Unit heat consumption of buildings in Finland: Difference between revisions

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== Answer ==
== Answer ==


<t2b name="u.factor" index="Surface,Construction year,Unit" desc="Kuvaus" unit="-">
<t2b name="u.factor" index="Surface,Construction.year,Unit" desc="Kuvaus" unit="-">
Outside wall|<1960|W/(m2K)|0.48|
Outside wall|<1960|W/(m2K)|0.48|
Outside wall|1960|W/(m2K)|0.40|
Outside wall|1960|W/(m2K)|0.40|
Line 51: Line 51:




<t2b name="surface.area" index="Surface,Construction year,Unit" desc="Kuvaus" unit="-">
<t2b name="surface.area" index="Surface,Construction.year,Unit" desc="Kuvaus" unit="-">
Outside wall|<1960|m2|92|
Outside wall|<1960|m2|92|
Outside wall|1960|m2|98|
Outside wall|1960|m2|98|
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<t2b name="air.exchange" index="Parameter,Construction year,Unit" desc="Kuvaus" unit="-">
<t2b name="air.exchange" index="Parameter,Construction.year,Unit" desc="Kuvaus" unit="-">
Air exchange rate|<1960|dm3/s/m2|0.25|
Air exchange rate|<1960|dm3/s/m2|0.25|
Air exchange rate|1960|dm3/s/m2|0.25|
Air exchange rate|1960|dm3/s/m2|0.25|
Line 176: Line 176:




<t2b name="residential.building.location" index="Location,Construction year,Unit" desc="Kuvaus" unit="-">
<t2b name="residential.building.location" index="Location,Construction.year,Unit" desc="Kuvaus" unit="-">
South|<1960|fraction of all|0.42|
South|<1960|fraction of all|0.42|
South|1960|fraction of all)|0.39|
South|1960|fraction of all)|0.39|
Line 275: Line 275:
cat("Ovariablet tallennettu.\n")
cat("Ovariablet tallennettu.\n")


oprint(u.factor)
#oprint(u.factor)
oprint(surface.area)
#oprint(surface.area)
oprint(air.exchange)
#oprint(air.exchange)
oprint(building.characteristics)
#oprint(building.characteristics)
oprint(outdoor.temperature)
#oprint(outdoor.temperature)
oprint(residential.building.location)
#oprint(residential.building.location)
oprint(other.parameters)
#oprint(other.parameters)
 
 
average.outdoor.temperature <- Ovariable(
name="average.outdoor temperature",
dependencies = data.frame(
Name=c("outdoor.temperature", "residential.building.location"),
Ident= c("Op_en5397")
),
formula = function(dependencies, ...) {
 
#cat("Average outdoor temperature for a residential building in Finland. Calculated based on monthly average temperatures and location of residential buildings in different parts of Finland \n")
out <- outdoor.temperature * residential.building.location
 
out@output <- out@output[ , c("Location", "Month", "Construction year", "Result")]
 
out@output <- aggregate(out@output[,4],by=list(out@output$Construction_year),FUN="sum", na.rm="TRUE")
#names(Data.all) <- c("Laani","Paiva","Vuosi", "KK", "Paiva2", "HW", "ksy1", "ksy2", "ksy3", "ksy4", "ksy5", "ksy6", "ksy7", "ksy8", "ksy9", "ksy10")
#Data.all <- Data.all[order(Data.all$Laani, Data.all$Paiva),]
 
return(out)
}
)
 
oprint(EvalOutput(average.outdoor.temperature))




Line 288: Line 315:
name="conduction.heat.loss",
name="conduction.heat.loss",
dependencies = data.frame(
dependencies = data.frame(
Name=c("u.factor", "surface.area"),
Name=c("u.factor", "surface.area", "outdoor.temperature", "residential.building.location"),
Ident= c("Op_en5397")
Ident= c("Op_en5397")
),
),
Line 295: Line 322:
#cat("Heat loss via heat conduction through outside walls, roor, ground floor, windows, and doors \n")
#cat("Heat loss via heat conduction through outside walls, roor, ground floor, windows, and doors \n")


out <- u.factor * surface.area
#out <- u.factor * surface.area
aver.out.temp <- outdoor.temperature * residential.building.location
 
 
#out@output <- out@output[ , c("Altiste", "Ikä", "Altistumislähde", "Reitti", "Altistumistaso", "Result")]
#out@output <- out@output[ , c("Altiste", "Ikä", "Altistumislähde", "Reitti", "Altistumistaso", "Result")]
return(out)
return(aver.out.temp)
}
}
)
)

Revision as of 10:52, 5 June 2013


Question

What is the average unit heat consumption (energy purchase, kWh/m2/year) of different types of residential buildings in Finland?

