Emission factors for burning processes: Difference between revisions

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{{variable|moderator=Pauliina}}
<noinclude>{{method|moderator=Pauliina}}
[[Category: BIOHER]]
[[Category:BIOHER]]
[[Category: Emission factors]]
[[Category:Emission factors]]
[[Category:Energy]]
[[Category:Energy]]
[[Category:Emission]]
[[Category:Emission]]
[[Category:Contains R code]]
[[Category:Contains R code]]
 
</noinclude>
Buildings need to be heated in winter so Combined Heat and Power (CHP) plants are placed to cities close to humans. Emissions have health impacts locally and globally.


== Question  ==
== Question  ==


What are the emission factors for burning processes in Finland? Emission factors are estimated in Finland and kettle/plant types used in Finland only.
What are the emission factors for burning processes and how to estimate emissions based on them? The focus is on the situation in Finland.


== Answer ==
== Answer ==


{{attack|# |Rcode for getting the ovariable is missing.|--[[User:Jouni|Jouni]] 22:05, 26 February 2013 (EET)}}
[[File:Emissions from heating in Helsinki.png|thumb|centre|600px|Example of the use of emission factors: CO<sub>2</sub> and fine particle emissions in Helsinki. Scenarios are based on [[Helsinki energy decision 2015]].]]


== Rationale ==
An example code for downloading and using the variable.


See evaluation of the page {{disclink|Evaluation by Jukka and Sami}}.
<rcode embed=1>
## This code is Op_en2719/ on page [[Emission factors for burning processes]].


See discussions with the statements in the discussion page.{{disclink|Discussions of emission factors}}
library(OpasnetUtils)
library(ggplot2)


===Emission factors for heating===
objects.latest("Op_en2791", code_name = "emissionstest")
objects.latest("Op_en2791", code_name = "emissionFactors")


This data are used in [[Urgenche]].
oprint(summary(EvalOutput(emissionFactors)))


<t2b name='Emission factors for wood heating' index="Type,Observation" locations="Activity in Finland,PM2.5 emission factor" desc="Description" unit="PJ /a; mg /MJ">
</rcode>
Residential buildings|34.2 (30.8-37.6)||Karvosenoja et al. 2008
Primary wood-heated residential buildings|20.2 (16.6-23.9)||Karvosenoja et al. 2008
Manual feed boilers with accumulator tank|5.42 (3.89-7.22)|80.0 (37.6-150)|Karvosenoja et al. 2008
Manual feed boilers without accumulator tank|2.67 (1.67-3.87)|700 (329-1310)|Karvosenoja et al. 2008
Automatic feed wood chip boilers|1.46 (1.01-2)|50.0 (23.5-93.9)|Karvosenoja et al. 2008
Automatic feed pellet boilers|0.102 (0.0693-0.142)|30.0 (14.1-56.3)|Karvosenoja et al. 2008
Iron stoves|0.142 (0.0976-0.196)|700 (329-1310)|Karvosenoja et al. 2008
Other stoves and ovens|10.2 (7.86-12.8)|140 (65.8-263)|Karvosenoja et al. 2008
Low-emission stoves|0|80 (37.6-150)|Karvosenoja et al. 2008
Open fireplaces|0.163 (0.111-0.224)|800 (376-1500)|Karvosenoja et al. 2008
Supplementary wood-heated residential buildings|14.0 (10.7-17.4)||Karvosenoja et al. 2008
Iron stoves|0.212 (0.135-0.316)|700 (329-1310)|Karvosenoja et al. 2008
Other stoves and ovens|13.6 (10.4-16.9)|140 (65.8-263)|Karvosenoja et al. 2008
Low-emission stoves|0|80 (37.6-150)|Karvosenoja et al. 2008
Open fireplaces|0.222 (0.14-0.332)|800 (376-1500)|Karvosenoja et al. 2008
Recreational buildings|5.00 (4.50-5.50)||Karvosenoja et al. 2008
Iron stoves|0.782 (0.372-1.37)|700 (329-1310)|Karvosenoja et al. 2008
Other stoves and ovens|3.96 (3.19-4.59)|140 (65.8-263)|Karvosenoja et al. 2008
Open fireplaces|0.262 (0.118-0.477)|800 (376-1500)|Karvosenoja et al. 2008
</t2b>


Karvosenoja et al. 2008 <ref>Karvosenoja et al. 2008 [http://www.researchgate.net/publication/235763046_Evaluation_of_the_emissions_and_uncertainties_of_PM2.5_originated_from_vehicular_traffic_and_domestic_wood_combustion_in_Finland]</ref>
== Rationale ==


The table below contains the current situation for Kuopio and Basel and Helsinki. Kuopio uses 'District', and Basel uses 'Long-distance heating', and Helsinki uses 'District heating'.
=== HSY emission factors ===


<t2b name='Fuel use in different heating types' index='Heating,Burner,Fuel' obs='Fraction' desc='Description' unit='-'>
''This section describes the use of HSY emission factors used for CO2 emission estimates. This should be merged with the other data, but it is first described as such.
Wood|Domestic|Wood|1|
Oil|Domestic|Light oil|1|
Gas|Domestic|Gas|1|
Heating oil|Domestic|Light oil|1|
Other sources|Domestic|Other sources|1|
No energy source|Domestic|Other sources|1|
Geothermal|Grid|Electricity|0.3|Geothermal does not sum up to 1 because more heat is produced than electricity consumed.
Centrifuge, hydro-extractor|Grid|Electricity|0.3|Not quite clear what this is but presumably a heat pump.
Solar heater/ collector|Grid|Electricity|0.1|Use only; life-cycle impacts omitted.
Electricity|Grid|Electricity|1|
Long-distance heating|Large fluidized bed|Waste|0.5|The values are from Wikipedia for Basel. See below.
Long-distance heating|Large fluidized bed|Wood|0.1|
Long-distance heating|Large fluidized bed|Gas|0.4|
Long-distance heating|Grid|Electricity|0|This is geothermally-generated district heating. Note: the fraction you need electricity is ca. 0.3*the amount of geoheat produced.
Coal|Large fluidized bed|Coal|1|
District|Large fluidized bed|Wood|0.04|These values are for Kuopio.
District|Large fluidized bed|Peat|0.84|
District|Large fluidized bed|Heavy oil|0.12|
District heating|Large fluidized bed|Coal|0.6|These values are for Helsinki.
District heating|Large fluidized bed|Gas|0.4|
</t2b>


For guesstimates about Long-distance heating (which is used in Basel), see [[Climate change policies in Basel]] and [[:de:IWB]].
These emission factors are derived from the Helsinki Region Environmental Services (HSY) climate data [https://www.hsy.fi/fi/asiantuntijalle/ilmastonmuutos/hillinta/seuranta/Sivut/Paastot.aspx] on 27th Nov 2018. Emission factors were initially calculated for every entry in the data file (4180 rows in total). Then, emission sectors were compared along timeline for each city separately. We noticed that several sectors shared practically the same emission factors with few differences, which are not plausible as real differences (Table ''Sector classification''). So, we took a mean of the values to represent all sectors in the same EFclass group.


