1- ) = 0 = 0.0 0 mit Präsenzmelder

Monitor in Energy Saving Mode 1 6 * 2.0 * 0 * 0 = 0 = 0.0 0

PC 2 1 0 * 0 * 80 * ( 0 * (1- 0 ) = 0 = 0.0 0

PC in Energy Saving Mode 1 0 * 2.0 * 0 * 0 = 0 = 0.0 0 Tageslichtnutzung

Monitor 2 1 0 * 0 * 28 * ( 0 * (1- 0 ) = 0 = 0.0 0 Beleuchtungsstärke [Lux]

Monitor in Energy Saving Mode 1 0 * 2.0 * 0 * 0 = 0 = 0.0 0 manual

Copier 1 0 * 1 * 400 * ( 0 - 0 ) = 0 = 0.0 0 autarkic, without off-mode

Copier in Energy Saving Mode 1 1 * 30 * 0 = 0 = 0.0 0 autarkic, with off-mode

Printer 1 0 * 2 * 300 * ( 0 - 0 ) = 0 = 0.0 0 bus system

Printer in Energy Saving Mode 1 2 * 2 * 0 = 0 = 0.0 0

Server 1 0 * 1 * 100 * ( 0 = 0 = 0.0 0

Server in Energy Saving Mode 1 1 * 2.0 * ( 8760 - 0 ) = 0 = 0.0 0

Telephone System 1 0 * 1 * 94 * 8760 = 0 = 0.0 0

* * * = 0 = 0.0 0

* * * = 0 = 0.0 0

* * * = 0 = 0.0 0

* * * = 0 = 0.0 0

* * * = 0 = 0.0 0

Kitchen / Aux. Electricity

Ro

om C

ateg

ory

No

rm C

onsu

mpt

ion

No

n-E

lect

ric

Fra

ctio

n

Ele

ctri

c F

ract

ion

Add

ition

al D

em

and

Sol

ar F

ract

ion

8

Cooking 1 1 0 * * 3 * 0.25 = 0 * 0% = 0.0 0 Kochen

2 * 100% = 0 0 ###

Dishwashing 1 0 * 0 * 3 * 0.10 = 0 * 55% = 0.0 0 ###

2 kWh/d * 45% * (1+ 0.30 ) * 1.20 *(1- 0.64 ) = 0 0 ###

Refrigerating 1 0 365 = 0 * 100% = 0.0 0

0 * 100% = 0.0 0

0 * 100% = 0.0 0

0 * 100% = 0.0 0

0 * 100% = 0.0 0

0 * 100% = 0.0 0

0 * 100% = 0.0 0

0 * 100% = 0.0 0

0 * 100% = 0.0 0

Total Auxiliary Electricity 817 816.7 2205

Total 817 kWh 0 0 817 kWh/a 2205 kWh/a

Specific Demand 0.0 0.0 5 kWh/(m²a) 15 kWh/(m²a)

In th

e th

erm

al

enve

lop

e? (

1/0)

Exi

stin

g/P

lann

ed?

(1/0

)

Pow

er

Ra

ting

(W)

Util

isat

ion

Hou

rs p

er

Yea

r (h

/a)

Du

ratio

n o

f U

tilis

atio

n in

Ene

rgy

Sav

ing

Mod

e (h

/a)

Use

ful E

nerg

y(k

Wh/

a)

Ele

ctr

icit

y D

em

and

(k

Wh

/a)

Pri

mar

y E

ner

gy

D

em

and

(k

Wh

/a)

Predominant Utilisation Pattern of

Building

In th

e th

erm

al

enve

lop

e? (

1/0)

Exi

stin

g/P

lann

ed?

(1

/0)

Util

isat

ion

Day

s p

er

Yea

r (d

/a)

Nu

mb

er o

f Mea

ls

per

Util

isat

ion

Day

Use

ful E

ner

gy

(kW

h/a)

Ma

rgin

al

Per

form

anc

e R

atio

Oth

er

Pri

ma

ry

En

erg

y D

eman

d

(kW

h/a

)

Ele

ctr

icit

y D

em

and

(k

Wh

/a)

Pri

mar

y E

ner

gy

D

em

and

(k

Wh

/a)

kWh / Meal

kWh / Cover

Ho

t Wat

er N

on-

Ele

ctric

D

ishw

ash

ing

PHPP 2007, Aux Electricity PHPP2007_Päikesepüüdja.ods


Building:Päikesepüüdja A U X I L I A R Y E L E C T R I C I T Y

1 Living Area 150 m² Operation Vent. System Winter 4.91 kh/a Primary Energy Factor - Electricity 2.7 kWh/kWh

2 Heating Period 205 d Operation Vent. System Summer 3.85 kh/a Annual Space Heat Demand 143 Air Volume 375 m³ Air Change Rate 0.55 Boiler Rated Power 15 kW4 Dwelling Units 1 HH Defrosting HX from -2.0 °C DHW System Heat Demand 3972 kWh/a

5 Enclosed Volume 375 m³ Design Flow Temperature 0 °C

Column Nr. 1 2 3 4 5 6 7 8 9 10 11

Application

Use

d ?