Characterisation of buildings:

  • Building type (detached house, row house, apartment building)
  • Construction decade
  • Primary heat source (light oil, pellet, district heat, electricity, geothermal)

Answer

u.factor(-)
ObsSurfaceConstruction.yearUnitResultKuvaus
1Outside wall<1960W/(m2K)0.48
2Outside wall1960W/(m2K)0.40
3Outside wall1970W/(m2K)0.30
4Outside wall1980W/(m2K)0.28
5Outside wall1990W/(m2K)0.28
6Outside wall2000W/(m2K)0.25
7Outside wall2010W/(m2K)0.17
8Roof<1960W/(m2K)0.30
9Roof1960W/(m2K)0.28
10Roof1970W/(m2K)0.25
11Roof1980W/(m2K)0.25
12Roof1990W/(m2K)0.16
13Roof2000W/(m2K)0.16
14Roof2010W/(m2K)0.09
15Floor<1960W/(m2K)0.30
16Floor1960W/(m2K)0.30
17Floor1970W/(m2K)0.30
18Floor1980W/(m2K)0.30
19Floor1990W/(m2K)0.30
20Floor2000W/(m2K)0.25
21Floor2010W/(m2K)0.25
22Window<1960W/(m2K)2.1
23Window1960W/(m2K)1.9
24Window1970W/(m2K)1.6
25Window1980W/(m2K)1.4
26Window1990W/(m2K)1.4
27Window2000W/(m2K)1.4
28Window2010W/(m2K)1
29Outer door<1960W/(m2K)1.4
30Outer door1960W/(m2K)1.4
31Outer door1970W/(m2K)1.4
32Outer door1980W/(m2K)1.4
33Outer door1990W/(m2K)1.4
34Outer door2000W/(m2K)1.4
35Outer door2010W/(m2K)1


surface.area(-)
ObsSurfaceConstruction.yearUnitResultKuvaus
1Outside wall<1960m292
2Outside wall1960m298
3Outside wall1970m2105
4Outside wall1980m2109
5Outside wall1990m2112
6Outside wall2000m2114
7Outside wall2010m2114
8Roof<1960m2109
9Roof1960m2124
10Roof1970m2144
11Roof1980m2158
12Roof1990m2166
13Roof2000m2176
14Roof2010m2176
15Floor<1960m2109
16Floor1960m2124
17Floor1970m2144
18Floor1980m2158
19Floor1990m2166
20Floor2000m2176
21Floor2010m2176
22Window<1960m210.9
23Window1960m212.4
24Window1970m214.4
25Window1980m215.8
26Window1990m216.6
27Window2000m217.6
28Window2010m217.6
29Outer door<1960m23.4
30Outer door1960m23.4
31Outer door1970m23.4
32Outer door1980m23.4
33Outer door1990m23.4
34Outer door2000m23.4
35Outer door2010m23.4


air.exchange(-)
ObsParameterConstruction.yearUnitResultKuvaus
1Air exchange rate<1960dm3/s/m20.25
2Air exchange rate1960dm3/s/m20.25
3Air exchange rate1970dm3/s/m20.25
4Air exchange rate1980dm3/s/m20.35
5Air exchange rate1990dm3/s/m20.35
6Air exchange rate2000dm3/s/m20.35
7Air exchange rate2010dm3/s/m20.35
8Heat recovery efficiency<19600
9Heat recovery efficiency19600
10Heat recovery efficiency19700
11Heat recovery efficiency19800
12Heat recovery efficiency19900
13Heat recovery efficiency20000
14Heat recovery efficiency20100.45
15Air leak factor<1960/h0.32
16Air leak factor1960/h0.32
17Air leak factor1970/h0.28
18Air leak factor1980/h0.24
19Air leak factor1990/h0.16
20Air leak factor2000/h0.16
21Air leak factor2010/h0.08
building.characteristics(-)
ObsParameterUnitResultKuvaus
1Number of floorsm1
2Room heightm2.5
3Indoor air temperatureC21
4Inhabitantsno of persons2.4
5Hot water usel/person/d45
6Water heating system heat losskWh/m2/month1.5
outdoor.temperature(-)
ObsLocationMonthUnitResultKuvaus
1South1C-6.2
2South2C-6.7
3South3C-2.6
4South4C2.9
5South5C9.9
6South6C14.6
7South7C16.9
8South8C15
9South9C9.8
10South10C4.8
11South11C-0.3
12South12C-4
13West1C-7.4
14West2C-7.7
15West3C-3.3
16West4C2.2
17West5C9
18West6C14.1
19West7C16
20West8C14
21West9C8.8
22West10C3.9
23West11C-1.5
24West12C-5.4
25East1C-10.2
26East2C-9.9
27East3C-4.6
28East4C1
29East5C8.1
30East6C13.6
31East7C15.9
32East8C13.3
33East9C8
34East10C2.7
35East11C-3.2
36East12C-7.8
37North1C-11.7
38North2C-11
39North3C-6.1
40North4C-1
41North5C5.8
42North6C12.2
43North7C14.9
44North8C12.1
45North9C6.6
46North10C0.2
47North11C-6.1
48North12C-10


