Passivhaus Kindergarten

PAS SIVHAUS KIN DERGAR TEN

Simpl e architecture for simpl e lives

Brento n Wieb e Ma s ters o f Arch itectu re, HS W is m a r 1

2

Mec kl e nburg- Vo rpo mmern

3

Ho henk irchen

B eck er wit z

4

Co ncepts S im p l ified s ha p es s u ch a s t he s qu a re, circl e a nd t ria ng l e p r e se nt th e o p p o rtu nit y fo r a v is u a l l y interes t ing a rchitectu re t hat i s c o m p a c t, energ y efficient , a s im p l e co ns t ru ct io n, a nd a n ov era l l fu n e x p e r i e n c e fo r chil dren.

T h e k inderg a rten a ct s as an isl and, sitting on a p l a y fu l s ea o f s a nd.

5

T he t wo sep arate axe s o rg a n izes th e circu l a tio n a s we l l a s funct i on; t h e vertica l a x is fo r egres s from t he ent ry to t he rea r a n d th e h o rizo nta l a x is a l on g t h e w ardrobe corrid o r wh ich s epa ra tes th e no r t h e r n ser vi ce rooms fro m th e a ctive spa ces.

6

G ro u n d Fl oor

10m

L o f t Fl oor 7

N

R ea rra ng i n g a cces s

an d

o ffers

a

town

ce nte r

th e

si te

p a r ki n g

more

li v e ly

and

a

b et ter con n e c ti o n to B eck er witz . A c i r c u l a r p o nd p rov i d e s a p l a c e fo r chil dre n to sw i m i n t he s u m m e r a n d i c e s k a te

in

th e

w i nte r . 8

B u ild in g Ma teria ls below t he l ine to b e re- u s ed in wire g a b io ns . N ew

b u ild in g

ma teria l s

wo o d -co mpo site

pa n el s

incl u de

b rick

on

u p p er

t he

on

t he

mass

l ower a nd

mass,

s hing l es

o n th e pitch ed ro oves, a p ro g res s io n fro m hea v y to l ig ht . 10

Assignment of different colors allows children to easily id entify th ems elves wit hin t heir s ep a ra te g ro u p s .

11

12

The

‘ tree

on

a xes ’

p rov ides

cl ea n

a ir,

na tu ra l

ligh tin g, intern a l o rienta t io n, a nd a friendl y g reet ing wh en s pa ce

enterin g is

t he

sh a d ed

b u il ding . in

t he

The

m u l t ifu nct io n

s u m m er

wit h

l o ca l

s tra wb erry b u s h e s , p l a nted o n ho rizo nta l l o u v ers .

13

14

15

R o pes ra ilin gs

and and

n ets

wit hin

g u a rds

t he

whil e

g ro u p

also

ro o m s

crea t ing

rep l a ce

a ddit io na l

‘ flo o r’ a rea a n d a feel ing o f o p ennes s a nd l ig ht nes s . Pa rtia lly-ex po sed t im b er crea tes wa rmt h wit hin t he s pa ce wh il e a lso a dding to t he p eda g o g ica l co ncep t .

16

A 6- week build in g erectio n d u ring t he s u m m er m o nt hs is p l a nned to m inim ize i mp ac t o n th e fu n ctio n in g kin d e rg a rten. P refa b rica t io n in t he p a rk ing l ot in fro nt of t he build in g will beg in mo nth s ea rl ier. After t he exis t ing b u il ding is dem ol is hed, screw pil es will be in s ta ll ed a s the fo u nda t io n. P refa b rica ted t im b er co ns t ru ct io n e l e me nts

will

th en

b egin

in sta l l a t io n.

The

ro u g h- in

co ns t ru ct io n,

incl u ding

syste ms a n d a co n crete flo o r to p p ing wit h ra dia nt hea t ing is to b e ins ta l l ed l a s t .

17

18

Office

Sleeping Rooms

Group Room 2

Sleeping Rooms

Group Room 3

Mechanical

Group Room 1

Kitchen

Light Well

Multifunctional Space

S u mmer Da y

S u m m er N ig ht

HRV

Winter Da y

W inter N ig ht

HRV

19

Section 1

Section 2

10m

N

Section 3

Systems Plan and Sections

Section 4 20

Wi nte r

S p rin g / Autu mn

Summer

0 9:00

21

1 3 :0 0 LUX

1 7:0 0

0

100

20 0

300

40 0

Lighting Pl ans

North

East

South

10m

West

22

The Passivhaus calcul ations effected the design of the building in a significant wa y. Initial calcul ations showed

a

high

frequency

addition

of

overhangs

of

reduced

overheating. cooling

loads

The but

increased heating loads. With the high number of active children, mechanical cooling was inevitabl e.

23

Passive House verification

or Drawing Passive House Photo verification

Building: Street: Postcode / City: Country: Building type: Climate: Building: Home owner / Client: Street: Street: Postcode / City: Postcode/City: Country: Architecture: Building type: Street: Climate: Postcode / City: Home owner / Client: Mechanical system: Street: Street: Postcode/City: Postcode / City: Architecture: Year of construction: Street: No. of dwelling units: Postcode / City: No. of occupants: Mechanical system: Spec. capacity: Street:

Landpiraten Kindergarten Ostseestraße 30 23968 Beckerwitz Germany Kindergarten Hamburg

Photo or Drawing

Landpiraten Kindergarten Ostseestraße 30 23968 Beckerwitz Germany Kindergarten Hamburg

2016 1 45,0

60

20,0 26,0 2,8 2,8

Interior temperature winter: Interior temperature summer: Internal heat sources winter: Wh/K per m² TFA

Ditto summer:

Altitude of building site (in [m] above sea level):

-

Altitude of building site (in [m] above sea level):

-

°C

Enclosed volume Ve m³:

°C

Mechanical cooling:

1515,0 x

°C

Enclosed volume Ve m³: Requirements

°C

1515,0 Fulfilled?*

Mechanical cooling: 15 kWh/(m²a)

x yes

10 W/m²

yes

15 kWh/(m²a)

yes

W/m² W/m²

Specific Postcodebuilding / City: demands with reference to the treated floor area Year of construction: No. of dwelling units:

Space heating

No. of occupants:

2016 1 45,0

20,0 26,0 Heating demand 9 kWh/(m2a) 2,8 Internal heat sources winter: 2 Heating load Wh/K per m² TFA Ditto8 summer: W/m 2,8 566,4 winter: m² Treated floor Interior area temperature Interior temperature summer:

Spec. capacity:

60

Space cooling

Overall specif. space cooling demand

Specific building demands with reference to the treated floor area

Space heating Primary energy

Cooling load Treated floor area Frequency of overheating (> 26 °C) Heating demand

Heating, cooling, auxiliary electricity,

dehumidification, DHW, lighting, electrical appliances Heating load

DHW, space heating and auxiliary electricity Space cooling Overall specif. space cooling demand Specific primary energy reduction through solar electricity Cooling load Airtightness Pressurization test result n50 Frequency of overheating (> 26 °C)

2 5

566,4

9 89 8 63

2 10

5 0,2

kWh/(m2a) W/m2 % kWh/(m2a) 2 kWh/(m a) W/m2 2 kWh/(m a) kWh/(m22a) kWh/(m a) W/m2 1/h %

m²

89

kWh/(m2a)

DHW, space heating and auxiliary electricity

63

kWh/(m2a)

Specific primary energy reduction through solar electricity

10

Primary energy Passive House?

