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Proposal for a COUNCIL DECISION of the 1998 Protocol to the 1979 Convention on Long Range Transboundary Air Pollution on Persistent Organic Pollutants
Proposal for a COUNCIL DECISION concerning the conclusion, on behalf of the European Community, of the 1998 Protocol to the 1979 Convention on Long Range Transboundary Air Pollution on Persistent Organic Pollutants (presented by the Commission)
II. MAJOR STATIONARY SOURCES OF POP EMISSIONS
7. PCDD/F are emitted from thermal processes involving organic matter and chlorine as a
result of incomplete combustion or chemical reactions. Major stationary sources of PCDD/F may be as follows:(a) Waste incineration, including co-incineration
(b) Thermal metallurgical processes, e.g. production of aluminium and other nonferrous metals, iron and steel
(c) Combustion plants providing energy
(d) Residential combustion and
(e) Specific chemical production processes releasing intermediates and by-products.
8. Major stationary sources of PAH emissions may be as follows:
(a) Domestic wood and coal heating
(b) Open fires such as refuse burning, forest fires and after-crop burning
(c) Coke and anode production
(d) Aluminium production (via Soederberg process) and
(e) Wood preservation installations, except for a Party for which this category
does
IV. CONTROL TECHNIQUES FOR THE REDUCTION OF PCDD/F EMISSIONS
D. Residential combustion
43. The contribution of residential combustion appliances to total emissions of PCDD/F is
less significant when approved fuels are properly used. In addition, large regional differences in emissions can occur due to the type and quality of fuel, geographical appliance density and usage.44. Domestic fireplaces have a worse burn-out rate for hydrocarbons in fuels and waste
gases than large combustion installations. This is especially true if they use solid fuels such as wood and coal, with PCDD/F emission concentrations in the range of 0.1 to 0.7 ng TE/m3.45. Burning packing material added to solid fuels increases PCDD/F emissions. Even
though it is prohibited in some countries, the burning of rubbish and packing material may occur in private households. Due to increasing disposal charges, it must be recognized that household waste materials are being burned in domestic firing installations. The use of wood with the addition of waste packing material can lead to an increase in PCDD/F emissions from 0.06 ng TE/m3 (exclusively wood) to 8 ng TE/m3 (relative to 11% O2 by volume). These results have been confirmed by investigations in several countries in which up to 114 ng TE/m3 (with respect to 13% oxygen by volume) was measured in waste gases from residential combustion appliances burning waste materials.46. The emissions from residential combustion appliances can be reduced by restricting the
input materials to good-quality fuel and avoiding the burning of waste, halogenated plastics and other materials. Public information programmes for the purchasers/operators of residential combustion appliances can be effective in achieving this goal.E. Firing installations for wood (< 50 MW capacity)
47. Measurement results for wood-firing installations indicate that PCDD/F emissions
above 0.1 ng TE/m3 occur in waste gases especially during unfavourable burn-out conditions and/or when the substances burned have a higher content of chlorinated compounds than normal untreated wood. An indication of poor firing is the total carbon concentration in the waste gas. Correlations have been found between CO emissions, burn-out quality and PCDD/F emissions. Table 3 summarizes some emission concentrations and factors for wood-firing installations.Table 3: Quantity-related emission concentrations and factors for wood-firing installations
Fuel |
Emission concentration (ng TE/m3) |
Emission factor (ng TE/kg) |
Emission factor (ng/GJ) |
Natural wood (beech tree) |
0.02 - 0.10 |
0.23 - 1.3 |
12-70 |
Natural wood chips from forests |
0.07 - 0.21 |
0.79 - 2.6 |
43-140 |
Chipboard |
0.02 - 0.08 |
0.29 - 0.9 |
16-50 |
Urban waste wood |
2.7 - 14.4 |
26 - 173 |
1400-9400 |
Residential waste |
114 |
3230 |
  |
Charcoal |
0.03 |
  |
  |
 
48. The combustion of urban waste wood (demolition wood) in moving grates leads to
relatively high PCDD/F emissions, compared to non-waste wood sources. A primary measure for emission reduction is to avoid the use of treated waste wood in wood-firing installations. Combustion of treated wood should be undertaken only in installations with the appropriate flue-gas cleaning to minimize PCDD/F emissions.  V. CONTROL TECHNIQUES FOR THE REDUCTION OF PAH EMISSIONS
