The NAEI Power Stations category reports as near as is possible the emissions from electricity generation by companies whose main business is producing electricity (Major Power Producers) and hence excludes autogenerators. The fuel consumption entries from DUKES are chosen to obtain the best match with this definition. The coal and natural gas entries used are very close to this definition but the fuel oil entry does contain a small contribution from transport undertakings and groups of factories. Electricity generation from the combustion of waste is reported under power stations.
In the NAEI, the Autogenerators category reports emissions from electricity generation by companies primarily for their own consumption, but which may sell into the public supply. The inventory currently makes no distinction between electricity generation and combined heat and power or heat plants. Hence CHP systems where electricity is fed into the public system would be classified as Power Stations and CHP systems where the electricity is used by the autogenerator would be classified as Autogenerators.
The emission factors used for Power Stations are shown in Table A7. The NOx and SO2 emissions from coal and oil stations are based on estimates for individual power stations released by the Environment Agency (2000a). The Environment Agency emissions are reported on a power station basis so that those from coal fired plant will include emissions from the fuel oil used to light up the boilers. A correction has been applied to the data so that the coal emissions reported in the NAEI pertain only to the coal burnt, and the oil emissions apply only to the oil burnt. This is necessary to fulfil IPCC and UNECE reporting requirements.
Table A7 Emission Factors for Power Stations
|
Unit |
C1 |
CH4 |
N2O |
NOx |
NMVOC |
CO |
SO2 |
PM10 |
BS |
|
|
Coal |
kg/t |
588.23n |
0.02d |
0.073h |
6.7z |
0.032z |
1.03z |
18.9z |
0.50z |
0.25t |
|
Fuel Oil |
kg/t |
850a |
0.0054k |
0.0243g |
8.46z |
0.093z |
1.29z |
43.1z |
0.479z |
1.0 t |
|
Orimulsion |
kg/t |
597.5c |
0.0163j |
0.017j |
9.36e |
0.0437e |
1.39e |
70.0e |
0.582e |
0.832j |
|
Gas Oil |
kg/t |
857a |
0.0432b |
0.026g |
2.75e |
0.0865b |
0.473e |
3.25e |
0.25m |
0.75t |
|
Natural Gas |
g/th |
1501r |
0.579v |
0.351u |
2.96z |
0.581z |
0.907z |
0.143z |
NE |
NE |
|
Sour Gas |
g/th |
1916s |
0.0228p |
0.0095g |
21.0z |
0.0912z |
12z |
7.68z |
NE |
NE |
|
Coke |
kg/t |
795.4 n |
0.02d |
0.068h |
4.8b |
0.03d |
6.6f |
19w |
0.288m |
0.225t |
|
SSF |
kg/t |
766.3n |
0.0528b |
NE |
8.64b |
0.0792b |
6.6f |
19w |
0.23m |
0.225t |
|
MSW |
kg/t |
75l |
0.0008o |
0.03a3 |
1.37z+ |
0.0308z+ |
0.197z+ |
0.076z+ |
0.021z+ |
1.7z+ |
|
LPG |
g/th |
1712a |
0.0971m |
0.0095g |
9.4b |
0.194m |
0.25i |
0 |
0.295m |
NE |
|
OPG |
g/th |
1627a |
0.324b |
NE |
13.6b |
0.647b |
0.25i |
0 |
0.295m |
NE |
|
Landfill/ Sewage Gas |
g/th |
2891a2 |
64.9m |
0.0095g |
94.6m |
4.99m |
17.4m |
0 |
0.109m |
NE |
|
Poultry Litter |
kg/t |
180.2a2 |
0.251g |
0.0334g |
0.568z+ |
0.009z+ |
0.317z+ |
0.575z+ |
NE |
NE |
|
Scrap Tyres |
kg/t |
757a1 |
0.912g |
0.0184g |
NE |
NE |
NE |
NE |
NE |
NE |
|
Town Gas |
g/th |
1599 y |
0.38b |
NE |
9.5m |
0.380b |
0.25i |
0 |
NE |
NE |
1 Emission factor as kg carbon/ t fuel
a UKPIA (1989)
b CORINAIR (1992)
c BITOR(1995)
d Brain (1994)
e 1997 factor reported in Goodwin et al (1999). Fuel no longer used.
