Flue gas cleaning for stoves & boilers · a bag filter adapted for small stoves and boilers....
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Flue gas cleaning for stoves & boilers
Press-Kristensen, Kåre; Laurvig, Lotte ; Huth, Patrick; Friedrich, Axel; Mikkelsen, Teis Nørgaard
Publication date:2018
Document VersionPublisher's PDF, also known as Version of record
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Citation (APA):Press-Kristensen, K., Laurvig, L., Huth, P., Friedrich, A., & Mikkelsen, T. N. (2018). Flue gas cleaning for stoves& boilers. Poster session presented at 22nd ETH-Conference on Combustion Generated Nanoparticles, Zurich,Switzerland.
Flue gas cleaning for stoves & boilers Kaare Press-Kristensen1), Lotte Laurvig1), Patrick Huth2), Axel Friedrich3), Ellen Marie Drastrup4) and Teis Nørgaard Mikkelsen4)
1) Ecological Council, Denmark; 2) Deutsche Umwelthilfe, Germany, 3) International air pollution advisor & 4) Technical University of Denmark
Further info: Clean Heat website: www.clean-heat.eu
Danish Ecological Council: www.ecocouncil.dk
Deutsche Umwelthilfe: www.duh.de
LIFE program of the EU: ec.europa.eu/environment/life/
Background Residential heating with wood (and coal) in small stoves and boilers emits about 50 percent of the total fine particle and black carbon emissions in Europe. Furthermore, many studies have confirmed a significant emission of ultrafine particles from residential heating. In other sectors, particle emissions have been successfully reduced by particulate filters. However, filters or other flue gas cleaning systems are still not standard equipment for small stoves or boilers. Even though new stoves and boilers still pollute much more compared to other heat sources and road traffic.
Purpose The purpose was to investigate the removal of particles in an electrostatic filter and a condensing flue gas system with a bag filter adapted for small stoves and boilers.
Methods This study investigates the removal efficiency in two filter systems adapted for stoves and boilers: An electrostatic filter and a condensing flue gas system with a bag filter.
Measurements were done with dilution tunnels to include condensates. Measurements were performed with P-Traks for ultrafine particles (PM0.1) and traditional particle mass collection (quartz filters) concerning fine particles (PM2.5). The collected particle mass was analyzed for elementary carbon (EC) equivalent to black carbon (soot) and analyzed for organic carbon (OC).
Removal efficiencies were found comparing measurements before and after both filter systems. Discussion
If all stoves and boilers were fitted with these filters it would reduce the total emission of fine particles and black carbon in Europe by 40-50 percent. Furthermore, the bag filter would significantly reduce emissions of ultrafine particles as well as dioxins and PAHs adsorbed to their surfaces.
The prototypes of both filter systems (incl. regeneration) have now been successfully tested for several years on chimneys for small stoves operated under controlled conditions at test facilities. Next steps are crash testing the filter systems and testing under real conditions in private households.
Even if the filters are reliable in use and maintain the high efficiencies, next challenge will be to get filters installed on chimneys. This will either require legal filter requirements or high taxes on residential heating without filters since the filter price is believed to be around 3,000 euro in mass production.
Acknowledgement We would like to acknowledge Danish Centre for Environment and Energy at University of Aarhus and the Technical University of Denmark for providing sampling equipment, ultrafine particle measurement devices and performing the chemical analysis. We could not have performed these investigations without their support and contribution.
0%
50%
100%
Woodburning
Roadtraffic
Other
Black Carbon (soot) emission in EU-27
20152025
0%
20%
40%
60%
Woodburning
Roadtraffic
Other
Fine particle emission in EU-27
2015
2025
Conclusion The two investigated filter systems efficiently remove particles, both fine particles, elementary carbon and organic carbon. The bag filter has the highest efficiency and showed a high removal of ultrafine particles as well.
Results Average removal efficiencies over a burning cycle (40 min.) are shown in table 1.
Both filters showed high removal efficiencies for both fine particles, elementary carbon and organic carbon, with the bag filter having highest efficiency. The bag filter showed a high removal of ultrafine particles as well. No net removal of ultrafine particles over a whole burning cycle (40 min.) was observed in the electrostatic filter: in the ignition phase (0-10 min.) the filter almost doubled the ultrafine particle emission, whereas it reduced the particle emission around 85 percent in burning phase (10-40 min.).
Table 1: Average removal efficiencies over a burning cycle (40 min.)
Supported by
135 125
1 1,3 5,5 0,05 6,25 2,1
0
20
40
60
80
100
120
140
160
Par
ticl
e e
mis
sio
ns,
PM
2.5
(g
/GJ)
Danish emission factors
PM0.1 PM2.5 EC OC
Electrostatic filter 0 %* 87 % 98,5 % 74 %
Bag filter 98,7 % 94 % 99,6 % 85 % *In the ignition phase (0-10 min.) the filter almost doubled the ultrafine particle emission, whereas it reduced the particle emission around 85 percent in burning phase (10-40 min.).
Electrostatic filter Condensing bag filter system
Condensing bag filter system
Main author: Kaare Press-Kristensen has a master degree and a Ph.D. degree in environmental engineering from the Technical University of Denmark. He has been teaching air pollution for 16 years at the university (recent years as external). His work is focused on wood burning, road traffic, shipping, non-road machinery, aircrafts & indoor pollution sources. He works with emissions, ambient air concentrations and the connected risk to public health as well as work related exposure and public information.
Contact info: [email protected] / (+45) 22 81 10 27