<t2b name='Emission factors of energy production' index='Burner,Fuel,Pollutant' locations='PM2.5,CO2,CO2official' desc='Description' unit='mg /MJ'>
Then, we compared results from different cities. There were minor changes that may be due to some real differences in data, and also a some changes that looked like artefact. However, there were two sectors, namely ''district heating'' and ''fuels'' that clearly differed between cities in a plausible way. Therefore, we used city-specific emission factors for these two sectors and those of Helsinki for all other sectors (because Helsinki seemed to have the least amount of artefact in the data).
Domestic|Wood|140 (65.8-263)|74200|0|Other stoves and ovens. Karvosenoja et al. 2008
 
Domestic|Light oil|0-10|74200|74200|Light oil <5 MW Emission factors for burning processes. Light oil 267 kg /MWh
<t2b name="Sector classification" index="Sector,Sektori,EFclass,PKluokka" obs=dummy unit="-">
Domestic|Other sources|0-10|74200|74200|Same as oil.
metro|metrot|electricity|sähkö|1
Domestic|Gas|0-3|55650|55650|For PM2.5: one third of that of oil. For CO2: 3/4 of that of oil.
trams|raitiovaunut|electricity|sähkö|1
Large fluidized bed|Gas|0-3|55650|55650|For PM2.5: one third of that of oil. For CO2: 3/4 of that of oil.
local trains|lähijunat|electricity|sähkö|1
Large fluidized bed|Coal|2-20|106000|106000|Same as peat.
consumer electricity|kulutussähkö|electricity|sähkö|1
Large fluidized bed|Wood|2-20|74200|0|Leijupoltto 100-300 MW Emission factors for burning processes. Karvosenoja et al., 2008
passenger ships|matkustajalaivat|ships|laivat|1
Large fluidized bed|Waste|2-20|74200|0|Same as wood
cargo ships|rahtilaivat|ships|laivat|1
Large fluidized bed|Peat|2-20|106000|106000|Leijupoltto 100-300 MW Emission factors for burning processes. Peat 382 kg /MWh
buses|linja-autot|diesel machines|dieselkoneet|1
Large fluidized bed|Heavy oil|8-22|106000|106000|Leijupoltto 100-300 MW Emission factors for burning processes. Peat 382 kg /MWh
vans|pakettiautot|diesel machines|dieselkoneet|1
Grid|Electricity|1-10|53000|212000|50 % of large-scale burning (because of nuclear and hydro). Heavy oil 279 kg /MWh. Officially, electricity is not CHP but requires a double amount of coal to produce it.
machinery|työkoneet|diesel machines|dieselkoneet|1
trucks|kuorma-autot|diesel machines|dieselkoneet|1
leasure boats|huviveneet|boats|veneet|1
professional boats|ammattiveneet|boats|veneet|1
district heating|kaukolämpö|district heating|kaukolämpö|1
oil heating|öljylämmitys|oil heating|öljylämmitys|1
electric heating|sähkölämmitys|electric heating|sähkölämmitys|1
geothermal heating|maalämpö|geothermal heating|maalämpö|1
fuels|polttoaineet|fuels|polttoaineet|1
processes|prosessit|processes|prosessit|1
private cars|henkilöautot|private cars|henkilöautot|1
motor cycles|moottoripyörät|motor cycles|moottoripyörät|1
</t2b>
 
<t2b name="Sector hierarchy" index="Class,Subclass,Luokka,Alaluokka" obs="dummy" unit="-">
heating|district heating|lämmitys|kaukolämpö|1
heating|oil heating|lämmitys|öljylämmitys|1
heating|electric heating|lämmitys|sähkölämmitys|1
heating|geothermal heating|lämmitys|maalämpö|1
electricity|consumer electricity|sähkö|kulutussähkö|1
transport|road transport|liikenne|tieliikenne|1
transport|rail transport|liikenne|raideliikenne|1
transport|shipping|liikenne|laivaliikenne|1
industry and machinery|machinery|teollisuus ja työkoneet|työkoneet|1
industry and machinary|fuels|teollisuus ja työkoneet|polttoaineet|1
industry and machinery|processes|teollisuus ja työkoneet|prosessit|1
waste management|landfill|jätteiden käsittely|kaatopaikka|1
waste management|biowaste composting|jätteiden käsittely|biojätteen kompostointi|1
waste management|waste water treatment|jätteiden käsittely|jäteveden käsittely|1
waste management|waste water sludge composting|jätteiden käsittely|jätevesilietteen kompostointi|1
agriculture|fields|maatalous|pellot|1
agriculture|farm animals|maatalous|kotieläimet|1
road transport|private cars|tieliikenne|henkilöautot|1
road transport|motor cycles|tieliikenne|moottoripyörät|1
road transport|vans|tieliikenne|pakettiautot|1
road transport|trucks|tieliikenne|kuorma-autot|1
road transport|buses|tieliikenne|linja-autot|1
rail transport|local trains|raideliikenne|lähijunat|1
rail transport|metro|raideliikenne|metrot|1
rail transport|trams|raideliikenne|raitiovaunut|1
shipping|leasure boats|laivaliikenne|huviveneet|1
shipping|professional boats|laivaliikenne|ammattiveneet|1
shipping|passenger ships|laivaliikenne|matkustajalaivat|1
shipping|cargo ships|laivaliikenne|rahtilaivat|1
</t2b>
</t2b>


* [http://www.doria.fi/bitstream/handle/10024/94404/isbn9789522655578.pdf?sequence=2 Sanni Väisänen]: Greenhouse gas emissions from peat and biomass-derived fuels, electricity and heat — Estimation of various production chains by using LCA methodology {{comment|# |This work should be carefully read. It may affect values.|--[[User:Jouni|Jouni]] ([[User talk:Jouni|talk]]) 13:27, 20 March 2014 (EET)}}
<rcode name="HSYdata" label="Initiate ovariable HSYdata" embed=1>
# This is code Op_en2791/HSYdata on page [[Emission factors for burning processes]]
library(OpasnetUtils)


In Finland there are about 700 kettles that has under 5MW fuel power. Same amount is between 5 to 50 MW kettles and over 50 MW kettles there are 200 in Finland. One heating power plant can have several kettles. Many 5-50 MW power plants has also less than 5 MW kettle. <ref>http://www.ymparisto.fi/download.asp?contentid=3706
HSYdata <- Ovariable("HSYdata",ddata="Op_en2791",subset="HSY CO2 emission and energy consumption")
</ref>


=== Calculations ===
EFclass <- Ovariable("EFclass", ddata="Op_en2791", subset="Sector classification")


<rcode name='initiate' embed=1 label='Initiate objects'>
objects.store(HSYdata, EFclass)
cat("Ovariables HSYdata, EFclass stored.\n")
</rcode>


<rcode name="emfactor" label="Initiate ovariable emfactor" embed=1>
# This code is Op_en2791/emfactor on page [[Emission factors for burning processes]]
library(OpasnetUtils)
library(OpasnetUtils)


emissionFactors <- Ovariable(
emfactor <- Ovariable(
name = 'emissionFactors',
  "emfactor",
ddata = 'Op_en2791', # [[Emission factors for burning processes]]
  dependencies=data.frame(
subset = 'Emission factors of energy production'
    Name=c("HSYdata","EFclass"),
    Ident=c("Op_en2791/HSYdata","Op_en2791/HSYdata")
  ),
  formula=function(...) {
   
    dat <- HSYdata
    dat$Year <- as.numeric(as.character(dat$Year))
    dat$CO2 <- as.numeric(as.character(dat$CO2))
    result(dat) <- dat$CO2 / result(dat)
    levels(dat$Sector) <- tolower(levels(dat$Sector))
    levels(dat$Consumer) <- tolower(levels(dat$Consumer))
   
    ### Combine sectors that have essentially the same emission factor.
   
    colnames(dat@output)[colnames(dat@output)=="Sector"] <- "Sektori" # The data is in Finnish but titles in English
   
    dat <- dat * EFclass
   
    dat <- dat[!(is.infinite(result(dat)) | is.nan(result(dat)) | result(dat)<0.01),]
   
    dat2 <- dat[dat$City == "Helsinki" | dat$Sector %in% c("district heating","fuels") , ]
    dat2 <- oapply(dat2,INDEX=c("City","Year","EFclass"),FUN=mean)
   
    if(FALSE) {
     
      # The figures illustrate the reasons for merging some sectors under the same emission factor. 
      print(ggplot(dat@output,
                  aes(x=Year, y=result(dat),colour=City,group=paste(City,Sector)))+geom_line()+
              facet_wrap(~ EFclass, scales="free_y")+geom_point(aes(shape=City))+
              labs(y="CO2 emission factor (kg/kWh)")
      )
     
      print(ggplot(dat2@output,
                  aes(x=Year, y=result(dat2),colour=City,group=City))+geom_line()+
              facet_wrap(~ EFclass, scales="free_y")+geom_point(aes(shape=City))+
              labs(y="CO2 emission factor (kg/kWh)")
      )
    }
   