(1/0

)

Nor

m D

ema

nd

Util

izat

ion

Fac

tor

Pe

riod

of O

per

atio

n

Ref

ere

nce

Siz

e

Ventilation System

Winter Ventilation 1 1 0.23 Wh/m³ * 0.55 * 4.9 kh/a * 375 m³ = 234 considered in heat recovery efficiency 631

Summer Ventilation 0 1 0.23 Wh/m³ * 0.55 * 3.9 kh/a * 375 m³ = 0 no summer contribution to IHG 0

Defroster HX 1 1 606 W * 1.00 * 0.1 kh/a * 1 = 77 * 1.0 / 4.91 = 16 207

Heating System Controlled/Uncontrolled (1/0)

Enter the Rated Power of the Pump W 1

Circulation Pump 1 1 98 W * 0.8 * 4.9 kh/a * 1 = 390 * 1.0 / 4.91 = 79 1053Boiler Electricity Consumption at 30% Load W

Aux. Energy - Heat. Boiler 0 0 55 W * 1.00 * 0.00 kh/a * 1 = 0 * 1.0 / 4.91 = 0 0

DHW system

Enter Average Power Consumption of Pump 5 W

Circulation Pump 1 1 5 W * 1.00 * 4.4 kh/a * 1 = 22 * 0.6 / 8.76 = 2 59Enter the Rated Power of the Pump 5 W

Storage Load Pump DHW 1 1 5 W * 1.00 * 0.3 kh/a * 1 = 1 * 1.0 / 4.91 = 0 4Boiler Electricity Consumption at 100% Load 1000 W

DHW Boiler Aux. Energy 0 1 1000 W * 1.00 * 0.0 kh/a * 1 = 0 * 1.0 / 4.91 = 0 0Enter the Rated Power of the Solar DHW Pump W

Solar Aux Electricity 1 1 36 W * 1.00 * 1.8 kh/a * 1 = 63 * 0.6 / 8.76 = 4 170

Misc. Aux. Electricity

Misc. Aux. Electricity 1 0 30 kWh/a * 1.00 * 1.0 * 1 HH = 30 * 1.0 / 8.76 = 0 81

Total 817 101 2205

Specific Demand kWh/(m²a) Divide by Living Area: 5.4 14.7

kWh/(m2a)

h-1

With

in t

he T

herm

al

En

velo

pe?

(1

/0)

Ele

ctr

icit

y D

em

and

(k

Wh

/a)

Av

aila

ble

as

In

teri

or

He

at

Use

d D

urin

g T

ime

P

erio

d (

kh/a

)

Inte

rnal

He

at

So

urc

e (W

)

Pri

ma

ry E

ner

gy

D

eman

d (

kWh

/a)

h-1

h-1

PHPP 2007, PE Value PHPP2007_Päikesepüüdja.ods


P R I M A R Y E N E R G Y V A L U E

Building:Päikesepüüdja Building Type/Use: Private house

Location: 150 m²

Space Heat Demand incl. Distribution 14 kWh/(m²a)

Useful Cooling Demand: 0 kWh/(m²a)

Final Energy Primary Energy

Electricity Demand (without Heat Pump) PE Value

Covered Fraction of Space Heat Demand (Project) 20% kWh/kWh g/kWh

Covered Fraction of DHW Demand (Project) 30% 2.7 680

Direct Electric Heating 2.8 7.6 1.9

DHW Production, Direct Electric (without Wash&Dish) (DHW+Distribution, SolarDHW) 2.8 7.7 1.9Electric Postheating DHW Wash&Dish (Electricity, SolarDHW) 0.0 0.0 0.0Electricity Demand Household Appliances (Electricity worksheet) 9.0 24.4 6.1Electricity Demand - Auxiliary Electricity 5.4 14.7 3.7Total Electricity Demand (without Heat Pump) 20.1 54.3 13.7

Heat Pump PE Value

Covered Fraction of Space Heat Demand (Project) kWh/kWh g/kWh

Covered Fraction of DHW Demand (Project) 2.7 680

Energy Carrier - Supplementary HeatingAnnual Coefficient of Performance - Heat Pump Separate Calculation

Total System Performance Ratio of Heat Generator Separate Calculation

Electricity Demand Heat Pump (without DHW Wash&Dish) 0.0 0.0 0.0Non-Electric Demand, DHW Wash&Dish (Electricity worksheet) 0.0 0.0 0.0Total Electricity Demand Heat Pump 0.0 0.0 0.0

Compact Heat Pump Unit PE Value



Energy Carrier - Supplementary HeatingCOP Heat Pump Heating (Compact worksheet) 0.0COP Heat Pump DHW (Compact worksheet) 0.0Performance Ratio of Heat Generator (Verification) (Compact worksheet)

Performance Ratio of Heat Generator (Planning) (Compact worksheet)

Electricity Demand Heat Pump (without DHW Wash&Dish) (Compact worksheet) 0.0 0.0 0.0Non-Electric Demand, DHW Wash&Dish 0.0 0.0 0.0Total Compact Unit (Compact worksheet) 0.0 0.0 0.0

Boiler PE Value



Boiler Type (Boiler worksheet)

Utilisation Factor Heat Generator (Boiler worksheet) 0%Annual Energy Demand (without DHW Wash&Dish) (Boiler worksheet) 0.0 0.0 0.0Non-Electric Demand, DHW Wash&Dish (Electricity worksheet) 0.0 0.0 0.0Total Heating Oil/Gas/Wood 0.0 0.0 0.0

District Heat PE Value


Covered Fraction of DHW Demand (Project) 0.7 -70

Heat Source (District Heat worksheet)