Heating, cooling, auxiliary electricity,

dehumidification, DHW, lighting, electrical appliances

Airtightness Pressurization test result n50 We confirm that the values given herein have been determined following the PHPP methodology and based on the characteristic values of the building. The PHPP calculations are attached to this application. Passive House?

We confirm that the values given herein have been determined following the PHPP methodology and based on the characteristic values of the building. The PHPP calculations are attached to this application.

0,2

2

kWh/(m a) 1/h

W/m² W/m²

-

Requirements

15 kWh/(m²a) 120 kWh/(m²a) 10 W/m²

-

Fulfilled?*

yes yes yes yes yes -

15 kWh/(m²a) 0,6 1/h * empty field: data missing; '-': no requirement 120 kWh/(m²a)

yes

-

yes -

-

-

Surname:

0,6 1/h yes 8.5 PHPP Version * empty field: data missing; '-': no requirement Issued on:

Company:

yes Signature:

Name:

PHPP Version 8.5

Surname:

Issued on:

Company:

Signature:

Name:

24

Roof lights / Light domes: Short description (materials, manufacturer, product name, installation situation)

Passive House planning:

PROJECT OVERVIEW

Street: Postcode / City: Country: Building type: Climate: Region / Climate data set Climate: Degree days / Altitude

Landpiraten Kindergarten Ostseestraße 30 23968 Beckerwitz Germany Row house Germany

84

Nursery school | Daycare centre

Context of urban development

Suburban development

Building type / Construction

Passive House new building

Building category, in terms of energy

Passive House

Amount of dwelling units for residential use / non-residential use

Hamburg

11

m

Number of occupants standard / planned

P

Standard / Design occupancy rate

m²/P

W/(m²K)

m²

Specific demand

0,13

6 45 13

W/(m²K) W/(m²K)

0,00 0,76

Average U-value of exterior doors Temporary sun protection: Type / Add. reduction factor

82,91

P m²/P

A/V-ratio South / Envelope area use (Atotal/ATFA) West Window area / Window area percentage

Horizontal Specific solar aperture / Passive solar heating mode Building site area / /Built-up area Windows / Doors Shading systems Overview GrossPHPP, floor area GFA / Gross external volume GEV Windows/facades: U-value (average value) / Area Ventilation Floor space ratio / Amount of complete storeys Window/facade frames: U-value (average value) / Area Ventilation: Type of ventilation Glazing: U-value (average value) / Areas Calculated supply air demand / Supply air per person Ψ-Value glazing edge (avg) / Ψ-Value installation (avg) Calculated extract air demand / Amount extract air rooms

Home owner / Client Architect Building services PHPP / Energy balance Building physics Structural engineering

Overview Seite 5

Calculatedwindow supply air demand Supply air per /person Airtightness test frame: pressure at/ n permeability q50 Ψ-value Standard Glass edge Ψ-value Installation 50 / Air Calculated air demandtest / Amount extract air nrooms Net air flowextract for pressurization / Infiltration flow V,Rest Standard frame: Name, /certified? Design airwindow flow rate (maximum) Avg value in relation to maximum Ventilation unit: Description / Certified? Standard window frame: Short description of materials, manufacturer, product Average flow rate / Average air exchange name, installation situation Building description (max.5000 characters) Ventilation system: Effective heat recovery efficiency / Electrical efficiency Airtightness test pressure at n50 / Air permeability q50

Contractor / Tradesperson / Other (max. 5000 characters)

20 2,8

Interior temperatures winter / summer IHG winter / summer Type of certification Project certification / Certificate ID Certification body PHPP-version

°C W/m²

Passive House yes Passive House Institute Version 8.5

26 2,8

°C W/m²

PHI_02450348_249852

Characteristic value according to Passive House verification

566,37

Treated floor area ATFA / Exterior volume Ve

m²

Specific demand

9

Space heating demand Heating load residential

kWh/(m²a)

8

kWh/(m²a)

2

kWh/(m²a)

Frequency of overheating Overall specific space cooling demand Cooling load residential

% kWh/(m²a)

8

Cooling load non-residential

kWh/(m²a)

Airtightness pressure air exchange rate test n50

0,2

1/h

Total PE Value

89

kWh/(m²a)

Heating, cooling, DHW, auxiliary electricity, lighting, electrical appliances

63

Specific PE demand - Mechanical system / CO2-equivalent Heating, DHW, auxiliary electricity (no lighting and electrical appliances)

10

Solar power: Primary energy savings / CO2 emissions

m³

Requirement kWh/(m²a)

Heating load non-residential

1515

kWh/(m²a) kWh/(m²a)

15 10 -

15 -

0,6 120 16 2,8

W/(m²K) W/m² W/m² > 26 °C W/(m²K) W/m² W/m² 1/h W/(m²K)

kg/(m²a) kg/(m²a)

Net air flowsystem: for pressurization test / Infiltration flow nV,Rest Ventilation Description Standard curtain wall facade: U-value / Frame width (type of heat recovery, manufacturer, product name) Standard curtain facade: Facade area / Total area pct. Ventilation unit: wall Description / Certified? Vent. system: Installation site / Temp. of mech. Serv. room Standard curtain wall facade: Ψ-value glazing edge / Ψ-value installation Ventilation system: Effective heat recovery efficiency / Electrical efficiency Nominal width exterior or supply air / Exhaust or extract air ducts Standard curtain wall facade: Description / Certified? Conductance ambient or supply air ducts / Exhaust or extract air ducts Ventilation system: Description (type ofambient heat recovery, manufacturer, product or name) Length orwall supply air ducts Exhaust extract air ducts Standard curtain facade: Short/description (materials, manufacturer, product name, installation) Vent. system: Installation siterecovery / Temp. of mech. Serv. room SHX: efficiency / Effective heat efficiency

W/(m²K) W/(m²K) W/(m²K) % W/(m²K)

-

W/(m²K) mm W/(m²K) W/(mK) W/(m²K) W/(m²K) W/(m²K) W/(m²K) W/(m²K) W/(m²K) m² % %

Summer reduction factor % m² % % % m² % m²

0,76

0,59 Balanced Passive 0,70 1350 0,049 140 1350

Design air flow rate (maximum) / Avg value in relation to maximum Ventilation Standard window frame: U-value / Frame width Ventilation: Type of ventilation Average rateframe: / Average air exchange Standard flow window Window area / Area percentage

-

W/(m²K)

Reduction factor winter

79 1021 87 0,67 88 90 143 90 3,6%

Requirement

mm W/(m²K) W/(mK) W/(m²K)

Average U-value interior insulation to ground Standard exterior door: Short description Average U-value of thermal bridges ΔU (materials, manufacturer, product name, installation situation) Average U-value windows

Shading reduction factors: Orientation Building envelope and site North Building envelope area Atotal / Treated floor area ATFA East Dwelling units

W/(m²K)

Average U-value insulation to outside air Standard exterior interior door: Name / Certified?