    #### Fill other EFclasses than district heating and fuels with city-unspecific values
   
    dat2$City <- as.factor(ifelse(dat2$EFclass %in% c("district heating","fuels"), as.character(dat2$City),NA))
    dat2@output <- fillna(dat2@output, "City")
   
    #### Make geothermal energy and electric heating dependent on consumer electricity by factors 0.5 and 1.5, respectively.
   
    elfact <- Ovariable(output=data.frame(
      EFclass=c("consumer electricity","geothermal heating","electric heating"),
      Result=c(1,0.5,1.5)),
      marginal=c(TRUE,FALSE)
    )
   
    dat3 <- dat2[!dat2$EFclass %in% c("geothermal heating","electric heating"),]
    tmp <-  dat2[dat2$EFclass %in% c("electricity"),]
    tmp$EFclass <- NULL
    dat3 <- combine(dat3, elfact*tmp) * EFclass
   
    return(dat3)
  }
)
)


fuelShares <- Ovariable("fuelShares", ddata = "Op_en2791", subset = "Fuel use in different heating types")
objects.store(emfactor)
colnames(fuelShares@data) <- gsub("[ \\.]", "_", colnames(fuelShares@data))
cat("Ovariable emfactor stored.\n")
fuelShares@data <- merge(fuelShares@data, data.frame(Time = 1900:2080))
</rcode>


objects.store(
<t2b name="Emission factors in Helsinki" index="Sector,Year" locations="2015,2030,2035" unit="ton/GWh">
emissionFactors,
Consumer electricity|121.5|70.6|45
fuelShares
Electric heating|234.2|138.5|88.3
)
District heating|189.7|128.8|49.1
Natural gas|198|198|198
Light fuel oil|261|261|261
Coal|341|341|341
</t2b>
 
The data above comes from Gaia report [http://www.stadinilmasto.fi/2018/06/19/hiilineutraali-helsinki-2035-toimenpideohjelma/].


cat("Objects
=== Inputs and calculations ===
emissionFactors,
fuelShares
initiated!\n")


</rcode>
{| {{prettytable}}
|+'''Variables needed for calculating emissions.
! Dependencies || Measure || Indices || Missing data
|----
| fuelUse (from [[Energy balance]] or other relevant source)
| Amount of fuel used per timepoint.
| Required indices: Fuel. Typical indices: Plant
|
|----
| emissionsLocations (case-specific knowledge from e.g. [[Helsinki energy production]])
| Tells how where emissions occur and from how high a stack.
| Required indices: - . Typical indices: Plant
|
|----
| emissionFactors (generic information, but may be cultural differences. E.g. [[Emission factors for burning processes]] ##
| emissions per unit of energy produced (g / J or similar unit)
| Required indices: Pollutant, Fuel. Typical indices:  Burner.
|
|----
|}
 
<rcode name='emissionstest' label='Initiate emissions (only for developers)' embed=1 store=1>
###This code is Op_en2791/emissionstest on page [[Emission factors for burning processes]].


===Other data===
library(OpasnetUtils)


Table 1. Describing emission types in different kind of plants and kettles with differen fuels and fuel power.
####### Calculate emissions


<t2b index="Type of plant or kettle,Fuel power (MW),Fuel,Emission type,PM separator,Observation" locations="Unit,Result,Description" unit="kg /MWh or mg /MJ
emissions <- Ovariable("emissions",
">
dependencies = data.frame(
-|-|Heavy oil|CO2|-|kg /MWh|279|-
Name = c(
Poltinpoltto|<5|Heavy oil|PM|partly syklone|mg /MJ|20-90|Number of plants: 300
"fuelUse", # Use of fuels (in MJ)
Poltinpoltto|5-15|Heavy oil|PM|partly syklone|mg /MJ|10-70|200
"emissionFactors", # Emissions of different pollutants per energy (mg /MJ)
Poltinpoltto|15-50|Heavy oil|PM|partly syklone|mg /MJ|5-40|100
"emissionLocations" # Locations where the emissions are emitted, indexed by City_area or Plant
-|>50|Heavy oil|TSP|-|mg /MJ|15 (5-30)|Savolahti M., Personal communication
),
-|>50|Heavy oil|PM2.5|-|mg /MJ|5 (1.5-9)|Savolahti M., Personal communication
Ident = c(
-|-|Light oil|CO2|-|kg /MWh|267|-
NA, # typically from [[Energy balance]] but there are other ways to calculate
Poltinpoltto|<5|Light oil|PM|-|mg /MJ|0-10|20
"Op_en2791/emissionFactors", # [[Emission factors for burning processes]]
Poltinpoltto|5-15|Light oil|PM|-|mg /MJ|0-10|20
NA # Case-specific data on locations of emissions.
Poltinpoltto|15-50|Light oil|PM|-|mg /MJ|0-10|10
)
Diesel/kaasumoottori|20-40|Heavy oil|PM|-|mg /MJ|30-60|2
),
-|-|Wood|CO2|-|kg /MWh|0|-
formula = function(...) {
Kerrosleijukattila|5-10|Wood|PM|electric|mg /MJ|10-70|8
 
Kerrosleijukattila|10-50|Wood|PM|electric|mg /MJ|5-30|10
# convert from mg to ton emitted.
Kiertoleijukattila|5-10|Wood|PM|electric|mg /MJ|5-30|4
out <- fuelUse * emissionFactors * 1E-9
Puuarinakattila|<5|Wood|PM|syklone/electric|mg /MJ|20-150|120
 
Puuarinakattila|5-10|Wood|PM|syklone/electric|mg /MJ|20-150|50
if(!"City_area" %in% colnames(out@output)) {
Puuarinakattila|10-50|Wood|PM|syklone/electric|mg /MJ|10-150|35
out <- out * Ovariable(
Kaasutuskattila|2-7|Wood|PM|syklone|mg /MJ|50-150|5
output = data.frame(City_area = "Not known", Result = 1),
Leijupoltto|20-100|Wood|PM2.5|(multisyklone+) electric|mg /MJ|2-20|Reference: VTT 2005
marginal = c(TRUE, FALSE)
Leijupoltto|20-100|Biomass|PM2.5|(multisyklone+) electric|mg /MJ|2-20|Reference: VTT 2005;wood > biomass
)
Leijupoltto|100-300|Wood|PM2.5|(multisyklone+) electric|mg /MJ|1-15|VTT 2005
}
-|-|Peat|CO2|-|kg /MWh|382|-
out <- unkeep(out * emissionLocations, sources = TRUE, prevresults = TRUE)
Leijupoltto|5-20|Peat|PM2.5|(multisyklone+) electric|mg /MJ|5-25|VTT 2005
Leijupoltto|20-100|Peat|PM2.5|(multisyklone+) electric|mg /MJ|4-23|VTT 2005
out@output$Emission_site <- as.factor(ifelse(
Leijupoltto|100-300|Peat|PM2.5|(multisyklone+) electric|mg /MJ|2-20|VTT 2005
out@output$Emission_site == "At site of consumption",
Leijupoltto|300-500|Peat|PM2.5|electric|mg /MJ|2-15|VTT 2005
as.character(out@output$City_area),
Leijupoltto|>500|Peat|PM2.5|electric|mg /MJ|2|VTT 2005
as.character(out@output$Emission_site)
|5-20|Heavy oil|PM2.5|-|mg /MJ|4-38|VTT 2005
))
|20-100|Heavy oil|PM2.5|-|mg /MJ|8-53|VTT 2005
 
|20-100|Heavy oil|PM2.5|cyclone/multicyclone|mg /MJ|5-24|VTT 2005
out <- oapply(
|100-300|Heavy oil|PM2.5|-|mg /MJ|8-22|VTT 2005
out,
|100-300|Heavy oil|PM2.5|cyclone/multicyclone|mg /MJ|4-13|VTT 2005
cols = c("Burner", "City_area"),
</t2b>
FUN = sum
)
return(out)
}
)
 
objects.store(emissions)
cat("Ovariable emissions stored.\n")
 