Utilisation Factor Heat Generator (District Heat worksheet) 0%Heat Demand District Heat (without DHW Wash&Dish) (District Heat worksheet) 0.0 0.0 0.0Non-Electric Demand, DHW Wash&Dish (Electricity worksheet) 0.0 0.0 0.0Total District Heat 0.0 0.0 0.0

Other PE Value

Covered Fraction of Space Heat Demand (Project) 80% kWh/kWh g/kWh

Covered Fraction of DHW Demand (Project) 70% 0.0 55

Heat Source (Project) WoodUtilisation Factor Heat Generator (Project) 80%Annual Energy Demand, Space Heating 14.1 0.0 0.8Annual Energy Demand, DHW (without DHW Wash&Dish) 8.3 0.0 0.5Non-Electric Demand, DHW Wash&Dish (Electricity worksheet) 0.0 0.0 0.0Non-Electric Demand Cooking/Drying (Gas) (Blatt Strom) 3.6 3.9 0.9Total - Other 25.9 3.9 2.1

Cooling with Electric Heat Pump PE Value

kWh/kWh g/kWh

Covered Fraction of Cooling Demand (Project) 100% 2.7 680

Heat Source Electricity

Annual Cooling COPEnergy Demand Space Cooling 0.0 0.0 0.0

Heating, Cooling, DHW, Auxiliary and Household Electricity 46.0 58.3 15.8

Total PE Value 58.3 kWh/(m²a)

15.8 kg/(m²a) (Yes/No)

Primary Energy Requirement 120 kWh/(m²a) Yes

Heating, DHW, Auxiliary Electricity (No Household Applications) 33.4 29.9 8.8

Specific PE Demand - Mechanical System 29.9 kWh/(m²a)

8.8 kg/(m²a)

Solar Electricity kWh/a PE Value (Savings)

Planned Annual Electricity Generation Separate Calculation 1500 kWh/kWh g/kWh

0.7 250

Specific Demand 10.0 7.0 2.5

PE Value: Conservation by Solar Electricity 20.0 kWh/(m²a)

4.3 kg/(m²a)


:

EmissionsCO

2-Equivalent

kWh/(m2a) kWh/(m2a) kg/(m2a)

CO2-Emissions Factor

(CO2-Equivalent)

QH,de

QDHW,de

QEHH

CO2-Emission Factor

(CO2-Equivalent)

QHP

CO2-Emission Factor

(CO2-Equivalent)

QHP

CO2-Emission Factor

(CO2-Equivalent)

CO2-Emission Factor

(CO2-Equivalent)

CO2-Emission Factor

(CO2-Equivalent)

CO2-Emission Factor (CO

2-Equivalent)

Total Emissions CO2-Equivalent

Total Emissions CO2-Equivalent

CO2-Emission Factor

CO2-Emissions Avoided Due to Solar Electricity

PHPP 2007, Compact PHPP2007_Päikesepüüdja.ods

Passive House PlanningC O M P A C T U N I T W I T H E X H A U S T A I R H E A T P U M P

(Calculation from Values Measured in the Laboratory Test for Unit Certification)

Building:Päikesepüüdja Building Type/Use: Private house

Location: 150 m²

Covered Fraction of Space Heat Demand (PE Value worksheet) 0%

Space Heat Demand + Distribution Losses (DHW+Distribution) 2108 kWh

Solar Fraction for Space Heat (Separate Calculation) 50%

Effective Annual Heat Demand 0 kWh

Covered Fraction of DHW Demand (PE Value worksheet) 0%

Total Heat Demand of DHW system (DHW+Distribution) 3972 kWh

Solar Fraction for DHW (SolarDHW worksheet) 64%

Effective DHW Demand 0 kWh

Selection of Compact Unit (Data Inputs from Row 173):

Measured Values from Laboratory Test

Ventilation

Effective Heat Recovery Efficiency (Test Stand) kg/a

Electric Efficiency (Test Stand) 0.00 Wh/m³

Heating Test Point 1 Test Point 2 Test Point 3 Test Point 4

Ambient Air Temperature °C

Measured Thermal Power Heat Pump Heating kW

Measured COP Heating -

DHW Test Point 1 Test Point 2 Test Point 3 Test Point 4


Measured Thermal Power DHW Storage Heating-Up kW

Measured Thermal Power DHW Storage Reload kW

Measured COP DHW Storage Heating-Up -

Measured COP DHW Storage Reload -

Test Point 1 Test Point 2 Test Point 3 Test Point 4


Measured Thermal Power Heat Pump Standby kW

Measured COP Standby -

Specific Heat Loss Storage incl. Connections (Test Stand) W/K

Average Storage Temperature in Standby Mode (Test Stand) °C

Heat Pump Priority (please check as appropriate) (Manufacturer, Techn. Data) DHW Priority Heating Priority

Room Temperature (°C) 20Av. Ambient Temp. Heating P. (°C) 0Av. Ground Temp (°C) 7

Efficiency SHX Exhaust Air Mixing 0%

Heat Recovery Efficiency SHX Exhaust Air Mixing (if applicable) (Design Value) 0%

Volume Flow Rate of Added Exhaust Air (if applicable) (Test Stand) m³/h

Heat Supplied by Direct Electricity kWh/a

Space Heat Supplied by HP 0 kWh/a

Winter DHW Supplied by HP 0 kWh/a

Winter Standby Heat Supplied by HP 0 kWh/a

Summer DHW Supplied by HP 0 kWh/a

Summer Standby Heat Supplied by HP 0 kWh/a

Performance Ratio of Heat Generator, DHW & Space Heating

Annual Coefficient of Performance COP

kWh/a kWh/(m²a)