Ventilation system eff. heatArea recovery Temporary sun protection: / Areaefficiency ratio

Timber construction

Dwelling units

Standard ext. door: Door U-value / Door U-value installed

Average U-value of external insulation to outside air Standard exterior door: Panel border Ψ-value / Installation Ψ-value Average U-value of external insulation to ground

completed

2016

Year of construction / Year of construction of existing building

m²

Standard exterior door: Door leaf thickness / Frame width

kKh/a

Building type / Building status

W/(m²K)

Average quality Standard building exterior door: Frame U-value / Door leaf U-value

Basic data Building, name of the object

Exterior door: U-value (average value) / Area

m² W/(m²K)

2 566 28 1,80 5

6 14,0% 93 11687

% m² % % % % kWh/a

m² PHPP_EN_V8.5_brent _3.xls m³ 142,96 m²

floors 36,78 W/(m²K) ventilation House with HR m² 106,18 W/(m²K) m² 30 m³/h m³/(P*h) 0,005 W/(mK) W/(mK) 4 m³/h pcs 77 m³/h % W/(m²K)

mm

Balanced Passive House ventilation with HR 1/h 1038 0,73 m³/h W/(m²K) % 1350 30 0,22 0,10 m³/h m³/(P*h) 1/h 1/h W/(mK) W/(mK) 140 4 480 0,01 m³/h pcs m³ 1/h 1350 77 m³/h % 1038 0,83 0,22 480

m³/h % 1/h m³ W/(m²K)

0,73 0,40 0,10 0,01

W/(m²K)

Inside the thermal envelope W/(mK) 0,83 % 100 mm 0,18 W/(mK) 1,00 m Inside 0,93 the thermal% envelope

Nominal width or supply air / Exhaust or extract HE defrosting /exterior Defrosting at/ag-value minimum temperature of air ducts Standard glazing: U-value Conductance ambient or supply air ducts / Exhaust or extract air ducts Standard Facade area / Area ratio Effective glazing: energy recovery efficiency vent. / Humidity recovery Length ambient or supply air ducts / Exhaust or extract air ducts Standard glazing: Description / Certified? SHX: efficiency / Effective heat recovery efficiency Ventilation system:Short Shortdescription description Standard glazing: (installation site, ducts, silencers, others) HE defrosting / Defrosting atproduct a minimum temperature (description, manufacturer, name, installation)of

100 yes 0,18 82,9 1,00

Effective energy recovery efficiency vent. / Humidity recovery Standard glazing 2: U-value / g-value Summer ventilation Standard glazing 2: Facade area / Area percentage

82,9

0,93

mm W/(m²K) W/(mK) W/(m²K) % m %

yes

Ventilation system: Short description Summer base ventilation: Ventilation type Standard glazing 2: Description (installation site, ducts, silencers,/ Certified? others)

1/h Wh/m³ 1/h 1/h mm %

0,40 125 0,25 1,00 0,30

125 -3,00 0,25 1,00 0,30

-3,00

°C W/(mK) Wh/m³ mm W/(mK) mm °C % mm °C W/(mK) % % mm % °C

% W/(m²K)

%

W/(m²K)

% 1/h

Standard glazing 2: Short description (description, manufacturer, product name, installation) Window ventilation air exchange Summer ventilation Night summer ventilation: Type of ventilation Summer base ventilation: type width Roof lights / Light domes: Ventilation U-value / Frame Night ventilation air exchange Window night ventilation, manual Roof lights / Light domes: Window area / Area section

0,36 W/(m²K) W/(m²K)

Roof lights / Light domes: Glazing U-value / g-value

W/(m²K)

Window ventilation air exchange Roof lights / Light domes: Ψ-value glass edge / Installation Ψ-value

W/(mK)

Summer ventilation: Short description Night summer ventilation: Type of ventilation Roof lights / Light profiles, domes: night Nameventilation / Certified? (window opening concepts, others) Night ventilation air exchange Window night ventilation, manual

0,00 0,36 0,00

Roof lights / Light domes: Short description (materials, manufacturer, product name, installation situation)

1/h 1/h mm 1/h 1/h % 1/h 1/h 1/h W/(mK) 1/h 1/h

Cooling PHPP, Overview

25

Overview Seite 1

PHPP_EN_V8.5_brent _3.xls

12,0

Summer ventilation: Short description Exterior door: U-value (average value)humidity / Area sources Max. indoor absolute humidity Internal (window opening profiles, night/ ventilation concepts, others) Standard ext. door: sensible Door U-value Mechanical cooling: / latent/ Door U-value installed Standard exterior door:Applied Frame U-value Door leaf U-value Mechanical cooling: cooling /units PHPP, Overview

1,6

Overview Seite 2

W/(m²K) g/kg W/(m²K) kWh/(m²a) W/(m²K)

2,0 0,0

m² g/(m²h) m² kWh/(m²a)

W/(m²K) PHPP_EN_V8.5_brent _3.xls

Summer ventilation: Short description (window opening profiles, night ventilation concepts, others)

Cooling

12,0

Max. indoor absolute humidity / Internal humidity sources

2,0

g/kg

1,6

Mechanical cooling: sensible / latent

g/(m²h)

0,0

kWh/(m²a)

Assembly Assembly no. no.

kWh/(m²a)

1 1

4,0 x

Recirculation cooling: cyclical operation / air volume

2,0

Additional dehumidification: energy efficiency ratio / waste heat into the room

x

0,0 kWh/(m²a) Mechanical cooling: Avg seasonal energy efficiency ratio / Electricity demand

1. Gypsum Gypsum 1. VB 2. 2. VB Insulation - Rock Wool 3. 3. Insulation - Rock Wool 4. Vacuum Vacuum Insulation Insulation 4. OSB 5. 5. OSB 6. MB, MB, AB AB 6. air gap 7. 7. air gap 8. Brick Brick facade facade 8.

m³/h

kWh/(m²a)

3,2

0,6

46,01 10,86

kWh/(m²a)

Overview Seite 6

kWh/(m²a) kWh/(m²a)

Heat pump:electricity Covered fraction of space heating / Household domestic hot water energy demand Dishwasher / Useful

100

%

2,6 0,0

Washing units // Energy demandfactor PE value machine energy carrier CO2-emission Clothes dryer unitfor/ Energy COP heat pump heatingdemand / Heat pump for DHW Refrigerator, Freezer or combination unit / Useful energy demand Final energy demand Cooking unit / Energy demand Compact unit: Short description Lighting (description, manufacturer, product name) Consumer electronics Compact unit: Covered fraction of space heating / Small appliances, etc. domestic hot water Other PE value energy carrier / CO2-emission factor Total heat household electricity COP pump for heating / Heat pump for DHW

kWh/kWh kWh/(m²a)

U T I L I S A T I O N non-residential

7

37828,21

13 13 2 2

Percentage Percentage of of sec. sec. 2 2

10

17

17

Toilet

7

17

7

17

Ecological aspects: rainwater utilization,7 etc. Entry 7

17 17 17

10 10 10 10 10 10 10 10

14

0

15

0

€

10

10

200

2000

1882

118

12

12

2000

1882

118

12

12

2000

1882

118

12

12

2000

1882

118

12

12

2000

1882

118

12

12

2000

1882

118

12

12

2000

1882

118

12

12

2000

1882

118

12

12

2000

1882

118

12

12

2000

1882

118

12

12

2000

1882

118

12

12

2000

1882

118

12

12

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0

200 200 200 200 200 200 200 200 200 200 200

250

7

% €/m³ 14

15

kWh/kWh Lighting

58

0

11

13

1542

Solarthermics: Short description 0 (description, manufacturer, product name, installation location) 0 20 Special features: first project in the country / First project used as 18

12

1600

19

7

11

200

Collector area / Specific collector area 0 16 Material products / Naturalfrom products Deviationused: from Regional north / Angle of inclination the horizontal 0 17 18

%

2

50,00 2 190 2

2 2 2

2

2

2

2 2

0

0

0

2

2750

2543

207

13

18

20

g/kWh

27

0,8

0,8

0,25

0,9

2,0

300

0,8

0,8

300

kWh/kWh 300 300 200

kWh/(m²a)200 100 300 200 200 200 200

0,8 0,8 0,8 0,8 0,8 0,8 0,8 0,8 0,8 0,8 0,8

Improved flat plate collector 0 2 2 0

17

300

kWh/(m²a)

%

16

Average occupancy [m²/Pers.]