</rcode>
 
===Emission factors for heating===
 
<t2b name='Emission factors of energy production' index='Burner,Fuel,Pollutant' locations='PM2.5,CO2direct,CO2trade,CO2eq' desc='Description' unit='mg /MJ'>
Household|Wood|140 (65.8-263)|74200|0|8333|Other stoves and ovens. Karvosenoja et al. 2008
Household|Biofuel|140 (65.8-263)|74200|0|8333|Other stoves and ovens. Karvosenoja et al. 2008
Household|Light oil|0-10|74200-87222|74200|87222|Light oil <5 MW Emission factors for burning processes. Light oil 267 kg /MWh
Household|Oil|0-10|74200-87222|74200|87222|Light oil <5 MW Emission factors for burning processes. Light oil 267 kg /MWh
Household|Other sources|0-10|74200|74200|74200|Same as oil.
Household|Coal|0-10|74200-87222|74200|87222|
Household|Geothermal|0-10|74200-87222|74200|87222|
Household|Gas|0-3|55650|55650|55650|For PM2.5: one third of that of oil. For CO2: 3/4 of that of oil.
Household|Fuel oil|0-10|74200-87222|74200|87222|Light oil <5 MW Emission factors for burning processes. Light oil 267 kg /MWh
Domestic|Wood|140 (65.8-263)|74200|0|8333|Other stoves and ovens. Karvosenoja et al. 2008 Just repeat the previous rows to match different wording of burners.
Domestic|Biofuel|140 (65.8-263)|74200|0|8333|Other stoves and ovens. Karvosenoja et al. 2008
Domestic|Light oil|0-10|74200-87222|74200|87222|Light oil <5 MW Emission factors for burning processes. Light oil 267 kg /MWh
Domestic|Oil|0-10|74200-87222|74200|87222|Light oil <5 MW Emission factors for burning processes. Light oil 267 kg /MWh
Domestic|Other sources|0-10|74200|74200|74200|Same as oil.
Domestic|Coal|0-10|74200-87222|74200|87222|
Domestic|Geothermal|0-10|74200-87222|74200|87222|
Domestic|Gas|0-3|55650|55650|55650|For PM2.5: one third of that of oil. For CO2: 3/4 of that of oil.
Domestic|Fuel oil|0-10|74200-87222|74200|87222|Light oil <5 MW Emission factors for burning processes. Light oil 267 kg /MWh
Diesel engine|Fuel oil|0-10|74200-87222|74200|87222|Light oil <5 MW Emission factors for burning processes. Light oil 267 kg /MWh
Diesel engine|Light oil|0-10|74200-87222|74200|87222|
Diesel engine|Biofuel|0-10|74200-87222|74200|87222|
Large fluidized bed|Gas|0-3|55650|55650|55650|For PM2.5: one third of that of oil. For CO2: 3/4 of that of oil.
Large fluidized bed|Coal|2-20|106000|106000|106000|Same as peat.
Large fluidized bed|Wood|2-20|74200|0|74200|Leijupoltto 100-300 MW Emission factors for burning processes. Karvosenoja et al., 2008
Large fluidized bed|Biofuel|2-20|74200|0|74200|Leijupoltto 100-300 MW Emission factors for burning processes. Karvosenoja et al., 2008
Large fluidized bed|Waste|2-20|74200|0|-50000|CO2trade same as wood. CO2eq is guesswork but it is negative because without burning it would produce methane in landfill
Large fluidized bed|Peat|2-20|106000|106000|107500|Leijupoltto 100-300 MW Emission factors for burning processes. Peat 382 kg /MWh
Large fluidized bed|Heavy oil|8-22|91111-106000|106000|91111|Leijupoltto 100-300 MW Emission factors for burning processes. Peat 382 kg /MWh
Large fluidized bed|Fuel oil|8-22|91111-106000|106000|91111|Leijupoltto 100-300 MW Emission factors for burning processes. Peat 382 kg /MWh
Grid|Electricity|1-10|53000|212000|53000|50 % of large-scale burning (because of nuclear and hydro). Heavy oil 279 kg /MWh. Officially, electricity is not CHP but requires a double amount of coal to produce it.
None|Electricity_taxed|1-10|53000|212000|53000|50 % of large-scale burning (because of nuclear and hydro). Heavy oil 279 kg /MWh. Officially, electricity is not CHP but requires a double amount of coal to produce it. These emissions are assumed when power plants buy electricity from the grid.
None|Electricity|0|0|0|0|We might want to keep these locations in the model, but we assume that emissions are zero.
None|Heat|0|0|0|0|We might want to keep these locations in the model, but we assume that emissions are zero.
None|Cooling|0|0|0|0|We might want to keep these locations in the model, but we assume that emissions are zero.
</t2b>
 
*Large fluidized bed (Peat) CO<sub>2</sub>-eq value from Väisänen, Sanni: Greenhouse gas emissions from peat and biomass-derived fuels, electricity and heat — Estimation of various production chains by using LCA methodology<ref name="SVäisänen">Väisänen S: Greenhouse gas emissions from peat and biomass-derived fuels, electricity and heat - Estimation of various production chains by using LCA methodology. Lappeenranta University of Technology. 2014. http://www.doria.fi/bitstream/handle/10024/94404/isbn9789522655578.pdf?sequence=2</ref>
*Other CO<sub>2</sub>-eq values from [http://www.tut.fi/ee/Materiaali/Ekorem/EKOREM_LP_ja_sahko_raportti_051128.pdf EKOREM]: Sähkölämmitys ja lämpöpumput sähkönkäyttäjinä ja päästöjen aiheuttajina Suomessa.
* Classes of climate emissions:
*; CO2direct: Direct CO<sub>2</sub> emissions from the stack
*; CO2trade: CO<sub>2</sub> emissions as they are defined in the emission trade. Non-trade sectors have emission 0.
*; CO2eq: CO<sub>2</sub> emissions as equivalents (i.e. includes methane, N<sub>2</sub>O and other climate emissions based on life cycle impacts.
 
In Finland there are about 700 kettles that have under 5MW fuel power. Same amount is between 5 to 50 MW kettles and over 50 MW kettles there are 200 in Finland. One heating power plant can have several kettles. Many 5-50 MW power plants have also less than 5 MW a kettle. <ref> http://www.ymparisto.fi/download.asp?contentid=3706 {{attack|# |Link broken. I simply don't know what this is supposed to be.|--~~~~}}</ref>
 
:''See further discussions about emission factors of wood burning and other topics on the discussion page.{{disclink|Discussions of emission factors}}
 
<rcode name='emissionFactors' embed=1 label='Initiate emissionFactors (only for developers)'>


VTT 2005 <ref>http://www.vtt.fi/inf/pdf/tiedotteet/2005/T2300.pdf</ref>
# This is code Op_en2791/emissionFactors on page [[Emission factors for burning processes]].
library(OpasnetUtils)


Emission factors vary greatly depending on kettle or plant type, fuel type and fuel power. Type of emission and
emissionFactors <- Ovariable(
possible PM separator also affect to EF number.
name = 'emissionFactors',
ddata = 'Op_en2791', # [[Emission factors for burning processes]]
subset = 'Emission factors of energy production'
)


Data been used in this page is from many different study and sources to get wide data base for EF caculations.
objects.store(emissionFactors)
cat("Objects emissionFactors initiated!\n")
 
</rcode>
<noinclude>


<u>Emission factors from Matti's conceptual model</u>
===Other data===


This data comes from [[:File:UrgencheConceptualModel.xlsx]].
This is other important data that wasn't in the end used in the model's calculations. These include for example emission factors for wood heating, emission types for different kinds of plants, kettles and fuels, and energy and sulphur contents of different fuels.