f USEPA (1977)
g IPCC(1997)
h Fynes et al. (1994)
i Walker et al. (1985)
j As fuel oil but adjusted on basis of gross calorific value
k Stewart et al. (1996) estimated from total VOC factor assuming 27.2% is methane after USEPA(1995)
l Royal Commission on Environmental Pollution (1993)
m USEPA(1997)
n British Coal (1989)
o Estimated from THC data in CRI(Environment Agency, 1999) assuming 3.3% methane split given in EMEP/CORINAIR(1996)
p EMEP/CORINAIR(1996)
q Stewart et al. (1996) estimated from total VOC factor assuming 20% is methane after CORINAIR(1992)
r British Gas (1992)
s Stewart et al (1996)
t Keddie et al. (1978); Timmis et al. (1988)
u Stewart (1997)
v IPCC(1995)
w Munday (1990)
y British Gas (1988)
z
Based on reported emissions data from PI (Environment Agency, 2000); Environment Agency (2000a) and Station Operatorsz+ Environment Agency (2000)
a1 Based on composition data in Ogilvie (1995)
a2 IPCC (1997). Emissions of CO2 from biomass combustion are reported for imformation and
are not included in the national total.
a3 IPCC(2000)
From 1991 to 1997 some UK power stations burnt Orimulsion which is an emulsion of bitumen and water. DTI (2000) gives the UK consumption of Orimulsion. This fuel is only used by the ESI so this data was used in the category Power Stations. The carbon content of the fuel was taken from the manufacturer’s specification (BITOR, 1995). The emissions of NOx and SO2 were taken from Environment Agency returns but emission factors for NMVOC, methane, black smoke and N2O were derived from those of heavy fuel oil but adjusted on the basis of the gross calorific value. The CO emission factor is based on measured data. This fuel is no longer used.
Emission estimates of PM10 are based on total particulate emissions submitted to the Environment Agency and the Scottish Environmental Protection Agency by the operators and take into account the operation of electro-static precipitators and installation of FGD. Total particulate emitted are assumed to comprise of 88% and 67% PM10 for oil and coal respectively. Where reported data are incomplete, emission rates for the appropriate fuel are derived and applied to the remaining power stations.
Electricity has been generated from the incineration of municipal solid waste (MSW) for some years now, though generation capacity has recently increased markedly owing to construction and upgrading of incinerators to meet new regulations by the end of 1996. Data have become available (DTI, 2000) on the amount of waste used in electricity generation and the emissions from the incinerators (Environment Agency, 2000). In previous inventories, these emissions were reported as waste disposal, but it is now possible to report the electricity generation component separately under Power Stations. Since 1997, all MSW incinerators have generated electricity so the waste incineration catetegory has reduced to zero. In the 1999 Inventory the gross calorific value of MSW has been revised (DTI, 2000) resulting in a very small change in emissions.
In addition to MSW combustion, the inventory now reports emissions from the combustion of scrap tyres and poultry litter to generate electricity. The tyre emissions are based on estimates compiled by DTI (2000a) and a carbon emission factor based on the carbon content of tyres (Ogilvie, 1995). IPCC default factors based on oil are used. In the case of poultry litter, the carbon emission factor is zero and those for other pollutants are based on Environment Agency (2000) data and IPCC(1997) defaults for biomass. The consumption of poultry litter is based on the operator’s estimates of plant capacity.
Emission estimates were made from the generation of electricity from landfill gas and sewage gas (DTI, 2000). It was assumed that the electricity from this source was fed into the public supply or sold into non-waste sectors and hence classified as public power generation. The gases are normally used to power reciprocating gas (or duel-fuel engines) which may be part of combined heat and power schemes. The emission factors used were those of a 2-stroke lean burn reciprocating engine (USEPA, 1997). These engines are normally part of CHP schemes with the heat produced being used locally. DTI (2000) reports the energy for electricity production and for heat production separately. The emissions for electricity generation are categorised under public power whilst those for heat production are reported under miscellaneous for landfill gas and public services for sewage gas.
Some of the emission factors in Table A7 refer to coke, SSF, OPG, LPG and town gas which were used in small quantities in the past.