17

17

10

m² °

0,8 0,8 0,8 0,8 0,8 0,8 0,8 0,8 0,8 0,8 0,8 0,8

Percentage Percentage of of sec. sec. 3 3

2,8% 2,8%

U-Value: U-Value:

%

0,25

%0,9

10,0

0,50

g/kWh 0,9

10,0

0,80

0,9

0,25 0,50 0,80 1,00 0,80 0,90 0,90 0,90 0,25

0,9

%0,9

0,9 1,0 0,9

cm cm

W/(m²K) W/(m²K)

interior interior R Rsisi :: exterior R Rse :: exterior se

λ λ [W/(mK)] [W/(mK)]

Area Area section section 2 2 (optional) (optional)

0,250 0,250 0,130 0,130 0,230 0,230 0,130 0,130

0,040 0,040 0,320 0,320

λ λ [W/(mK)] [W/(mK)] Area Area section section 3 3 (optional) (optional)

Vert. Beams Beams Vert.

λ λ [W/(mK)] [W/(mK)]

Thickness Thickness [mm] [mm]

2 2 7 7

1 1 19 19 350 350

0,120 0,120

19 19

Percentage Percentage of of sec. sec. 2 2

Percentage Percentage of of sec. sec. 3 3

3,2% 3,2%

U-Value: U-Value:

W/(m²K) W/(m²K)

0,118 0,118

Total Total

39,8 39,8

cm cm

W/(m²K) W/(m²K)

Interior insulation? insulation? Interior

no no

interior interior R Rsisi :: exterior R Rse :: exterior se

λ [W/(mK)] [W/(mK)] λ

0,250 0,250 0,040 0,040

0,230 0,230 0,130 0,130

0,040 0,040 0,320 0,320

Area section section 2 2 (optional) (optional) Area

λ [W/(mK)] [W/(mK)] Area Area section section 3 3 (optional) (optional) λ

Floor Floor Joists Joists

Percentage of of sec. sec. 1 1 Percentage 94% 94%

2 2 50 50 1 1

19 19 300 300 19 19

OF

Percentage of of sec. sec. 3 3 Percentage

6,2% 6,2%

BUILDING U-Value: U-Value:

0,122 0,122

Total Total

39,1 39,1

E LW/(m²K) EMENTS

cm cm

W/(m²K)

Interior insulation?

Concrete Floor

PHPP, U-Values U-Values PHPP, Heat transfer resistance [m²K/W]

Thickness [mm] [mm] Thickness

0,120 0,120

Percentage of of sec. sec. 2 2 Percentage

W/(m²K)

λ [W/(mK)] [W/(mK)] λ

Building assembly description

no

PHPP_EN_V8.5_brent _3.xls _3.xls PHPP_EN_V8.5_brent

interior Rsi : exterior Rse :

Area section 1

λ [W/(mK)]

1. Concrete 2. Insulation -Rigid 5,0

33,5 33,5

no no

U-value supplement

4

Total Total

19 19 120 120

Interior insulation? insulation? Interior

U - V AW/(m²K) LUES U-value supplement

Passive House planning:

10,0

0,9 0,9

8. 8.

Assembly no.

0,141 0,141

Normal Roof Roof Normal

Area section section 1 1 Area

15 15 1 1

140 140 25 25

Building assembly assembly description description Building

MB, AB 1. 1. MB, AB Insulation -Rigid 2. 2. Insulation -Rigid Roofing Membrane Membrane 3. Roofing 3. OSB 4. 4. OSB 5. Insulation Insulation - Loose Loose Fill Fill 5. Gypsum 6. Gypsum 6. 7. 7.

Thickness Thickness [mm] [mm]

0,120 0,120

W/(m²K) W/(m²K)

Heat transfer transfer resistance resistance [m²K/W] [m²K/W] Heat

Part use factor of building operating period for lighting

10

7

21 Single office

kWh/a % kWh/a g/kWh kWh/a

Relative absenteeism

17

Mechanical Room

Compact unit: Short description Additional Room 7 (description, manufacturer, product name)

Collector

3 3

Height of utilisation level (0.8 or 0.0 m)

7

Sleeping Loft

Assembly no. no. Assembly

kWh/a

Height of utilisation level (0.8 or 0.0 m)

Sanitary Room

Heat source / Performance of heat generator Waiting Lounge 7

13

kWh/a

λ λ [W/(mK)] [W/(mK)]

0,250 0,250

U-value supplement supplement U-value

kWh/a

Illumination level [lux]

7

9

Daily operating hours of ventilation

Kitchen

8

Daily operating hours of heating

End utilisation [h]

Begin utilisation [h]

Periods of utilisation and operation

Utilisation pattern

District heating: Covered fraction of 9space heating /8 Group Room 17 Domestic hot water 10 Office 7 17 2 Explanation funds Space 10 Multipurpose 7 17 3PE value energy carrier / CO2-emission factor 1

Vestibule Solarthermics

Wood Stud Stud Wood

Percentage Percentage of of sec. sec. 1 1 97% 97%

kWh/a

% €/m² 7

Annual utilisation hours during nighttime [h/a]

6

Annual utilisation hours during daytime [h/a]

5

Annual utilisation hours [h/a]

4

Boiler: Short description Funds (Passivhaus, refurbishment, etc.) (description, manufacturer, product name)

12

7. 7. 8. 8.

kWh/a

€

Annual utilisation days [d/a]

3

Heat generator: building type / COP Explanation building costs Final energy demand

11

0,040 0,040 0,007 0,007 0,130 0,130

λ λ [W/(mK)] [W/(mK)] Area Area section section 3 3 (optional) (optional)

Triangle Roof Roof Triangle

Area Area section section 1 1

kWh/a g/kWh

€

Daily utilisation hours [h/d]

2

PE value energy carrier / CO2-emission factor

10

Area Area section section 2 2 (optional) (optional)

0,320 0,320 0,220 0,220

Building assembly assembly description description Building

1. MB, MB, AB AB 1. OSB 2. 2. OSB Roofing Paper 3. 3. Roofing Paper 4. OSB OSB 4. Insulation - Loose Fill 5. 5. Insulation - Loose Fill 6. Gypsum Gypsum 6.