Final Energy Demand Heat Generation 0.0

Annual Primary Energy Demand 0 0.0

kg/a kg/(m²a)

0 0.0


:

QH+Q

HL:

ηSolar, H

QH,Wi

=QH*(1-η

Solar, H)

QgDHW

ηSolar, DHW

QDHW,Wi

=QDHW

*(1-ηSolar, DHW

)

ηeff

Tamb

PHP,Heating

COPHeating

Tamb

PDHW,Heating-Up

PDHW,Reload

COPDHW,Heating-Up

COPDHW,Reload

Standby (Inputs required only if different from storage reload)

Tamb

PHP,Standby

COPStandby

U * A Storage

TDHW,Standby

η∗SHX

ηSHX,add

Vadd

QE,dir

QHP,Heating

QHP,DHW,Winter

QHP,Standby,Winter

QHP,DHW,Summer

QHP,Standby,Summer

Qfinal

Annual CO2-Equivalent Emissions

PHPP 2007, Boiler PHPP2007_Päikesepüüdja.ods

Passive House PlanningE F F I C I E N C Y O F H E A T G E N E R A T I O N ( G A S , O I L , W O O D )

Building: Päikesepüüdja Building Type/Use:Private house

Location: 150 m²


Space Heat Demand + Distribution Losses (DHW+Distribution) 2108 kWh

Solar Fraction for Space Heat (Separate Calculation)


Space Heat Demand without Distribution Losses (Annual Heat Demand) 1263 kWh


Total Heat Demand of DHW system (DHW+Distribution) 3972 kWh



Boiler Type (Project)Wood Log Burning (Direct and Indirect Release of Heat) 6

Primary Energy Factor (Data worksheet) 0.2 kWh/kWh

50 g/kWh

Useful Heat Provided kWh/a

Max. Heating Power Required for Heating the Building (Heating Load worksheet) 2.62 kW

Length of the Heating Period 0 h

Length of DHW Heating Period 8760 h

Use characteric values entered (check if appropriate)?

Project Data Standard Values

Design Output (Rating Plate) 15 kW 15 kW

Installation of Boiler (Outdoor: 0, Indoor: 1) 0 0

Input Values (Oil and Gas Boiler) Project Data Standard Values

Boiler Efficiency at 30% Load (Manufacturer)

Boiler Efficiency at Nominal Output (Manufacturer)

Standby Heat Loss Boiler at 70 °C (Manufacturer)

Average Return Temperature Measured at 30% Load (Manufacturer) °C

Input Values (Biomass Heat Generator) Project Data Standard Values

Efficiency of Heat Generator in Basic Cycle (Manufacturer) 60% 60%

Efficiency of Heat Generator in Constant Operation (Manufacturer) 70% 70%

Average Fraction of Heat Output Released to Heating Circuit (Manufacturer) 0.4 0.4

Temperature Difference Betw. Power-On and Power-Off ∆ϑ (Manufacturer) 30 K 30

For Interior Installations: Area of Mechanical Room (Project) 0 m² 0 m²

Useful Heat Output per Basic Cycle (Manufacturer) 22.5 22.5

Average Power Output of the Heat Generator (Manufacturer) 15.0 kW 15.0

Utilisation Factor Heat Generator Heating Run 0%

Utilisation Factor Heat Generator DHW Run 0%

Utilisation Factor Heat Generator DHW & Heating 0%

kWh/a kWh/(m²a)

Final Energy Demand Space Heating 0

Final Energy Demand DHW 0

Total Final Energy Demand 0 0.0Annual Primary Energy Demand 0 0.0

kg/a kg/(m²a)

0 0.0


:

QH+Q

HS:

ηSolar, H

QH,Wi

=QH*(1-η

Solar, H)

QH

QgDHW

ηSolar, DHW

QDHW,Wi

=QDHW

*(1-ηSolar, DHW

)

CO2-Emissions Factor (CO

2-Equivalent)

QUse

PBH

tHP

tDHW

Pnominal

η30%

η100%

qB,70

ϑ30%

ηGZ

ηSO

zHC,m

Ainstall

QN,GZ

QN,m

hH,g,K =fϕ*η

k''

hTW,g,K =η

100%/fϕ,TW

hg,K

QFinal, HE = Q

H,wi* e

H,g,K

QFinal, DHW = Q

WW,wi* e

TW,g,K

QFinal

= QFinal,DHW +

QFinal,HE


PHPP 2007, District Heat PHPP2007_Päikesepüüdja.ods

Passive House PlanningE F F I C I E N C Y O F D I S T R I C T H E A T I N G S T A T I O N S


Location: 150 m²


Annual Heat Demand kWh/a (DHW+Distribution) 2108 kWh

Solar Fraction for Space Heat (Separate Calculation)



DHW Demand (DHW+Distribution) 3972 kWh



Heat Source Gas CGS 70% PHC

Primary Energy Factor (Data worksheet) 0.7 kWh/kWh

(Data worksheet) -70 g/kWh

Utilisation Factor Heat Transfer Station

kWh/a kWh/(m²a)

Final Energy Demand Heat Generation 0 0.0

Annual Primary Energy Demand 0 0.0

kg/a kg/(m²a)