Table 2.
{| class="wikitable collapsible collapsed"
{| {{prettytable}}
! Show details
|+ '''Emission factors (t/TJt)
|----
|----
! || ||CO2 (+CO)|| CH4|| BC|| Fine PM|| SO2|| NO
|
|----
 
|| Power plant/industry scale|| Coal|| 101|| 0.001|| 0.02|| 5|| 0.7|| 0.3
These data are used in [[Urgenche]].
|----
 
|| Power plant/industry scale|| Oil (residual)|| 82|| 0.003|| 0.02|| 0.01|| 0.5|| 0.1
<t2b name='Emission factors for wood heating' index="Type,Observation" locations="Activity in Finland,PM2.5 emission factor" desc="Description" unit="PJ /a; mg /MJ">
|----
Residential buildings|34.2 (30.8-37.6)||Karvosenoja et al. 2008
|| Power plant/industry scale|| NatGas|| 59|| 0.001|| 0.005|| 0|| 0|| 0.06
Primary wood-heated residential buildings|20.2 (16.6-23.9)||Karvosenoja et al. 2008
|----
Manual feed boilers with accumulator tank|5.42 (3.89-7.22)|80.0 (37.6-150)|Karvosenoja et al. 2008
|| Power plant/industry scale|| Biomass (ww+agr)|| 130|| 0.025|| 0.05|| 1|| 0|| 0.2
Manual feed boilers without accumulator tank|2.67 (1.67-3.87)|700 (329-1310)|Karvosenoja et al. 2008
|----
Automatic feed wood chip boilers|1.46 (1.01-2)|50.0 (23.5-93.9)|Karvosenoja et al. 2008
|| Power plant/industry scale|| Municipal waste|| 100|| 0.029|| 0.05|| 1|| 0|| 0.2
Automatic feed pellet boilers|0.102 (0.0693-0.142)|30.0 (14.1-56.3)|Karvosenoja et al. 2008
|----
Iron stoves|0.142 (0.0976-0.196)|700 (329-1310)|Karvosenoja et al. 2008
|| Local heating|| Coal|| 103|| 0.301|| 14|| 8|| 1|| 0.1
Other stoves and ovens|10.2 (7.86-12.8)|140 (65.8-263)|Karvosenoja et al. 2008
|----
Low-emission stoves|0|80 (37.6-150)|Karvosenoja et al. 2008
|| Local heating|| Oil (distillate)|| 78|| 0.010|| 0.2|| 0|| 0.5|| 0.04
Open fireplaces|0.163 (0.111-0.224)|800 (376-1500)|Karvosenoja et al. 2008
|----
Supplementary wood-heated residential buildings|14.0 (10.7-17.4)||Karvosenoja et al. 2008
|| Local heating|| NatGas|| 59|| 0.005|| 0.01|| 0|| 0|| 0.02
Iron stoves|0.212 (0.135-0.316)|700 (329-1310)|Karvosenoja et al. 2008
|----
Other stoves and ovens|13.6 (10.4-16.9)|140 (65.8-263)|Karvosenoja et al. 2008
|| Local heating|| Biomass (wood)|| 148|| 0.253|| 10|| 1|| 0|| 0.7
Low-emission stoves|0|80 (37.6-150)|Karvosenoja et al. 2008
|----
Open fireplaces|0.222 (0.14-0.332)|800 (376-1500)|Karvosenoja et al. 2008
|| Transport|| Petrol|| 67|| 0.001|| || 0.01|| ||
Recreational buildings|5.00 (4.50-5.50)||Karvosenoja et al. 2008
|----
Iron stoves|0.782 (0.372-1.37)|700 (329-1310)|Karvosenoja et al. 2008
|| Transport|| Diesel|| 69|| 0.001|| || 0.028|| EURO-III (CRT traps)||
Other stoves and ovens|3.96 (3.19-4.59)|140 (65.8-263)|Karvosenoja et al. 2008
|----
Open fireplaces|0.262 (0.118-0.477)|800 (376-1500)|Karvosenoja et al. 2008
|| Transport|| LNG|| 70|| 0.001|| || 0.007|| ||
</t2b>
|----
 
|| Transport|| Liq biofuel|| 64|| 0.010|| || 0.03|| ||
Karvosenoja et al. 2008 <ref>Karvosenoja et al. 2008 [http://www.researchgate.net/publication/235763046_Evaluation_of_the_emissions_and_uncertainties_of_PM2.5_originated_from_vehicular_traffic_and_domestic_wood_combustion_in_Finland]</ref>
|----
|}


Table 3.
'''Table 1. Describing emission types in different kind of plants and kettles with different fuels and fuel power.
{| {{prettytable}}
|+ '''Energy contents
|----
|| C2H5OH|| 29.700|| MJ/kg
|----
|| C2|| 24.000|| molecular weight
|----
|| H6|| 6.000|| molecular weight
|----
|| O|| 16.000|| molecular weight
|----
|| Petrol || 45|| MJ/kg
|----
|| Diesel|| 45|| MJ/kg
|----
|| LNG|| 56|| MJ/kg
|----
|| 1 kg ethanol = || 0.522|| kg C
|----
|| produces|| 1.913|| kg CO2
|----
|| 1MJ ethanol produces || 0.064|| kg CO2
|----
|}


Table 4.
<t2b index="Type of plant or kettle,Fuel power (MW),Fuel,Emission type,PM separator,Observation" locations="Unit,Result,Description" unit="kg /MWh or mg /MJ
{| {{prettytable}}
">
|+ '''Sulphur contents
-|-|Heavy oil|CO2|-|kg /MWh|279|-
|----
Poltinpoltto|<5|Heavy oil|PM|partly syklone|mg /MJ|20-90|Number of plants: 300
! ||%
Poltinpoltto|5-15|Heavy oil|PM|partly syklone|mg /MJ|10-70|200
|----
Poltinpoltto|15-50|Heavy oil|PM|partly syklone|mg /MJ|5-40|100
|| Coal S|| 1
-|>50|Heavy oil|TSP|-|mg /MJ|15 (5-30)|Savolahti M., Personal communication
|----
-|>50|Heavy oil|PM2.5|-|mg /MJ|5 (1.5-9)|Savolahti M., Personal communication
|| Residual oil S|| 2.5
-|-|Light oil|CO2|-|kg /MWh|267|-
|----
Poltinpoltto|<5|Light oil|PM|-|mg /MJ|0-10|20
|| Distillate oil S|| 0.5
Poltinpoltto|5-15|Light oil|PM|-|mg /MJ|0-10|20
|----
Poltinpoltto|15-50|Light oil|PM|-|mg /MJ|0-10|10
|| Diesel S|| 0.1
Diesel/kaasumoottori|20-40|Heavy oil|PM|-|mg /MJ|30-60|2
|----
-|-|Wood|CO2|-|kg /MWh|0|-
|| Petrol S|| 0.05
Kerrosleijukattila|5-10|Wood|PM|electric|mg /MJ|10-70|8
|----
Kerrosleijukattila|10-50|Wood|PM|electric|mg /MJ|5-30|10
|}
Kiertoleijukattila|5-10|Wood|PM|electric|mg /MJ|5-30|4
Puuarinakattila|<5|Wood|PM|syklone/electric|mg /MJ|20-150|120
Puuarinakattila|5-10|Wood|PM|syklone/electric|mg /MJ|20-150|50
Puuarinakattila|10-50|Wood|PM|syklone/electric|mg /MJ|10-150|35
Kaasutuskattila|2-7|Wood|PM|syklone|mg /MJ|50-150|5
Leijupoltto|20-100|Wood|PM2.5|(multisyklone+) electric|mg /MJ|2-20|Reference: VTT 2005
Leijupoltto|20-100|Biomass|PM2.5|(multisyklone+) electric|mg /MJ|2-20|Reference: VTT 2005;wood > biomass
Leijupoltto|100-300|Wood|PM2.5|(multisyklone+) electric|mg /MJ|1-15|VTT 2005
-|-|Peat|CO2|-|kg /MWh|382|-
Leijupoltto|5-20|Peat|PM2.5|(multisyklone+) electric|mg /MJ|5-25|VTT 2005
Leijupoltto|20-100|Peat|PM2.5|(multisyklone+) electric|mg /MJ|4-23|VTT 2005
Leijupoltto|100-300|Peat|PM2.5|(multisyklone+) electric|mg /MJ|2-20|VTT 2005
Leijupoltto|300-500|Peat|PM2.5|electric|mg /MJ|2-15|VTT 2005
Leijupoltto|>500|Peat|PM2.5|electric|mg /MJ|2|VTT 2005
|5-20|Heavy oil|PM2.5|-|mg /MJ|4-38|VTT 2005
|20-100|Heavy oil|PM2.5|-|mg /MJ|8-53|VTT 2005
|20-100|Heavy oil|PM2.5|cyclone/multicyclone|mg /MJ|5-24|VTT 2005
|100-300|Heavy oil|PM2.5|-|mg /MJ|8-22|VTT 2005
|100-300|Heavy oil|PM2.5|cyclone/multicyclone|mg /MJ|4-13|VTT 2005
</t2b>
 