% kWh/a

7830 1980 2250

%

Compact unit: Short description Total gross construction costs / contained VAT (description, manufacturer, product name) Building: Landpiraten Kindergarten Building costs (cost group 300+400) / (cost group 200-700) Boiler: Covered fraction of space heating / [°]: 54 Total grosshot construction costs per m² GFA / per m³ GEV domestic water Latitude

9

interior interior R Rsisi :: exterior R Rse :: exterior se

λ λ [W/(mK)] [W/(mK)]

Heat transfer transfer resistance resistance [m²K/W] [m²K/W] Heat

kWh/a

100 3218 8465 680 7855 0,0 606 5625

kWh/(m²a)

66,79

2 2

kWh/(m²a)

Passive House planning:

8

2970,41

kWh/kWh

18,9

Assembly no. no. Assembly

g/kWh 2683 kWh/a 158 kWh/a 35 kWh/a PHPP_EN_V8.5_brent _3.xls 95 kWh/a

kWh/kWh

5,24

Final energy demand Wardrobe Hall 7Other

kWh/a %

Direct electricity: Short description (description, manufacturer, product name) Total aux. Electricity

6

no no

kWh/a

%

DHW-system units / Electricity demand Final energy demand PHPP, Overview Aux. electricity solar devices / Electr. demand

Final energy demand Economic data

26061 6149

kWh/(m²a)

Direct electricity: Contribution to space heating / Aux. electricity / Household electricity Domestic hot water Aux electricity PE value energy / CO2-emission factor Ventilation units / carrier Electricity demand Direct electric heating / Domestic hot water Heating system Devices / Electricity demand

5

Interior Interior insulation? insulation?

U-value supplement supplement U-value

Mechanical cooling: Short description DHW demand (unit, manufacturer, product name, installation site, installation) Annual heating demand

Wedge-shaped building building assemblies assemblies (tapered (tapered insulation), insulation), Wedge-shaped unventilated unventilated air air layers layers and and unheated unheated attics attics ---> Auxiliary Auxiliary calculation calculation to to the the right right --->

Percentage Percentage of of sec. sec. 1 1 97% 97%

kWh/(m²a)

Heating and DHW

ELEMENTS

Exterior Wall Wall Exterior

Area Area section section 1 1

3,2 500

kW

BUILDING

Building assembly assembly description description Building

Heat transfer transfer resistance resistance [m²K/W] [m²K/W] Heat

kW Recirculation cooling: max. cooling capacity / energy efficiency ratio

OF

Landpiraten Kindergarten Kindergarten Building: Building: Landpiraten

Mechanical cooling: Applied cooling units

4

U-VALUES

Passive House House planning: planning: Passive

2,100

Area section 2 (optional)

λ [W/(mK)]

Area section 3 (optional)

λ [W/(mK)]

Thickness [mm]

50

0,040

270

3. 4. 5.

0,9

6.

0,7

7. 8.

0,8

1,11 0,8 30 0,8

Percentage of sec. 1

m²/P °

Percentage of sec. 2

Percentage of sec. 3

100%

0,8

U-value supplement

0,8

W/(m²K)

U-Value:

0,148

Total

32,0

cm

W/(m²K)

0,8 500

0,8

0,8

0,30

0,70

10,00

Assembly no.

Building assembly description

Interior insulation?

26

A P B

0,00 0,00 0,00

m m m

Units in m Units in m; temperature zone "P" is perimeter (see Ground worksheet) Units in m

18

Partition wall to neighbour

I

0,00

m²

No heat losses, only considered for the heating load calculation

1020,76 Assigned to group

m²

a [m]

b [m]

x

+

User determined [m²]

-

Thermal bridges Ambient Perimeter thermal bridges Thermal bridges FS/BC Sort: BY ID Partition wall to neighbour User subtraction [m²]

-

Subtraction window areas [m²]

Group Room 1

Group Room PHPP, 2 Areas Group Room 3 Office

27

15%

1

Group Room

300

170

South

69%

1

6,0

7,0

3,5

3,5

7,0

15%

1

Group Room

300

170

South

69%

1

6,0

7,0

3,5

3,5

7,0

Group Room

300

170

South

69%

1

6,0

7,0

3,5

3,5

7,0

Office

300

170

South

69%

1

6,0

6,0

2,7

2,7

7,0

15% 5%

1 2

69% 69%

Contradiction: Check width and height inputs Contradiction: Check width and height inputs Contradiction: Check width and height inputs Contradiction: Check width and height inputs

Daylight utilisation

Input warning

Window width

Lintel height

Room height

Room width

Room depth

Existing window (1/0)

Light transmission glazing

Orientation

Deviation from North

Nominal illuminance level

Room category

Room category

Percentage of treated floor area

1 566,37 Treated floor area 1 Treated floor area x( x + Area input North windows 2 North windows East windows 3 East windows User subSubtraction South windows 4 South windows worksheet only!- window Quan- Pleasea complete bin Windows User deterBuilding assembly description Assigned to group traction areas Area Nr. Group Nr. x( x + West windows 5 West windows tity mined [m²] [m] [m] [m²] [m²] Horizontal windows 6 Horizontal windows 1 566,37 Exterior floor door area 7 Exterior floor door area )Treated 1 Treated x( x + Exterior wall south 8 1 157,42 78,0 North windows 2 North windows 1 Exterior wall - Ambient x( x + )East windows 3 East windows Exterior wall north 8 1 157,42 28,9 2 Exterior wall - Ambient x( x + )South windows 4 South windows Exterior wall west 8 1 48,82 6,8 Please complete in Windows worksheet only! 3 Exterior wall - Ambient x( x + )West windows 5 West windows Exterior wall east 8 1 48,82 10,6 4 Exterior wall - Ambient x( x + )Horizontal windows East Facing 6 Horizontal windows Roof - Pitched 10 1 112,50 0,0 5 Roof/Ceiling - Ambient x( x + )Exterior door 7 Exterior door x( x + )Roof - Pitched West Facing 10 1 112,50 0,0 6 Roof/Ceiling - Ambient x( x + )Exterior wall south 8 1 157,42 78,0 1 Exterior wall - Ambient x( x + )Roof - Flat 10 1 383,28 18,6 7 Roof/Ceiling - Ambient x( x + )Exterior wall north 8 1 157,42 28,9 2 Exterior wall - Ambient x( x + )0,0 8 x( x + )Exterior wall west 8 1 48,82 6,8 3 Exterior wall - Ambient x( x + )Passive House planning: 0,0 9 x( x + )E L E C T R I C I T Y D E M A N D non-residential use Exterior wall east 8 1 48,82 10,6 4 Exterior wall - Ambient x( x + )0,0 10 x( x + )Roof - Pitched East Facing 10 1 112,50 0,0 5 Roof/Ceiling - Ambient x( x + )Building: Landpiraten Kindergarten 0,0 11 x( x + )Roof - Pitched West Facing 10 1 112,50 0,0 6 Roof/Ceiling - Ambient x( x + )0,0 12 x( x + )Roof - Flat 10 1 383,28 18,6 7 Roof/Ceiling - Ambient x( x + )0,0 13 x ( x + ) 566,4 m² Window properties (from Windows worksheet): Treated floor area ATFA: 0,0 8 x( x + )0,0 14 x( x + )0,0 9 x( x + )Non15 x( x + ) - Glazing 0,0 2970,4 Shading Dirt factor perpendicular Auxiliary electricity demand: kWh/a fraction 0,0 10 x( x + radiation ) 0,0 16 x( x + )0,0 11 x( x + )17 x( x + North 0,79 0,95 0,85 ) - 0,57 0,0 Primary Energy factors: 0,0 12 x( x + )2,6 kWh/kWh Electricity: 18 x( x + East 0,87 ) - 0,70 0,0 0,0 13 x( x + )1,1 kWh/kWh Natural gas: 19 x( x + South 0,88 ) - 0,82 0,0 kWh/kWh 1,1 Energy carrier for DHW: 14 x( x + West 0,90 ) - 0,78 0,0 0,0 20 x ( x + ) 0% Solar fraction of DHW 0,0 15 x( x + )0,0 21 Marginal performance ratio DHW: x( x + )0,0 16 x( x + )0,0 22 x( x + )0,0 17 x( x + )0,0 23 x( x + )0,0 Room 18 x( x geometry: Input of +a typical room or )0,0 24 x( x + )Facade with windows room by room 0,0 19 x( x + )0,0 25 x( x + )0,0 20 x( x + )0,0 26 x( x + )0,0 21 x( x + )0,0 27 x( x + )0,0 22 x( x + )0,0 28 x ( x + ) Lighting / non-residential 0,0 23 x( x + )0,0 29 x( x + )0,0 24 x( x + )0,0 30 x( x + )0,0 25 x( x + )0,0 31 x( x + )0,0 26 x( x + )Lux Degrees mx m m m 0,0 32 Room / Zone x( + m )0,0 27 x( x + )2 15 0,0 33 x( x + )0,0 28 x( x + ) Contradiction: Check width 34 ) - and height 0,0 100 80 East 69% x (1 4,0x 3,0 2,7 + 2,5 5,0 good Tech Room 2% 8 Mechanical Room inputs 0,0 29 x( x + )Contradiction: Check width and height 200 350 North 69% 1 3,0 25,0 2,7 3,5 30,0 good Wardrobe Hall 10% 7 Wardrobe Hall 0,0 30 x( x + )inputs Contradiction: Check width and height 0,0 100 350 North 69% x (1 3,0x 7,0 2,7 + 2,7 7,0 medium Storage 6% 39 Storage, Services 31 Rooms ) inputs PHPP, Areas 0,0 32 )300 350 North 69% x (1 3,0x 5,0 2,7 + 2,5 4,0 medium Additional Room 3% 9 Additional Room 33 x ( x + ) Contradiction: Check width and height 0,0 300 170 South 69% 1 12,5 12,5 2,7 2,7 12,0 none Multipurpose Spaces 25% 3 Multipurpose Space inputs 0,0 34 x( x + )Contradiction: Check width and height 200 350 North 69% 1 3,0 12,0 2,7 2,7 12,0 medium Toilet Rooms 4% 10 Toilet inputs medium medium medium good