residential.building.location(-)
ObsLocationConstruction.yearUnitResultKuvaus
1South<1960fraction of all0.42
2South1960fraction of all)0.39
3South1970fraction of all)0.37
4South1980fraction of all0.38
5South1990fraction of all0.43
6South2000fraction of all0.47
7South2010fraction of all0.42
8West<1960fraction of all0.32
9West1960fraction of all)0.3
10West1970fraction of all)0.31
11West1980fraction of all0.28
12West1990fraction of all0.27
13West2000fraction of all0.27
14West2010fraction of all0.29
15East<1960fraction of all0.15
16East1960fraction of all)0.15
17East1970fraction of all)0.15
18East1980fraction of all0.16
19East1990fraction of all0.14
20East2000fraction of all0.11
21East2010fraction of all0.13
22North<1960fraction of all0.1
23North1960fraction of all)0.16
24North1970fraction of all)0.17
25North1980fraction of all0.18
26North1990fraction of all0.16
27North2000fraction of all0.15
28North2010fraction of all0.16


other.parameters(-)
ObsParameterMonthUnitResultKuvaus
1Length of period1h744
2Length of period2h672
3Length of period3h744
4Length of period4h720
5Length of period5h744
6Length of period6h720
7Length of period7h744
8Length of period8h744
9Length of period9h720
10Length of period10h744
11Length of period11h720
12Length of period12h744
13Soil temperature difference1C0
14Soil temperature difference2C-1
15Soil temperature difference3C-2
16Soil temperature difference4C-3
17Soil temperature difference5C-2
18Soil temperature difference6C-2
19Soil temperature difference7C0
20Soil temperature difference8C1
21Soil temperature difference9C2
22Soil temperature difference10C3
23Soil temperature difference11C3
24Soil temperature difference12C2
25Heating season111=yes, 0=no
26Heating season211=yes, 0=no
27Heating season311=yes, 0=no
28Heating season411=yes, 0=no
29Heating season511=yes, 0=no
30Heating season601=yes, 0=no
31Heating season701=yes, 0=no
32Heating season801=yes, 0=no
33Heating season911=yes, 0=no
34Heating season1011=yes, 0=no
35Heating season1111=yes, 0=no
36Heating season1211=yes, 0=no


+ Show code

Rationale

Heat consumption of a building depends on the outdoor air temperature, preferred indoor air temperature, insulation, air tightness and surface area of the building envelope (walls, roof, floor, windows, doors), ventilation rate and heat recovery from the ventilated air, heating system (efficiency of heat production and recovery of lost heat), hot water demand, internal heat gains from people and electrical equipment, and external heat gains from the sun.

Models for calculating building heat consumption

Outdoor temperature in Finland

  • Finnish Meteorological Institute temperature statistics[3]:
    • Monthly temperatures (Celsius) in different observation points in Finland in 1971-2000
    • Areas (Southern Finland, Western Finland, Eastern Finland, Northern Finland) are defined based on Statistics Finland major regions classification[4]
    • The average monthly temperature in each area has been calculated as the mean of all the observation points (cities) within that area.
Area/City January February March April May June July August September October November December Average for September-May
Southern Finland
Kaarina (Yltöinen) -4.6 -5.5 -1.9 3.1 9.6 14.4 16.9 15.3 10.4 5.7 1 -2.8 1.7
Helsinki-Vantaa (airport) -5.2 -5.7 -2.2 3.3 10 14.6 16.9 15.3 10.1 5.2 0.1 -3.2 1.4
Lahti (Laune) -6.8 -7.3 -2.9 2.8 9.9 14.6 16.6 14.6 9.1 4.2 -0.8 -4,8 0.4
Lappeenranta (airport) -8 -8.1 -3.2 2.5 9.9 14.7 17.2 14.9 9.4 3.9 -1.4 -5.2 0
Average -6.2 -6.7 -2.6 2.9 9.9 14.6 16.9 15.0 9.8 4.8 -0.3 -4.0 0.9
Western Finland
Tampere-Pirkkala (airport) -6.7 -7 -2.8 3 9.5 14.4 16.6 14.6 9.4 4.7 -1 -4.6 0.5
Jyväskylä (airport) -8.5 -8.7 -4 1.4 8.7 14 16 13.7 8.2 3.2 -2.2 -6.4 -0.9
Seinäjoki (Pelmaa) -7.1 -7.3 -3.2 2.2 8.8 13.9 15.4 13.8 8.7 3.9 -1.4 -5.3 -0.1
Average -7.4 -7.7 -3.3 2.2 9.0 14.1 16.0 14.0 8.8 3.9 -1.5 -5.4 -0.2
Eastern Finland
Tohmajärvi (Kemie) -10 -9.8 -4.4 1.3 8.6 14 16.1 13.5 8.2 3 -2.9 -7.3 -1.5
Valtimo (Kk) -11.1 -10.8 -5 0.6 8 13.7 16 13.3 7.8 2.3 -3.7 -8.7 -2.3
Siikajoki -9.4 -9 -4.4 1 7.6 13.1 15.5 13 7.9 2.8 -3.1 -7.3 -1.5
Average -10.2 -9.9 -4.6 1.0 8.1 13.6 15.9 13.3 8.0 2.7 -3.2 -7.8 -1.8
Northern Finland
Rovaniemi (airport) -11.7 -11.0 -6.1 -1.0 5.8 12.2 14.9 12.1 6.6 0.2 -6.1 -10.0 -3.7
  • Jylhä et al. 2009[5]
    • Estimates for climate change in Finland by the Finnish Meteorologigal Institute.
    • Projected change in seasonal and annual mean temperature (Celsius) in 2010-2039 relative to 1971-2000 as averaged over the territory of Finland. In addition to the best estimate (50%), six other percentiles of the probability distribution are given. The projection is based on the simulations performed with 19 global climate models, with IPCC greenhouse gas emission scenarios A1B, A2 and B1 considered equally likely.
Probability distribution percentile: 5 % 10 % 25 % 50 % 75 % 90 % 95 %
Winter 1.1 1.4 1.8 2.2 2.7 3.1 3.3
Spring 0.4 0.6 1 1.4 1.9 2.3 2.5
Summer 0 0.3 0.6 1.1 1.5 1.9 2.1
Autumn 0.6 0.8 1.1 1.4 1.7 2 2.2
Annual 0.7 0.9 1.2 1.5 1.9 2.2 2.3