0 0.0


:

QH

ηSolar, H

QH,Wi=QH*(1-ηSolar, H)

QDHW

ηSolar, DHW

QDHW,Wi

=QDHW

*(1-ηSolar, DHW

)

CO2-Emissions factor (CO2-Equivalent)

ηa,HX

Qfinal = QUse* ea,DH


PHPP 2007, IHG PHPP2007_Päikesepüüdja.ods


I N T E R N A L H E A T G A I N S

Building:Päikesepüüdja

Utilisation Pattern:Dwelling x 2.10 W/m²

Type of Values Used: Standard x No Input Required 1.88 W/m²

Calculation Persons 4.3 P Annual Heat Demand14 kWh/(m²a)Internal Heat Household Living Area 150 m² Heating Period 205 d/a

Column Nr. 1 2 3 4 5 6 7 8 9 10

Application

Nor

m C

onsu

mpt

ion

Util

izat

ion

Fa

ctor

Fre

quen

cy

Use

ful E

nerg

y (k

Wh/

a)

Incl

ud

ed in

Ele

ctri

city

Ba

lanc

e?

Ava

ilabi

lity

Inte

rna

l He

at S

ourc

e (W

)

Dishwashing 1 1 0.5 kWh/Use 1.00 65 /(P*a) 139 * 0.30 / 8.76 = 5

Clothes Washing 1 1 0.7 kWh/Use 1.00 57 /(P*a) 171 * 0.30 / 8.76 = 6

Clothes Drying with: 1 1 3.5 kWh/Use 0.88 57 /(P*a) 0 * 1.00 / 8.76 = 0Clothesline 1 0.0 0 0.80Energy Consumed by Evaporation 1 1 -3.1 kWh/Use 0.60 57 /(P*a) -459 * (1- 0 ) * 1.00 / 8.76 = -52Refrigerating 0 1 0.3 kWh/d 1.00 365 d/a 0 * 1.00 / 8.76 = 0Freezing 0 1 0.3 kWh/d 1.00 365 d/a 0 * 1.00 / 8.76 = 0or Combination 1 1 0.6 kWh/d 1.00 365 d/a 223 * 1.00 / 8.76 = 25Cooking 1 1 0.3 kWh/Use 1.00 500 /(P*a) 536 * 0.50 / 8.76 = 31

Lighting 1 1 11.0 W 1.00 2.9 kh/(P*a) 137 * 1.00 / 8.76 = 16Consumer Electronics 1 1 200.0 W 1.00 0.55 kh/(P*a) 471 * 1.00 / 8.76 = 54Household Appliances/Other 1 1 50.0 kWh 1.00 1.0 /(P*a) 214 * 1.00 / 8.76 = 24Auxiliary Appliances (cf. Aux Electricity Sheet) = 101Other Applications (cf. Electricity Sheet) 0 0.0 0 * / 8.76 = 0Persons 4 1 80.0 W/P 1.00 8.76 kh/a 3003 * 0.55 / 8.76 = 189Cold Water 4 1 -5.0 W/P 1.00 8.76 kh/a = -21Evaporation 4 1 -25.0 W/P 1.00 8.76 kh/a -939 * 1.00 / 8.76 = -107

Total W 269

Specific Demand W/m² 1.80

Heat Available From Internal Sources 204.52 d/a kWh/(m²a) 8.8

Exi

stin

g (1

/0),

or

num

ber

of

pe

ople

In t

he T

herm

al E

nvel

ope

(1/0

)

Use

d D

urin

g T

ime

Pe

riod

(k

h/a

)

PHPP 2007, Climate Data PHPP2007_Päikesepüüdja.ods


C L I M A T E D A T A

Building: Päikesepüüdja

Standard/Regional Climate: Select here. Use Regional Data? Yes Transfer to Annual Method ###

Standard Climate Building Tallinn EMHI 205 d/a ###

Select Region Here Chosen Method for Annual Heat Demand:Monthly Method 100 kKh/a

Germany Monthly Data: Tallinn EMHI North 124 kWh/(m²a) ###

Annual Data: East 161 kWh/(m²a)

Use Annual Climate Data Set No South 301 kWh/(m²a)

Select regional climate here: Results: West 187 kWh/(m²a) HT

Annual Heat Demand 14.1 kWh/(m²a) Horizontal 248 kWh/(m²a) Gt

Heat Load 17.5 W/m²

Month 1 2 3 4 5 6 7 8 9 10 11 12 Heating Load Cooling LoadDays 31 28 31 30 31 30 31 31 30 31 30 31 Weather 1 Weather 2 Radiation

Tallinn EMHI Latitude: 59.0 Longitude ° East 25.0 Altitude m 20 5 Daily Temperature Swing Summer (K) 5.7 Radiation Data: kWh/(m²*month) Radiation: W/m² W/m²

Phase Shift Months Ambient Temp -3.7 -4.5 -1.2 3.9 9.9 14.4 16.7 15.9 10.8 6.2 1.2 -2.0 -17.2 -13.5 22.12.00 North 9 22 35 45 60 72 65 48 31 16 7 4 10 5 90

Damping East 11 27 58 70 97 106 103 81 51 24 10 -17 20 5 170-1.05 South 19 43 96 86 100 101 101 96 72 46 22 17 45 5 210