)= )=

)= )== = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = W/m² = = = = 5= = 2= 4= 4= = 8 = 7

Area [m²]

Selection of building element Average therm. envelope assembly / certified building system

566,4 28,9 10,6 78,0 Area 6,8 [m²] 18,6 566,4 28,9 79,4 10,6 128,5 78,0 42,0 6,8 38,2 18,6 112,5 112,5 79,4 364,7 128,5 42,0 38,2 112,5 112,5 364,7

Sort: BY ID From 'Windows' worksheet From 'Windows' worksheet Selection of building element From 'Windows' worksheet assembly / From 'Windows' worksheet certified building system From 'Windows' worksheet U-value exterior door: FromExterior 'Windows' 01ud Wall worksheet FromExterior 'Windows' 01ud Wall worksheet FromExterior 'Windows' 01ud Wall worksheet FromExterior 'Windows' 01ud Wall worksheet From 'Windows' worksheet 02ud Triangle Roof U-value exterior door: 02ud Triangle Roof 01ud Exterior Wall 03ud Normal Roof 01ud Exterior Wall 01ud Exterior Wall 01ud Exterior Wall 02ud Triangle Roof 02ud Triangle Roof 03ud Normal Roof

5,0 2,0 4,0 4,0 8,0 7,0 10,0

10

10,0

10

417

743

671

1683

Ψ [W/(mK)] 0,216 Go to building components list

0,216 U-Value [W/(m²K)] 0,796 0,770 0,743 U-Value 0,751 [W/(m²K)] 0,772 0,796 0,141 0,770 0,141 0,743 0,141 0,751 0,141 0,772 0,118 0,118 0,141 0,122 0,141 0,141 0,141 0,118 0,118 0,122

10,0 10,0

none

0,0

none

0,0

h/a

1 1 1 1 1 1 1 1 1 1 1 1

0 0 0 0 0 0 0 0 0 0 0 0

Manual Manual Manual Manual Manual Manual Manual Manual Manual Manual Manual Manual

Angle of inclination from the horizontal

Orientation

Reduction factor shading

Exterior absorptivity

Exterior emissivity

Deviation from North

Angle of inclination from the horizontal

Orientation

Reduction factor shading

Exterior absorptivity

Exterior emissivity

170 350 260 80 80 260 170 350 350 260 80 80 260 350

90 90 90 90 60 60 90 0 90 90 90 60 60 0

South North West East East West South Hor North West East East West Hor

1,00 1,00 1,00 0,90 1,00 1,00 1,00 1,00 1,00 1,00 0,90 1,00 1,00 1,00

0,95 0,95 0,95 0,95 0,80 0,80 0,95 0,80 0,95 0,95 0,95 0,80 0,80 0,80

0,90 0,90 0,90 0,90 0,90 0,90 0,90 0,90 0,90 0,90 0,90 0,90 0,90 0,90

Deviation from North

Go to building components list

W/m²

10 10

0,141 Ψ [W/(mK)] 0,120

Partition wall to neighbour

Area input

Quanx( tity

8 months 743 43 474 1683 798 75 4280

Without motion Without motion Without motion Without motion Without motion Without motion Without motion Without motion Without motion Without motion Without motion Without motion

2000

Primary energy demand (kWh/a)

Thermal bridges Ambient Perimeter thermal bridges Thermal bridges FS/BC

Group Nr.

75%

Thermal - Overview Average bridges therm. envelope

15 16 17

Total thermal envelope Building assembly description Area Nr.

Factor for X

9 months 417 1158 872 671 11528 738 2427

Spec. electricity demand (kWh/(m²a))

m²

75%

0,141 0,796 0,770 0,120 0,743 0,751 0,772

Electricity demand (kWh/a)

1020,76

Factor for X

Horizontal windows Exterior door Exterior wall - Ambient North windows Exterior wall - Ground East windows Roof/Ceiling - Ambient South windows Floor slab / Basement ceiling West windows Horizontal windows Exterior door Exterior wall - Ambient Exterior - Ground Thermal wall bridges - Overview Roof/Ceiling - Ambient Thermal bridges Ambient Floor slab / Basement ceiling Perimeter thermal bridges Thermal bridges FS/BC

8 months 43 474 798 Radiation-load cooling 75period [kWh/a] 4280

Full load hours of lighting

0,00 566,37 288,12 28,89 0,00 10,63 589,68 78,01 0,00 6,82 0,00 18,60 0,00 0,00 288,12 0,00 589,68 0,00 0,00 0,00 0,00 0,00 0,00

North windows East windows South windows Building assembly overview West windows

Radiation-load cooling period [kWh/a]