Indoor air temperature

  • Finnish health based guideline values (Celsius degrees) for indoor air temperature in residential buildings[6]:
    • Good level: 21 C
    • Lowest acceptable level: 18 C
    • Highest acceptable level: 26 C
    • Highest recommended level during heating period: 23-24 C

Building characteristics

  • Building structure U-values (heat transfer coefficient, W / m2 K) given in Finnish building regulations:
1978-1985 1985-2002 2003-2006 2007-2010 2010-
Building structure Mass less than 100 kg / m2 Mass over 100 kg / m2 Warm area > 17 °C Half warm area > 5 °C Warm area > 17 °C Half warm area > 5 °C Warm area 17 °C Half warm area > 5 °C Warm area 17 °C Half warm area > 5 °C
Wall 0,29 0,35 0,28 0,45 0,25 0,45 0,24 0,38 0,17 0,26
Roof 0,23 0,29 0,22 0,45 0,16 0,45 0,15 0,28 0,09 0,14
Floor 0,23 0,29 0,22 0,45 0,16 0,45 0,15 0,28 0,09 0,26
Floor structure directly against ground 0,4 0,4 0,36 0,45 0,25 0,45 0,24 0,34 0,16 0,24
Window 2,1 3,1 1,4 2,1 1,4 1,8 1 1,4
Door 0,7 2,9 1,4 2,1 1,4 1,8 1 1,4
  • Development of building characteristics in Finland[7]
50's 60's 70's 80's New (2009), standard New (2009), tight
Roof, U-value 0.3 0.28 0.25 0.25 0.16 0.16
Floor, U-value 0.3 0.3 0.3 0.3 0.2 0.2
Wall, U-value 0.48 0.4 0.3 0.28 0.25 0.25
Window, U-value 2.1 2.1 1.6 1.4 1.4 1.4
n50 (air leakage) 12 10 7 7 4 1
Air exchange technique Gravitational Gravitational Mechanical Mechanical Mechanical with heat recovery Mechanical with heat recovery
  • Window surface area in the 2010 Finnish building regulations[8]
    • The guideline value (vertailuarvo) for the total surface area of windows is 15% from the total surface area of floors completely or partly above the ground level.
    • The maximum value for the total surface area of windows is 50% from the total surface area of the outside walls.

Warm water consumption

Dependencies

  • Outdoor air temperature
  • Indoor air temperature
  • Building envelope (walls, roof, floor, windows, doors)
    • Insulation (heat conductance)
    • Air tightness (involuntary air leakage)
  • Air ventilation (rate, heat recovery)
  • Heating system (heat production efficiency and heat loss from distribution within a building)
  • Internal heat gains (electrical equipment, people, recovery of heat loss from heat distribution within a building)
  • External heat gains (sun)
  • Hot water demand

Formula

See also

Keywords

Building, heat consumption

References

Related files

<mfanonymousfilelist></mfanonymousfilelist>

Unit heat consumption of buildings in Finland. Opasnet . [1]. Accessed 24 Nov 2024.