Depth m West 11 28 62 67 90 100 97 80 49 24 10 6 15 5 1603.32 Global 13 31 75 107 154 169 162 127 75 36 13 8 20 5 300

Shift of Average Temperature K Dew Point -4.7 -5.7 -3.6 0.0 4.3 9.5 12.3 11.9 7.8 4.0 -0.7 -3.81.60 Sky Temp -9.0 -8.6 -4.7 -1.2 4.6 8.8 11.5 11.2 8.1 2.9 -3.3 -6.8 11.4

Ground Temp 5.8 4.4 3.7 3.9 5.1 6.9 8.8 10.3 11.0 10.7 9.5 7.7 3.7 3.7 11.0

HT

Gt

Parameters for PHPP Calculated Ground Temperatures:

1 2 3 4 5 6 7 8 9 10 11 12

-50

0

50

100

150

200

-10

-5

0

5

10

15

20

North

East

South

West

Global

Ambient Temp

Month

kWh

/(m

²*m

onth

)

PHPP 2007, IHG Non-Dom PHPP2007_Päikesepüüdja.ods


I N T E R N A L H E A T G A I N S Non-domestic Use

Building: Päikesepüüdja Calculation in IHG worksheet.

Utilisation Pattern: 2.10 W/m²

Type of Values Used: No Input Required

Calculation Persons: 4.29 P Room Temperature: 20 °C

Internal Heat TF Area: 150 m² Heating Period: 204.52 d/a Internal Heat Gains Aux. Electricity: 101.3 W

Column Nr.

PersonsS

ele

ct

Util

isa

tion

Pa

ttern

Se

lect

Act

ivity

of P

ers

ons

Nu

mb

er o

f Occ

upa

nts

Re

lativ

e P

rese

nce

Use

d in

Tim

e S

pan

(h/

a)

27 9 18

Persons A 4 no valid input { }* or { * } * 0 * 0 * 1.00 / 8760 = 0

Persons B no valid input { }* or { * } * 0 * 0 * 1.00 / 8760 = 0

Persons C no valid input { }* or { * } * 0 * 0 * 1.00 / 8760 = 0

Persons D no valid input { }* or { * } * 0 * 0 * 1.00 / 8760 = 0

Persons E no valid input { }* or { * } * 0 * 0 * 1.00 / 8760 = 0

Persons F no valid input { }* or { * } * 0 * 0 * 1.00 / 8760 = 0

Persons G no valid input { }* or { * } * 0 * 0 * 1.00 / 8760 = 0

Evaporation (person specific) 0 * -15 * 0 * 1.00 / 8760 = 0

Ava

ilabi

lity

Lighting 0 * 1.00 / 8.76 = 0

0 * 1.00 / 8.76 = 0

0 * 0.50 / 8.76 = 0

0 * 0.30 / 8.76 = 0

0 * 1.00 / 8.76 = 0

0 * 1.00 / 8.76 = 0

Auxiliary Appliances (See Aux Electricity Worksheet) = 101

on/o

ff (1

/ 0

)

Loss

Day

time

[W]

Loss

Nig

htti

me

[W]

Ava

ilabi

lity

2 8

Cold Water Due to Flushing WC 1 1 2 2 2 -8 * ( 0 + -8 ) * 1.00 / 365 = 0

Total W 101

Specific Demand W/m² 0.7Heat Available From Internal Sources 205 d/a kWh/(m²a) 3

Planning with the number of persons or via floor area of utilisation zone

(planning via area only if the occupancy is available for this

utilisation pattern). Pers./Area (1 / 0)

Flo

or A

rea

of

Util

isat

ion

Z

one

(m

²)

Ave

rag

e O

ccup

ancy

(P

erso

ns /

m²)

He

at E

mitt

ed

per

Pe

rson

(W

)

Util

isa

tion

Ho

urs

per

Yea

r [h

/a]

Av

era

ge

Hea

t E

mit

ted

by

Pe

rso

ns

(W

)

Enter # of persons or floor area

no standard value


no standard value


no standard value


no standard value


no standard value


no standard value


no standard value

Lighting / Equipment / Aux. Electricity

Use

ful E

ner

gy

[kW

h/a]

Use

d in

Tim

e P

erio

d (

kh/a

)

Av

erag

e H

eat

R

ele

ase

Office Applications (Within Therm. Envelope)

Cooking (Within Therm. Envelope)

Dishwashing (Within Therm. Envelope)

Cooling (Within Therm. Envelope)

Other (Within Therm. Envelope)

Heat Loss Due to Cold Water (calculation from column AJ)

Predominant Utilisation Pattern of

Building (Data transfered from Electricity Non-Dom

worksheet; input kitchen)

Nu

mb

er o

f W

Cs

(use

r da

ta)

Num

ber

of W

Cs:

Use

st

anda

rd v

alu

e fo

r sc

hool

s (X

)

Num

ber

of W

Cs

(cal

cula

tion

valu

e)

∆T: C

old

Wat

er

Tem

p. -

Roo

m

Tem

p. [

K]

Occ

upie

d D

ays

per

Yea

r [d

/a]

Use

d in

Per

iod

(d/a

)

Av

era

ge

Po

we

r C

old

Wat

er

PHPP 2007, Use Non-Dom PHPP2007_Päikesepüüdja.ods


Building: Päikesepüüdja U T I L I S A T I O N Non-domestic Use

Latitude [°]: 59

2 3 4 5 6 7 8 9 10 11 15 16 17 18 20 27 Tag im Jahr

Util

isat

ion

Pat

tern

Per

iods

of U

tilis

atio

n an

d O

pera

tion

Beg

in U

tilis

atio

n [h

]

End

Util

isat

ion

[h]

Dai

ly U

tilis

atio

n H

ours

[h/d

]

Ann

ual U

tilis

atio

n D

ays

[d/a

]

Ann

ual U

tilis

atio

n H

ours

[h/a

]

Ann

ual U

tilis

atio

n H

ours

Du

ring

Day

time

[h/a

]

Ann

ual U

tilis

atio

n H

ours

Du

ring

Nig

httim

e [h

/a]

Illum

inat

ion

Leve

l [lu

x]

Hei

ght o

f Util

isat

ion

Leve

l (0.