User determined: Lighting full load hours

m² Treated floor area 9 according to PHPP manual kWh/(m²a) Heating demand m² m² Results come from the 'Windows' worksheet. m² Summary Window areas are subtracted from individual opaque areas. m² which is displayed in the "Windows" worksheet. Comment Unit m² m² Please area of door to from respective Treatedsubtract floor area according PHPP manualbuilding assembly m² Temperature zone "A" is ambient air m² Temperature zone "B" is the ground Results come from the 'Windows' worksheet. m² Window areas are subtracted from individual opaque areas. m² which is displayed in the "Windows" worksheet. m² Temperature zones "A", "B","P" and "X" may be used. NOT "I" m² Temperature zones "B","P" and "X" may be used.assembly NOT "I" Please subtract area"A", of door from respective building m² Temperature zone "X": provide "A" isPlease ambient air user-defined reduction factor ( 0 < ft < 1): m² Temperature zone "B" is the ground m² m Units in m m² m Temperature Units in m; temperature "P"and is perimeter (see Ground m² zones "A", zone "B","P" "X" may be used. NOTworksheet) "I" m Temperature Units in m zones "A", "B","P" and "X" may be used. NOT "I" m² m² Temperature zone "X": Please provide factor ( 0 < ft < 1): No heat losses, only considered for theuser-defined heating loadreduction calculation

0,00

Total thermal envelope

Comment

Unit

RadiationAverage U-Value gains heating season [W/(m²K)] [kWh/a] 9 months 0,796 1158 0,770 872 Radiation0,743 11528 Average U-Value gains heating 0,751 738 [W/(m²K)] season 0,772 2427 [kWh/a]

Utilisation hours per year [h/a]

XI

Partition wall to neighbour

Area

566,37 28,89 10,63 78,01 6,82 Area 18,60

Building assembly overview

Lighting control

A A A A Temp.A zone A A B A A B A A A X A B A A B P B

D E T E R M ISummary NATION

Motion detector with/without (1/0)

zone

kWh/(m²a)

Lighting control

14 18

Area group Treated floor area Kindergarten Landpiraten North windows East windows South windows West windows Area group Horizontal windows Exterior door area Treated floor Exterior wall - Ambient North windows Exterior wall - Ground East windows Roof/Ceiling - Ambient South windows Floor slab / Basement ceiling West windows Horizontal windows Exterior door Exterior wall - Ambient Exterior wall - Ground Roof/Ceiling - Ambient Thermal bridges Ambient Floor slab / Basement ceiling Perimeter thermal bridges Thermal bridges FS/BC

9

User data: Installed lighting power

ATemp.REAS

Passive House planning: Group Nr. 1 Building: 2 3 4 5 Group 6 Nr. 7 1 8 2 9 3 10 4 11 5 6 12 13 7 14 8 9 10 15 11 16 12 17 13

Heating demand

Installed lighting power (standard)

Building: Landpiraten Kindergarten

h/a

h/a

kWh/a

kWh/(m²a)

kWh/a

9

801,0

45,4

4,0

118,0

2000

873,0

98,9

1,7

257,1

2750

1300,0

176,7

5,2

459,4

2000

891,0

60,6

3,6

157,4

1000,0

1132,7

8,0

2945,1

960,0

152,2

6,7

395,8

1600

1044,8

887,6

10,4

2307,7

1600

1044,8

887,6

10,4

2307,7

1600

1044,8

887,6

10,4

2307,7

2000

1314,8

372,3

13,1

968,0

2000 2000

1000

0,0 0,0

PHPP_EN_V8.5_brent _3.xls

PHPP_EN_V8.5_brent _3.xls

REDUCTION

Passive House planning:

FACTOR

SOLAR

RADIATION,

Building: Landpiraten Kindergarten Climate:

Hamburg

Window area orientation

Global radiation (cardinal points)

maximum:

kWh/(m²a)

North East South West Horizontal

142 235 368 232 339

Shading

Dirt

Non-perpendicular incident radiation

0,75

0,95 0,95

0,85 0,85

0,95

0,85

0,95

0,85

0,95

0,85

0,95

0,85

0,79 0,87 0,88 0,90 0,90

If there are diagonal windows in the project please adapt the Ug value manually!

1 1 2 3 2 1 3 1 1 1 1 2 3 2 1 1 1 4 1

Deviation from north Degrees

WIN1 WIN2 WIN3 WIN4 WIN5 WIN6 WIN7 WIN8 WIN9 WIN10 WIN11 WIN12 WIN13 WIN14 WIN15 WIN16 WIN17 WIN18 WIN19

350 350 350 350 350 350 350 80 80 80 170 170 170 170 170 260 350 350 350

Angle of inclination from Orien- tation the horizontal Degrees

90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 0 0 90

Average global radiation

Transmission losses

Heat gains solar radiation

m2

kWh/(m2a)

kWh/a

kWh/a

9077

11687

g-Value

Solar irradiation reduction factor

Window area

Window U-Value

0,50 0,50 0,50 0,50 0,50

0,36 0,49 0,58 0,57 0,50

m2

W/(m²K)

0,568 0,696 0,825 0,784 0,683

28,89 10,63 78,01 6,82 18,60

0,80 0,77 0,74 0,75 0,77

16,40 7,39 64,35 5,35 12,69

142,96

0,76

106,18

0,50

Width

Height

m

m

1,900 1,200 2,000 3,500 2,750 1,690 1,230 1,220 3,100 3,100 3,300 0,720 3,140 0,870 7,700 3,100 3,000 3,000 2,000

North North North North North North North East East East South South South South South West Horizontal Horizontal North

Glazing area

Glazing fraction

Window rough openings

CALCULATING

Passive House planning:

Heating degree hours:

kWh/(m²a)

83,6

0,52 Go to glazing list

Description

U-VALUE

9

Annual heating demand:

Total or average value for all windows.

Quantity

WINDOW

0,600 0,600 0,600 0,600 0,600 1,500 2,140 1,600 0,600 2,200 2,000 1,500 5,440 1,500 2,000 2,200 3,000 0,800 2,300

SHADING

142 216 366 253 339

1922 684 4843 428 1200

749 561 8322 493 1561

Go to window frames list

Installed in

Glazing

Frame

Selection from 'Areas' worksheet

Selection from 'Components' worksheet

Selection from 'Components' worksheet

2-Exterior wall north

Sort: AS LIST 01ud Triple-low-e Kr08

Sort: AS LIST 01ud Standard PU on wood

2-Exterior wall north

01ud Triple-low-e Kr08

01ud Standard PU on wood

2-Exterior wall north

01ud Triple-low-e Kr08

01ud Standard PU on wood

2-Exterior wall north

01ud Triple-low-e Kr08

01ud Standard PU on wood

2-Exterior wall north

01ud Triple-low-e Kr08

01ud Standard PU on wood

2-Exterior wall north

01ud Triple-low-e Kr08

01ud Standard PU on wood

2-Exterior wall north

01ud Triple-low-e Kr08

01ud Standard PU on wood

4-Exterior wall east

01ud Triple-low-e Kr08

01ud Standard PU on wood

4-Exterior wall east

01ud Triple-low-e Kr08

01ud Standard PU on wood

4-Exterior wall east

01ud Triple-low-e Kr08

01ud Standard PU on wood

1-Exterior wall south

01ud Triple-low-e Kr08

01ud Standard PU on wood

1-Exterior wall south

01ud Triple-low-e Kr08

01ud Standard PU on wood

1-Exterior wall south

01ud Triple-low-e Kr08

01ud Standard PU on wood

1-Exterior wall south

01ud Triple-low-e Kr08

01ud Standard PU on wood

1-Exterior wall south

01ud Triple-low-e Kr08

01ud Standard PU on wood

3-Exterior wall west

01ud Triple-low-e Kr08

01ud Standard PU on wood

7-Roof - Flat

01ud Triple-low-e Kr08

01ud Standard PU on wood

7-Roof - Flat

01ud Triple-low-e Kr08

01ud Standard PU on wood

2-Exterior wall north

01ud Triple-low-e Kr08

01ud Standard PU on wood

g-Value Perpendicular radiation -

0,50 0,50 0,50 0,50 0,50 0,50 0,50 0,50 0,50 0,50 0,50 0,50 0,50 0,50 0,50 0,50 0,50 0,50 0,50

U-Value

Installation situation

Ψ

Glazing

Frames (avg.)