VTT 2005 <ref>http://www.vtt.fi/inf/pdf/tiedotteet/2005/T2300.pdf</ref>


Table 5.
Emission factors vary greatly depending on kettle or plant type, fuel type and fuel power. Type of emission and
{| {{prettytable}}
possible PM separator also affect to EF number.
|+ '''Removal rates (%)
 
Data been used in this page is from many different study and sources to get wide data base for EF caculations.
 
<u>Emission factors from Matti's conceptual model</u>
 
This data comes from [[:File:UrgencheConceptualModel.xlsx]].
 
Table 2.
{| {{prettytable}}
|+ '''Emission factors (t/TJt)
|----
! || ||CO2 (+CO)|| CH4|| BC|| Fine PM|| SO2|| NO
|----
|| Power plant/industry scale|| Coal|| 101|| 0.001|| 0.02|| 5|| 0.7|| 0.3
|----
|| Power plant/industry scale|| Oil (residual)|| 82|| 0.003|| 0.02|| 0.01|| 0.5|| 0.1
|----
|| Power plant/industry scale|| NatGas|| 59|| 0.001|| 0.005|| 0|| 0|| 0.06
|----
|----
! !! Coal and peat !! Petrochem products !! Biofuel and waste
|| Power plant/industry scale|| Biomass (ww+agr)|| 130|| 0.025|| 0.05|| 1|| 0|| 0.2
|----
|----
|| Power generation fly ash removal || 99,5 || 90,0 || 99,0
|| Power plant/industry scale|| Municipal waste|| 100|| 0.029|| 0.05|| 1|| 0|| 0.2
|----
|----
|| Heat/power fly ash removal|| 99,5 || 90,0 || 95,0
|| Local heating|| Coal|| 103|| 0.301|| 14|| 8|| 1|| 0.1
|----
|----
|| District heating fly ash removal|| 95 || 90 || 90
|| Local heating|| Oil (distillate)|| 78|| 0.010|| 0.2|| 0|| 0.5|| 0.04
|----
|| Power generation SO2 removal|| 45 || 45 ||
|----
|| Heat/power SO2 removal|| 0 || ||
|----
|| District heating SO2 removal|| 0 || ||
|----
|| Power generation NOx removal|| 0 || ||
|----
|| Heat/power NOx removal|| 0 || ||
|----
|| District heating NOx removal|| 0 || ||
|----
|----
|| Local heating|| NatGas|| 59|| 0.005|| 0.01|| 0|| 0|| 0.02
|----
|| Local heating|| Biomass (wood)|| 148|| 0.253|| 10|| 1|| 0|| 0.7
|----
|| Transport|| Petrol|| 67|| 0.001|| || 0.01|| ||
|----
|| Transport|| Diesel|| 69|| 0.001|| || 0.028|| EURO-III (CRT traps)||
|----
|| Transport|| LNG|| 70|| 0.001|| || 0.007|| ||
|----
|| Transport|| Liq biofuel|| 64|| 0.010|| || 0.03|| ||
|----
|}
Table 3.
{| {{prettytable}}
|+ '''Energy contents
|----
|| C2H5OH|| 29.700|| MJ/kg
|----
|| C2|| 24.000|| molecular weight
|----
|| H6|| 6.000|| molecular weight
|----
|| O|| 16.000|| molecular weight
|----
|| Petrol || 43 || MJ/kg
|----
|| Diesel|| 45|| MJ/kg
|----
|| Liquefied natural gas (LNG) || 56|| MJ/kg
|---
|| Gas || 49,00 || MJ/kg
|---
|| Solid biofuel || 7,00 || MJ/kg
|---
|| Liquid biofuel || 29,00 || MJ/kg
|---
|| Coal || 25,60 || MJ/kg
|---
|| Crude oil || 43,0 || MJ/kg
|----
|| 1 kg ethanol = || 0.522|| kg C
|----
|| produces|| 1.913|| kg CO2
|----
|| 1MJ ethanol produces || 0.064|| kg CO2
|----
|}
Table 4.
{| {{prettytable}}
|+ '''Sulphur contents
|----
! ||%
|----
|| Coal S|| 1
|----
|| Residual oil S|| 2.5
|----
|| Distillate oil S|| 0.5
|----
|| Diesel S|| 0.1
|----
|| Petrol S|| 0.05
|----
|}
Table x
This data comes from [[File:Energy supply in Europe.xls]].
{| {{prettytable}}
|+ '''Fuel ash and sulfur contents of fuels (%)
! Fuel !! Ash !! Sulfur
|---
| Coal and peat || 11,0 || 1,1
|---
| Crude oil || 0,4 || 2,5
|---
| Petrochem products || 0,04 || 1,5
|---
| Biofuel and waste || 0,5 || -
|}
Table 5.
This data comes from [[File:Energy supply in Europe.xls]].
{| {{prettytable}}
|+ '''Removal rates (%)
|----
! !! Coal and peat !! Petrochem products !! Biofuel and waste
|----
|| Power generation fly ash removal || 99,5 || 90,0 || 99,0
|----
|| Heat/power fly ash removal|| 99,5 || 90,0 || 95,0
|----
|| District heating fly ash removal|| 95 || 90 || 90
|----
|| Power generation SO2 removal|| 45 || 45 ||
|----
|| Heat/power SO2 removal|| 0 || ||
|----
|| District heating SO2 removal|| 0  || ||
|----
|| Power generation NOx removal|| 0 || ||
|----
|| Heat/power NOx removal|| 0 || ||
|----
|| District heating NOx removal|| 0 || ||
|----
|}
Table X
This data comes from [[File:Energy supply in Europe.xls]].
{| {{prettytable}}
|+ '''CO<sub>2</sub> emissions from combustion (MtCO<sub>2</sub>/Mtoe)
!Coal & peat !! Crude oil !! Oil !! Gas !! Biofuels & waste
|---
| 3,86 || 3,13 || 3,13 || 2,27 || 4,79
|}
Table X
This data comes from [[File:Energy supply in Europe.xls]].
{| {{prettytable}}
|+ '''EC+OC emission factor (t/Mtoe)
! Type of plant !! Coal & peat !! Crude oil !! Petrochem products !! Gas !! Biofuels & waste
|---
|Electricity plants || 260 || || 300 || 170 || 300
|---
| CHP Plants || 610 || || 400 || 240 || 800
|---
| Heat plants || 1000|| || 600 || 400 || 3000
|---
| Blast furnaces || 3000 || || || ||
|---
| Gas works || 3000 || 1000 || || 100 ||
|---
| Oil refineries || || 400 || 200 || 100 ||
|---
| Petrochemical plants || 1000 || 300 || || ||
|---
| Coke/pat. fuel/BKB plants || 600 || || || ||
|---
| Liquefication plants || 600 || || || ||
|}
|}