D. Residential combustion
67. PAH emissions from residential combustion can be detected from stoves or open
fireplaces especially when wood or coal is used. Households could be a significant source of PAH emissions. This is the result of the use of fireplaces and small firing installations burning solid fuels in households. In some countries the usual fuel for stoves is coal. Coal-burning stoves emit less PAH than wood-burning ones, because of their higher combustion temperatures and more consistent fuel quality.68. Furthermore, combustion systems with optimized operation characteristics (e.g. burning
rate) effectively control PAH emissions from residential combustion. Optimized combustion conditions include optimized combustion chamber design and optimized supply of air. There are several techniques which optimize combustion conditions and reduce emissions. There is a significant difference in emissions between different techniques. A modern wood-fired boiler with a water accumulation tank, representing BAT, reduces the emission by more than 90% compared to an outdated boiler without a water accumulation tank. A modern boiler has three different zones: a fireplace for the gasification of wood, a gas combustion zone with ceramics or other material which allow temperatures of some 1000°C, and a convection zone. The convection part where the water absorbs the heat should be sufficiently long and effective so that the gas temperature can be reduced from 1000°C to 250°C or less. There are also several techniques to supplement old and outdated boilers, for example with water accumulation tanks, ceramic inserts and pellet burners.69. Optimized burning rates are accompanied by low emissions of carbon monoxide (CO),
total hydrocarbons (THC) and PAHs. Setting limits (type approval regulations) on the emission of CO and THCs also affects the emission of PAHs. Low emission of CO and THCs results in low emission of PAHs. Since measuring PAH is far more expensive than measuring CO, it is more cost-effective to set a limit value for CO and THCs. Work is continuing on a proposal for a CEN standard for coal- and wood-fired boilers up to 300 kW (see table 7).Table 7: Draft CEN standards in 1997
Class |
|
3 |
2 |
1 |
3 |
2 |
1 |
3 |
2 |
1 |
|
Effect (kW) |
CO |
THC |
Particulates |
||||||
Manual |
< 50 |
5000 |
8000 |
25000 |
150 |
300 |
2000 |
150/125 |
180/150 |
200/180 |
50-150 |
2500 |
5000 |
12500 |
100 |
200 |
1500 |
150/125 |
180/150 |
200/180 |
|
> 150-300 |
1200 |
2000 |
12500 |
100 |
200 |
1500 |
150/125 |
180/150 |
200/180 |
|
Automatic |
< 50 |
3000 |
5000 |
15000 |
100 |
200 |
1750 |
150/125 |
180/150 |
200/180 |
50-150 |
2500 |
4500 |
12500 |
80 |
150 |
1250 |
150/125 |
180/150 |
200/180 |
|
> 150-300 |
1200 |
2000 |
12500 |
80 |
150 |
1250 |
150/125 |
180/150 |
200/180 |
Note: Emission levels in mg/m3 at 10% O2.
70. Emissions from residential wood combustion stoves can be
reduced:
(a) For existing stoves, by public information and awareness programmes
regarding
(b) For new stoves, by the application of product standards as described in the draft CEN standard (and equivalent product standards in the United States and Canada).
71. More general measures for PAH emission reduction are those related to the
development of centralized systems for households and energy conservation such as improved thermal insulation to reduce energy consumption.72. Information is summarized in table 8.
Table 8: PAH emission control for residential combustion
Management options |
Emission level (%)a/ |
Estimated costs |
Management risks |
Use of dried coal and wood (dried wood is wood stored for at least 18-24 months).Use of dried coal. |
High effectiveness High effectiveness |
|
|
Design of heating systems for solid fuels to provide optimized complete burning conditions:- Gasification zone- Combustion with ceramics- Effective convection zone.Water accumulation tank. |
55 |
Medium |
Negotiations have to be held with stove manufacturers to introduce an approval scheme for stoves. |
Technical instructions for efficient operation.Public information programme concerning the use of wood-burning stoves. |
30 - 40 |
Low |
Might be achieved also by vigorous public education, combined with practical instructions and stove type regulation. |
a/ Remaining emission compared to unreduced mode.
Celý návrh naleznete na: http://europa.eu.int/eur-lex/en/com/pdf/2003/com2003_0332en01.pdf
Zdroj (autor): Antonín Slejška
Web: http://europa.eu.int
Kontaktní e-mail:
Datum uveřejnění: 21.6.03
Poslední změna: 21.6.2003
Počet shlédnutí: 799