ΨGlazing edge (avg.)

W/(m2K)

W/(m2K)

W/(mK)

0,70 0,70 0,70 0,70 0,70 0,70 0,70 0,70 0,70 0,70 0,70 0,70 0,70 0,70 0,70 0,70 0,70 0,70 0,70

0,59 0,59 0,59 0,59 0,59 0,59 0,59 0,59 0,59 0,59 0,59 0,59 0,59 0,59 0,59 0,59 0,59 0,59 0,59

Results

user-defined value for Ψinstallation or

Glazing edge

U- and Ψ-values from 'Components' worksheet can be shown through clicking the '+' sign on the top edge of the sheet.

'1': Ψinstallation from 'Components' worksheet '0': in the case of abutting windows

left

0,049 0,049 0,049 0,049 0,049 0,049 0,049 0,049 0,049 0,049 0,049 0,049 0,049 0,049 0,049 0,049 0,049 0,049 0,049

right

bottom

W/(mK) or 1/0

1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

ΨInstallation (avg.)

top

1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

W/(mK)

1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

0,005 0,005 0,005 0,005 0,005 0,005 0,005 0,005 0,005 0,005 0,005 0,005 0,005 0,005 0,005 0,005 0,005 0,005 0,005

Window Area Glazing Area m2

1,1 0,7 2,4 6,3 3,3 2,5 7,9 2,0 1,9 6,8 6,6 2,2 51,2 2,6 15,4 6,8 9,0 9,6 4,6

m2

0,47 0,27 1,00 2,81 1,44 1,69 5,27 1,23 0,82 5,35 5,12 1,07 44,17 1,43 12,56 5,35 7,34 5,35 3,44

U-Value Window W/(m2K)

0,82 0,82 0,82 0,82 0,82 0,78 0,78 0,79 0,82 0,75 0,75 0,81 0,74 0,80 0,74 0,75 0,75 0,80 0,76

Glazed fraction per window %

Transmissionlosses kWh/a

41% 37% 42% 45% 44% 67% 67% 63% 44% 78% 78% 50% 86% 55% 82% 78% 82% 56% 75%

78 49 165 433 227 164 514 128 128 428 415 147 3149 175 957 428 560 640 292

Solar gains kWh/a

20 11 43 141 62 84 210 86 54 421 580 119 5921 185 1517 493 903 658 178

FACTORS

Climate: Hamburg Building: Landpiraten Kindergarten Latitude:

53,64

Orientation

Glazing area

North

16,40

m²

°

1 1 2 3 2 1 3 1 1 1 1 2 3 2 1 1 1 4 1

Description

WIN1 WIN2 WIN3 WIN4 WIN5 WIN6 WIN7 WIN8 WIN9 WIN10 WIN11 WIN12 WIN13 WIN14 WIN15 WIN16 WIN17 WIN18 WIN19

PHPP, Windows

Deviation from North

Angle of inclination from the horizontal

Degrees

Degrees

350 350 350 350 350 350 350 80 80 80 170 170 170 170 170 260 350 350 350

90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 90 0 0 90

Orientation

Glazing width

North North North North North North North East East East South South South South South West Horizontal Horizontal North

1,63 0,93 1,73 3,23 2,48 1,42 0,96 0,95 2,83 2,83 3,03 0,45 2,87 0,60 7,43 2,83 2,73 2,73 1,73

m wG

Glazing height m hG

0,29 0,29 0,29 0,29 0,29 1,19 1,83 1,29 0,29 1,89 1,69 1,19 5,13 1,19 1,69 1,89 2,69 0,49 1,99

Glazing area

AG

0,5 0,3 1,0 2,8 1,4 1,7 5,3 1,2 0,8 5,3 5,1 1,1 44,2 1,4 12,6 5,3 7,3 5,4 3,4

Height of the shading object m h Hori

0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00

Reduction factor summer rSs 2%

East

7,39

87%

28%

Space heating demand:

9,4

South

64,35

88%

5%

Useful cooling demand:

1,6

West

5,35

90%

6%

Frequency of overheating:

Horizontal

12,69

90%

93%

Horizon Quantity

Reduction factor winter rSw 79%

Reveal

Horizontal distance m d Hori

0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00 0,00

Window reveal depth m o Reveal

0,18 0,18 0,18 0,18 0,18 0,18 0,18 0,18 0,18 0,18 0,18 0,18 0,18 0,18 0,18 0,18 0,18 0,18 0,18

6,1%

kWh/(m²a) kWh/(m²a)

Overhang

Distance from glazing edge to reveal m d Reveal

0,070 0,070 0,070 0,070 0,070 0,070 0,070 0,070 0,070 0,070 0,070 0,070 0,070 0,070 0,070 0,070 0,070 0,070 0,070

Overhang depth m o over

Winter Additional reduction Reduction factor z for temporary sun factor summer protection shading

Distance from upper glazing edge to overhang

Additional reduction factor winter shading

m d over

% rother,w

% rother,s

95%

10% 40% 0%

0,18 0,18 0,18 0,99 0,18 0,18 0,99 0,18 0,18 0,18 1,53 1,00 2,00 0,18 1,53 0,18

0,07 0,07 0,07 2,70 0,07 0,07 0,14 0,07 0,07 0,07 0,00 0,07 0,40 0,07 0,00 0,07

0,18

0,07

40%

% z

20% 20% 20% 0% 0% 0% 0% 6%

70% 6% 0%

Horizontal shading reduction factor % rH

100% 100% 100% 100% 100% 100% 100% 100% 100% 100% 100% 100% 100% 100% 100% 100% 94% 94% 100%

Reveal shading reduction factor % rR

94% 90% 94% 97% 96% 93% 91% 86% 95% 95% 98% 88% 98% 90% 99% 95% 95% 95% 94%

Summer

Overhang shading reduction factor % rO

79% 79% 79% 90% 79% 92% 77% 93% 80% 95% 83% 85% 93% 97% 83% 95% 100% 100% 95%

Total shading reduction factor % rS

74% 71% 74% 87% 75% 86% 69% 81% 76% 90% 77% 75% 91% 88% 82% 90% 90% 90% 90%

Horizontal shading reduction factor % rH

100% 100% 100% 100% 100% 100% 100% 100% 100% 100% 100% 100% 100% 100% 100% 100% 96% 96% 100%

Reveal shading reduction factor % rR

95% 92% 95% 97% 96% 94% 92% 95% 98% 98% 97% 85% 97% 88% 99% 98% 97% 97% 95%

Overhang shading reduction factor % rO

85% 85% 85% 96% 85% 98% 82% 98% 81% 99% 37% 44% 76% 95% 37% 99% 100% 100% 99%

Total shading reduction factor % rS

16% 16% 16% 0% 0% 0% 0% 92% 79% 6% 4% 15% 0% 58% 15% 6% 93% 93% 0%

PHPP_EN_V8.5_brent _3.xls

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