Line 1,771: Line 2,081:
|}
|}


Table 16
(Data from ''Energy supply in Europe'' -excel)
{| {{prettytable}}
|+ '''CO<sub>2</sub> emissions from combustion (MtCO<sub>2</sub>/Mtoe)
!Coal & peat !! Crude oil !! Oil !! Gas !! Biofuels & waste
|---
| 3,86 || 3,13 || 3,13 || 2,27 || 4,79
|}
|}


Line 1,790: Line 2,092:


e.g. t/TJ -> mg/MJ
e.g. t/TJ -> mg/MJ
====Other codes====
{{attack|# |Rcode must be updated. Should this be a method instead?|--[[User:Jouni|Jouni]] 22:05, 26 February 2013 (EET)}}
<rcode>
library(OpasnetUtils)
library(xtable)
data <- tidy(op_baseGetData("opasnet_base", "Op_en2791"), objname = "emission.factor")
emission.factor <- new("ovariable",
name = "emission.factor",
data = data)
print(xtable(emission.factor@data), type = 'html')
objects.put(emission.factor)
cat("Ovariable initiated. Save the page key for further use.\n")
</rcode>


== See also ==
== See also ==


* SMALL-SCALE PELLET BOILER EMISSIONS – CHARACTERIZATION AND COMPARISON TO OTHER COMBUSTION UNITS
HEIKKI LAMBERG. REPORT SERIES IN AEROSOL SCIENCE N:o 156 (2014). [http://www.atm.helsinki.fi/faar/reportseries/rs-156.pdf]
* USEPA emission factor information web site [http://cfpub.epa.gov/oarweb/index.cfm?action=fire.main]
* USEPA emission factor information web site [http://cfpub.epa.gov/oarweb/index.cfm?action=fire.main]
*Tissari et al 2009 [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6V22-4TVR26G-1&_user=953170&_rdoc=1&_fmt=&_orig=search&_sort=d&_docanchor=&view=c&_acct=C000049246&_version=1&_urlVersion=0&_userid=953170&md5=0e3d0594c133bc8066aad60fc16ee88c]
*Tissari et al 2009 [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6V22-4TVR26G-1&_user=953170&_rdoc=1&_fmt=&_orig=search&_sort=d&_docanchor=&view=c&_acct=C000049246&_version=1&_urlVersion=0&_userid=953170&md5=0e3d0594c133bc8066aad60fc16ee88c]
Line 1,826: Line 2,110:
** [[RAINS emission factors]]
** [[RAINS emission factors]]
** [[WebFIRE]]
** [[WebFIRE]]
* [https://www.nilu.no/airquis/models_emission.htm NILU emission models]


 
{{attack|# |Links 7-10 (From Tissari to Motiva) say the page doesn't exist.|--[[User:Heta|Heta]] ([[User talk:Heta|talk]]) 15:45, 31 August 2015 (UTC)}}
{{Urgenche}}
{{Urgenche}}


Line 1,836: Line 2,121:
<references />
<references />


== Related files ==
</noinclude>
 
{{mfiles}}

Latest revision as of 10:17, 6 December 2018


Question

What are the emission factors for burning processes and how to estimate emissions based on them? The focus is on the situation in Finland.

Answer

Example of the use of emission factors: CO2 and fine particle emissions in Helsinki. Scenarios are based on Helsinki energy decision 2015.

An example code for downloading and using the variable.

+ Show code

Rationale

HSY emission factors

This section describes the use of HSY emission factors used for CO2 emission estimates. This should be merged with the other data, but it is first described as such.

These emission factors are derived from the Helsinki Region Environmental Services (HSY) climate data [3] on 27th Nov 2018. Emission factors were initially calculated for every entry in the data file (4180 rows in total). Then, emission sectors were compared along timeline for each city separately. We noticed that several sectors shared practically the same emission factors with few differences, which are not plausible as real differences (Table Sector classification). So, we took a mean of the values to represent all sectors in the same EFclass group.

Then, we compared results from different cities. There were minor changes that may be due to some real differences in data, and also a some changes that looked like artefact. However, there were two sectors, namely district heating and fuels that clearly differed between cities in a plausible way. Therefore, we used city-specific emission factors for these two sectors and those of Helsinki for all other sectors (because Helsinki seemed to have the least amount of artefact in the data).

Sector classification(-)
ObsSectorSektoriEFclassPKluokkadummy
1metrometrotelectricitysähkö1
2tramsraitiovaunutelectricitysähkö1
3local trainslähijunatelectricitysähkö1
4consumer electricitykulutussähköelectricitysähkö1
5passenger shipsmatkustajalaivatshipslaivat1
6cargo shipsrahtilaivatshipslaivat1
7buseslinja-autotdiesel machinesdieselkoneet1
8vanspakettiautotdiesel machinesdieselkoneet1
9machinerytyökoneetdiesel machinesdieselkoneet1
10truckskuorma-autotdiesel machinesdieselkoneet1
11leasure boatshuviveneetboatsveneet1
12professional boatsammattiveneetboatsveneet1
13district heatingkaukolämpödistrict heatingkaukolämpö1
14oil heatingöljylämmitysoil heatingöljylämmitys1
15electric heatingsähkölämmityselectric heatingsähkölämmitys1
16geothermal heatingmaalämpögeothermal heatingmaalämpö1
17fuelspolttoaineetfuelspolttoaineet1
18processesprosessitprocessesprosessit1
19private carshenkilöautotprivate carshenkilöautot1
20motor cyclesmoottoripyörätmotor cyclesmoottoripyörät1
Sector hierarchy(-)
ObsClassSubclassLuokkaAlaluokkadummy
1heatingdistrict heatinglämmityskaukolämpö1
2heatingoil heatinglämmitysöljylämmitys1
3heatingelectric heatinglämmityssähkölämmitys1
4heatinggeothermal heatinglämmitysmaalämpö1
5electricityconsumer electricitysähkökulutussähkö1
6transportroad transportliikennetieliikenne1
7transportrail transportliikenneraideliikenne1
8transportshippingliikennelaivaliikenne1
9industry and machinerymachineryteollisuus ja työkoneettyökoneet1
10industry and machinaryfuelsteollisuus ja työkoneetpolttoaineet1
11industry and machineryprocessesteollisuus ja työkoneetprosessit1
12waste managementlandfilljätteiden käsittelykaatopaikka1
13waste managementbiowaste compostingjätteiden käsittelybiojätteen kompostointi1
14waste managementwaste water treatmentjätteiden käsittelyjäteveden käsittely1
15waste managementwaste water sludge compostingjätteiden käsittelyjätevesilietteen kompostointi1
16agriculturefieldsmaatalouspellot1
17agriculturefarm animalsmaatalouskotieläimet1
18road transportprivate carstieliikennehenkilöautot1
19road transportmotor cyclestieliikennemoottoripyörät1
20road transportvanstieliikennepakettiautot1
21road transporttruckstieliikennekuorma-autot1
22road transportbusestieliikennelinja-autot1
23rail transportlocal trainsraideliikennelähijunat1
24rail transportmetroraideliikennemetrot1
25rail transporttramsraideliikenneraitiovaunut1
26shippingleasure boatslaivaliikennehuviveneet1
27shippingprofessional boatslaivaliikenneammattiveneet1
28shippingpassenger shipslaivaliikennematkustajalaivat1
29shippingcargo shipslaivaliikennerahtilaivat1

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Emission factors in Helsinki(ton/GWh)
ObsSector201520302035
1Consumer electricity121.570.645
2Electric heating234.2138.588.3
3District heating189.7128.849.1
4Natural gas198198198
5Light fuel oil261261261
6Coal341341341

The data above comes from Gaia report [4].

Inputs and calculations

Variables needed for calculating emissions.
Dependencies Measure Indices Missing data
fuelUse (from Energy balance or other relevant source) Amount of fuel used per timepoint. Required indices: Fuel. Typical indices: Plant
emissionsLocations (case-specific knowledge from e.g. Helsinki energy production) Tells how where emissions occur and from how high a stack. Required indices: - . Typical indices: Plant
emissionFactors (generic information, but may be cultural differences. E.g. Emission factors for burning processes ## emissions per unit of energy produced (g / J or similar unit) Required indices: Pollutant, Fuel. Typical indices: Burner.