8 or

0.0

m)

Hei

ght o

f Util

isat

ion

Leve

l (0.

8 or

0.0

m)

Rel

ativ

e A

bsen

teei

sm

Ave

rag

e O

ccup

ancy

[m²/

Per

s.]

Son

nend

eklin

atio

n

1 0 0 0 0 0.80 ###

2 0 0 0 0 0.80 ###

3 0 0 0 0 0.80 ###

4 0 0 0 0 0.80 ###

5 0 0 0 0 0.80 ###

6 0 0 0 0 0.80 ###

7 0 0 0 0 0.80 ###

8 0 0 0 0 0.80 ###

9 0 0 0 0 0.80 ###

10 0 0 0 0 0.80 ###

11 0 0 0 0 0.80 ###

12 0 0 0 0 0.80 ###

13 0 0 0 0 0.80 ###

14 0 0 0 0 0.80 ###

15 0 0 0 0 0.80 ###

16 0 0 0 0 0.80 ###

17 0 0 0 0 0.80 ###

18 0 0 0 0 0.80 ###

19 0 0 0 0 0.80 ###

20 0 0 0 0 0.80 ###

21 Single Office 7 18 11 250 2750 2543 207 500 0.80 0.80 0.30 0.70 10.0022 Group Office 7 18 11 250 2750 2543 207 500 0.80 0.80 0.30 0.7023 Open-Plan Office 7 18 11 250 2750 2543 207 500 0.80 0.80 0.00 1.00 15.0024 Meeting 7 18 11 250 2750 2543 207 500 0.80 0.80 0.50 1.00 2.0025 Counter Area 7 18 11 250 2750 2543 207 200 0.80 0.80 0.00 1.0026 Retail 8 20 12 300 3600 2999 601 300 0.80 0.80 0.00 1.00 7.0027 Classroom 8 15 7 200 1400 1398 2 300 0.80 0.80 0.25 0.90 2.0028 University Auditorium 8 18 10 150 1500 1409 91 500 0.80 0.80 0.25 0.70 0.7529 Bedroom 0 24 24 365 8760 4407 4353 300 0.80 0.80 0.00 0.5030 Hotel Room 21 8 11 365 4015 755 3260 200 0.80 0.80 0.25 0.3031 Canteen 8 15 7 250 1750 1748 2 200 0.80 0.80 0.00 1.0032 Restaurant 10 0 14 300 4200 2404 1796 200 0.80 0.80 0.00 1.00 1.5033 Kitchen Non-Residential 10 23 13 300 3900 2404 1496 500 0.80 0.80 0.00 1.0034 Kitchen, Storage, Preparation 7 23 16 300 3900 2404 1496 300 0.80 0.80 0.50 1.0035 WC, Sanitary 7 18 11 250 2750 2543 207 200 0.80 0.80 0.90 1.0036 Other Habitable Rooms 7 18 11 250 2750 2543 207 300 0.80 0.80 0.50 1.0037 Secondary Areas 7 18 11 250 2750 2543 207 100 0.80 0.80 0.90 1.0038 Circulation Area 7 18 11 250 2750 2543 207 100 0.00 0.00 0.80 1.0039 Storage, Services 7 18 11 250 2750 2543 207 100 0.80 0.80 0.98 1.0040 Server Room 0 24 24 365 8760 4407 4353 500 0.80 0.80 0.50 0.5041 Workshop 7 16 9 250 2250 2192 58 500 0.80 0.80 0.00 1.0042 Theater Auditorium 19 23 4 250 1001 55 946 200 0.80 0.80 0.00 1.0043 Theater Foyer 19 23 4 250 1001 55 946 300 0.80 0.80 0.50 1.0044 Theater Stage 13 23 10 250 2500 1253 1247 1000 0.80 0.80 0.00 0.6045 Fair, Congress 13 18 5 150 1350 1260 90 300 0.80 0.80 0.50 1.0046 Exhibition 10 18 8 250 2001 1850 151 200 0.80 0.80 0.00 1.0047 Library Reading Room 8 20 12 300 3600 2999 601 500 0.80 0.80 0.00 1.0048 Open Access Library 8 20 12 300 3600 2999 601 200 0.80 0.80 0.00 1.0049 Library Repository 8 20 12 300 3600 2999 601 100 0.80 0.80 0.90 1.0050 Gymnasium 8 23 15 300 4500 3002 1498 300 0.80 0.80 0.30 1.0051 Parking Garage 7 18 11 250 2750 2543 207 75 0.00 0.00 0.95 1.0052 Public Parking Garage 9 0 15 365 5475 3290 2185 75 0.00 0.00 0.80 1.00