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Emission factors for heating

Emission factors of energy production(mg /MJ)
ObsBurnerFuelPM2.5CO2directCO2tradeCO2eqDescription
1HouseholdWood140 (65.8-263)7420008333Other stoves and ovens. Karvosenoja et al. 2008
2HouseholdBiofuel140 (65.8-263)7420008333Other stoves and ovens. Karvosenoja et al. 2008
3HouseholdLight oil0-1074200-872227420087222Light oil <5 MW Emission factors for burning processes. Light oil 267 kg /MWh
4HouseholdOil0-1074200-872227420087222Light oil <5 MW Emission factors for burning processes. Light oil 267 kg /MWh
5HouseholdOther sources0-10742007420074200Same as oil.
6HouseholdCoal0-1074200-872227420087222
7HouseholdGeothermal0-1074200-872227420087222
8HouseholdGas0-3556505565055650For PM2.5: one third of that of oil. For CO2: 3/4 of that of oil.
9HouseholdFuel oil0-1074200-872227420087222Light oil <5 MW Emission factors for burning processes. Light oil 267 kg /MWh
10DomesticWood140 (65.8-263)7420008333Other stoves and ovens. Karvosenoja et al. 2008 Just repeat the previous rows to match different wording of burners.
11DomesticBiofuel140 (65.8-263)7420008333Other stoves and ovens. Karvosenoja et al. 2008
12DomesticLight oil0-1074200-872227420087222Light oil <5 MW Emission factors for burning processes. Light oil 267 kg /MWh
13DomesticOil0-1074200-872227420087222Light oil <5 MW Emission factors for burning processes. Light oil 267 kg /MWh
14DomesticOther sources0-10742007420074200Same as oil.
15DomesticCoal0-1074200-872227420087222
16DomesticGeothermal0-1074200-872227420087222
17DomesticGas0-3556505565055650For PM2.5: one third of that of oil. For CO2: 3/4 of that of oil.
18DomesticFuel oil0-1074200-872227420087222Light oil <5 MW Emission factors for burning processes. Light oil 267 kg /MWh
19Diesel engineFuel oil0-1074200-872227420087222Light oil <5 MW Emission factors for burning processes. Light oil 267 kg /MWh
20Diesel engineLight oil0-1074200-872227420087222
21Diesel engineBiofuel0-1074200-872227420087222
22Large fluidized bedGas0-3556505565055650For PM2.5: one third of that of oil. For CO2: 3/4 of that of oil.
23Large fluidized bedCoal2-20106000106000106000Same as peat.
24Large fluidized bedWood2-2074200074200Leijupoltto 100-300 MW Emission factors for burning processes. Karvosenoja et al., 2008
25Large fluidized bedBiofuel2-2074200074200Leijupoltto 100-300 MW Emission factors for burning processes. Karvosenoja et al., 2008
26Large fluidized bedWaste2-20742000-50000CO2trade same as wood. CO2eq is guesswork but it is negative because without burning it would produce methane in landfill
27Large fluidized bedPeat2-20106000106000107500Leijupoltto 100-300 MW Emission factors for burning processes. Peat 382 kg /MWh
28Large fluidized bedHeavy oil8-2291111-10600010600091111Leijupoltto 100-300 MW Emission factors for burning processes. Peat 382 kg /MWh
29Large fluidized bedFuel oil8-2291111-10600010600091111Leijupoltto 100-300 MW Emission factors for burning processes. Peat 382 kg /MWh
30GridElectricity1-10530002120005300050 % of large-scale burning (because of nuclear and hydro). Heavy oil 279 kg /MWh. Officially, electricity is not CHP but requires a double amount of coal to produce it.
31NoneElectricity_taxed1-10530002120005300050 % of large-scale burning (because of nuclear and hydro). Heavy oil 279 kg /MWh. Officially, electricity is not CHP but requires a double amount of coal to produce it. These emissions are assumed when power plants buy electricity from the grid.
32NoneElectricity0000We might want to keep these locations in the model, but we assume that emissions are zero.
33NoneHeat0000We might want to keep these locations in the model, but we assume that emissions are zero.
34NoneCooling0000We might want to keep these locations in the model, but we assume that emissions are zero.
  • Large fluidized bed (Peat) CO2-eq value from Väisänen, Sanni: Greenhouse gas emissions from peat and biomass-derived fuels, electricity and heat — Estimation of various production chains by using LCA methodology[1]
  • Other CO2-eq values from EKOREM: Sähkölämmitys ja lämpöpumput sähkönkäyttäjinä ja päästöjen aiheuttajina Suomessa.
  • Classes of climate emissions:
    CO2direct
    Direct CO2 emissions from the stack
    CO2trade
    CO2 emissions as they are defined in the emission trade. Non-trade sectors have emission 0.
    CO2eq
    CO2 emissions as equivalents (i.e. includes methane, N2O and other climate emissions based on life cycle impacts.

In Finland there are about 700 kettles that have under 5MW fuel power. Same amount is between 5 to 50 MW kettles and over 50 MW kettles there are 200 in Finland. One heating power plant can have several kettles. Many 5-50 MW power plants have also less than 5 MW a kettle. [2]

See further discussions about emission factors of wood burning and other topics on the discussion page.D↷

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Other data

This is other important data that wasn't in the end used in the model's calculations. These include for example emission factors for wood heating, emission types for different kinds of plants, kettles and fuels, and energy and sulphur contents of different fuels.

Dependencies

  • Plant/kettle type
  • Power output
  • Efficiency

Data that have another unit than mg/MJ should be changed.

e.g. t/TJ -> mg/MJ

See also

  • SMALL-SCALE PELLET BOILER EMISSIONS – CHARACTERIZATION AND COMPARISON TO OTHER COMBUSTION UNITS

HEIKKI LAMBERG. REPORT SERIES IN AEROSOL SCIENCE N:o 156 (2014). [7]

⇤--#: . Links 7-10 (From Tissari to Motiva) say the page doesn't exist. --Heta (talk) 15:45, 31 August 2015 (UTC) (type: truth; paradigms: science: attack)

Urgenche research project 2011 - 2014: city-level climate change mitigation
Urgenche pages

Urgenche main page · Category:Urgenche · Urgenche project page (password-protected)

Relevant data
Building stock data in Urgenche‎ · Building regulations in Finland · Concentration-response to PM2.5 · Emission factors for burning processes · ERF of indoor dampness on respiratory health effects · ERF of several environmental pollutions · General criteria for land use · Indoor environment quality (IEQ) factors · Intake fractions of PM · Land use in Urgenche · Land use and boundary in Urgenche · Energy use of buildings

Relevant methods
Building model · Energy balance · Health impact assessment · Opasnet map · Help:Drawing graphs · OpasnetUtils‎ · Recommended R functions‎ · Using summary tables‎

City Kuopio
Climate change policies and health in Kuopio (assessment) · Climate change policies in Kuopio (plausible city-level climate policies) · Health impacts of energy consumption in Kuopio · Building stock in Kuopio · Cost curves for energy (prioritization of options) · Energy balance in Kuopio (energy data) · Energy consumption and GHG emissions in Kuopio by sector · Energy consumption classes (categorisation) · Energy consumption of heating of buildings in Kuopio · Energy transformations (energy production and use processes) · Fuels used by Haapaniemi energy plant · Greenhouse gas emissions in Kuopio · Haapaniemi energy plant in Kuopio · Land use in Kuopio · Building data availability in Kuopio · Password-protected pages: File:Heat use in Kuopio.csv · Kuopio housing

City Basel
Buildings in Basel (password-protected)

Energy balances
Energy balance in Basel · Energy balance in Kuopio · Energy balance in Stuttgart · Energy balance in Suzhou


References