Par

t Use

Fac

tor

of B

uild

ing

Ope

ratin

g P

erio

d fo

r Li

ghtin

g

PHPP 2007, Data PHPP2007_Päikesepüüdja.ods

Energy Type Energy Carrier

1 None Fuel Source 2 Oil 1.1 0.31

3 Natural Gas 1.1 0.254 LPG 1.1 0.275 Hard Coal 1.1 0.446 Wood 0.2 0.05

Electricity 7 Electricity-Mix 2.7 0.688 Electricity from Photovoltaics 0.7 0.25

1 None 0 0District Heat 2 Hard Coal CGS 70% PHC 0.8 0.24

3 Hard Coal CGS 35% PHC 1.1 0.324 Hard Coal HS 0% PHC 1.5 0.41

Gas CGS 5 Gas CGS 70% PHC 0.7 -0.076 Gas CGS 35% PHC 1.1 0.137 Gas HS 0% PHC 1.5 0.32

Heating Oil-EL CGS 8 Oil CGS 70% PHC 0.8 0.19 Oil CGS 35% PHC 1.1 0.2510 Oil HS 0% PHC 1.5 0.41

Data Source: DIN V 4701-10/GEMIS 4.14

Heat GeneratorNr. Type1 None2 Condensing Boiler Gas3 Condensing Boiler Oil4 Low Temperature Boiler Gas5 Low Temperature Boiler Oil

6

7

8

9 Other Biomass Heat Generator

Dishwashing Washing1 DHW Connection2 Cold Water Connection

Clothes Drying Availability Electricity

1 Clothesline 1 12 Drying Closet (cold!) 1 13 Drying Closet (cold!) in Exhaust Air 0.9 0.94 Condensation Dryer 0.7 05 Electric Exhaust Air Dryer 1 16 Gas Exhaust Air Dryer 1 1

Cooking Electric Fraction1 Electricity 100%

2 Gas 0%

Table of Primary Energy Factors and CO2-Equivalent Emissions Factors of Various Energy Carriers

PE (non-regenerative)

kWhPrim/kWhFinal

CO2 GEMIS 3.0

kg/kWhFinal

Wood Log Burning (Direct and Indirect Release of Heat)Wood Pellet Burning (Direct and Indirect Release of Heat)Wood Pellet Burning (Only Indirect Release of Heat)

Availability Evaporation

AbbreviationsBtu British Thermal Unit British thermal unit at 59 °F (US usage). Other Btu definitions may vary by 0.5 %in inchft foot International footton ton refrigerationgallon liquid gallon US gallon, different from UK gallon

m meterkWh kilowatt-hourJ Joulel liter

Rules of thumb Error1 Btu = 1 kWs 5.2%1 m² = 10 ft² 7.1%1 cm of insulation= R-1.5 h ft² F/Btu

15 kWh/m²a = 5000 Btu/ft² a 5.2%

Exact conversion factors

1 in = 0.03 m1 Btu = 1054.8 J1 gallon = 3.79 l1 °F = 1.8 °C

Definitions1 ft = 12 in1 ton = 12000 Btu/h1 therm = 100000 Btu

Derived conversion factors1 ft = 0.3 m1 Btu = 0 kWh

ConversionsTemperature

70 F = 21.11 °C5 °C = 41 F

Distance1 in = 0.03 m1 m = 39.37 in1 ft = 0.3 m1 m = 3.28 ft

Area1 ft² = 0.09 m²1 m² = 10.76 ft²

Volume1 gallon (US) = 3.79 l1 l = 0.26 gallon (US)1 ft³ = 0.03 m³1 m³ = 35.31 ft³

Energy1 Btu = 0 kWh1 kWh = 3412.96 Btu1 therm = 29.3 kWh1 kWh = 0.03 therm

Power1 Btu/h = 0 kW1 kW = 3412.96 Btu/h1 tons = 3.52 kW used for cooling capacity only1 kW = 0.28 tons

Specific Energy Consumption1 Btu/(ft²a) = 0 kWh/(m²a)

1 kWh/(m²a) = 317.07 Btu/(ft²a)

Specific Power1 Btu/h/ft² = 3.15 W/m²1 W/m² = 0.32 Btu/h/ft²

Volume flow1 CFM = 1.7 m³/h1 m³/h = 0.59 CFM

Thermal conductivity1 Btu in /(ft² h F)= 0.14 W/(mK)1 W/(mK) = 6.94 Btu in /(ft² h F)1 Btu/(ft h F) = 1.73 W/(mK)1 W/(mK) = 0.58 Btu in /(ft² h F)1 ft² h F / (Btu in)= 0.14 W/(mK)1 W/(mK) = 0.14 ft² h F / (Btu in)

U-values / R-values1 h ft² F/Btu = 5.68 W/(m²K) R -> U(SI)1 W/(m²K) = 5.68 h ft² F/Btu U(SI) -> R1 W/(m²K) = 0.18 Btu/(h ft² F) U1 Btu/(h ft² F) = 5.68 W/(m²K)

Efficiency1 Btu/h/W = 0.29 W/W seasonal energy efficiency ratio (SEER) of cooling units1 W/W = 3.41 Btu/h/W1 CFM/W = 0.59 Wh/m³ electric efficiency of ventilation systems

0.45 Wh/m³ = 1.31 CFM/W

R/in -> λλ -> R/in

Documents

Passive House Planning: Worksheet Directory