Comparison of the Flue Gas Emission Values of a Traditional Designed Biomass Boiler with the Specified Emission Standards
DOI:
https://doi.org/10.33038/jcegi.3501Kulcsszavak:
biomass fuel, combustion technology, air quality, emission limitsAbsztrakt
Reducing emissions of various air pollutants is needed to achieve cleaner and healthier air quality in all EU countries. The National Air Pollution Reduction Programme sets out pollution reduction targets of 55% for particulate matter (PM), 73% for sulphur dioxide, 58% for non-methane volatile organic compounds and 66 % for nitrogen oxides, among other air pollutants, by 2030 compared to the 2005 reference year. The household sector is one of the areas most responsible for the emission of the main air pollutants linked to human activity. Within this, household solid biomass combustion is particularly important as a widely used heating method in Hungary. In this paper, we show how traditional boilers pollute the environment by measuring the results of a given boiler. Furthermore, the study describes how the specific boiler's air pollutant emissions and energy performance occurred. Finally, the research found that traditional boilers cannot meet strict emission standards, so their replacement and further development may be justified.
Hivatkozások
AGRÁRMINISZTÉRIUM (2020): Országos Levegőterhelés-csökkentési Program. Accessed: 28 September 2022, source: Government of Hungary official website:
https://kormany.hu/dokumentumtar/orszagos-levegoterheles-csokkentesi-program
BÉRES, A. (2021): A Környezetbarát Fatüzelés. Környezetbarát fatüzelés napja. 2021. október 14-16. Accessed: 19 September 2022, source: Hungairy project website: http://www.hungairy.hu/node/118
COMMISSION REGULATION (EU) 2015/1189 of 28 April 2015 implementing Directive 2009/125/EC of the European Parliament and of the Council with regard to ecodesign requirements for solid fuel boilers (Text with EEA relevance) (OJ L 193 21.07.2015, p. 100, Source: http://data.europa.eu/eli/reg/2015/1189/oj
DOBI, B. – HOLES, A. (szerk.): 2020: Magyarország Környezeti Állapota. Herman Ottó Intézet. Accessed: 26 September 2022, source: Herman Ottó Institute official website: http://www.hermanottointezet.hu/sites/default/files/mka_2020_digi_hu_jav_0308.pdf
EUROPEAN COMMISSION (EC) (2016): Directive (EU) 2016/2284 of the European Parliament and of the council of 14 December 2016 on the reduction of national emissions of certain atmospheric pollutants, amending Directive 2003/35/EC and repealing Directive 2001/81/EC, Official Journal of the European Union, L334/1, Accessed: 26 September 2022,
source: Official Journal of the European Union: https://eur-lex.europa.eu/legal-content/EN/TXT/PDF/?uri=CELEX:32016L2284&rid=9
EUROPEAN COMMISSION. (2018): Directive 2008/50/ec of the european parliament and of the council of 21 may 2008 on ambient air quality and cleaner air for europe, Accessed: 26 September 2022, source: Official Journal of the European Union:
https://eur-lex.europa.eu/legal-content/EN/TXT/PDF/?uri=CELEX:32008L0050&from=en
EUROPEAN COMMISSION. (EC) (2021): Pathway to a Healthy Planet for All EU Action Plan: 'Towards Zero Pollution for Air, Water and Soil'”, Accessed: 15 September 2022,
source: Official Journal of the European Union: https://eur-lex.europa.eu/legal-content/EN/TXT/PDF/?uri=CELEX:52021DC0400&from=EN
EUROPEAN ENVIRONMENT AGENCY. EMEP/EEA (2019): Air Pollutant Emission Inventory Guidebook. 2019. Technical Guidance to Prepare National Emission Inventories - 1.A.4 Small combustion, Publications Office, Accessed: 26 September 2022, Source: https://data.europa.eu/doi/10.2800/293657
EUROPEAN HEATING INDUSTRY (EHI). 2022. Heating Market Report 2021. Accessed: 30 September 2022, source: European Heating Industry website: https://ehi.eu/wp-content/uploads/2022/01/Heating_Market_Report_2020.pdf
HERMAN OTTÓ INTÉZET. (HOI) (2020): Országos Levegőterhelés-Csökkentési Program, Intézkedési Terv 2020–2030, Accessed: 26 September 2022, source: Herman Ottó Institute website: http://www.hermanottointezet.hu/sites/default/files/201209_hoi_kiadvany_280x200_szakmai_web.pdf
KÖZPONTI STATISZTIKAI HIVATAL (KSH). 2021. A háztartások végső energiafelhasználása felhasználási célok szerint, Accessed: 17 September 2022, source: Hungarian Central Statistical Office website: https://www.ksh.hu/stadat_files/ene/hu/ene0007.html
MINISTRY OF AGRICULTURE (Eőry, V., Kujáni, K. & Laskai-Varga, B.) (2020): National Air Pollution Control Programme (NAPCP) – Agriculture Sub-Program, Accessed: 1 September 2022, source: European Commission website: https://ec.europa.eu/environment/air/reduction/NAPCP.htm
MAGYAR ENERGETIKAI ÉS KÖZMŰ-SZABÁLYOZÁSI HIVATAL (MEKH). (2021): Hazai háztartások végső energiafelhasználási értékei. Accessed: 20 September 2022, source: Hungarian Energy and Public Utility Regulatory Authority website: http://www.mekh.hu/2019-ben-a-futesre-forditottuk-a-legtobb-energiat
MENTES, D. – SAJTI, Z. – KOÓS, T.L. – PÓLISKA, CS. (2019): Optimizing the combustion processes of a small scale solid fuel-fired boiler. International Journal of Engineering and Management Sciences, 4(4), 358–369. https://ojs.lib.unideb.hu/IJEMS/article/view/5374
ORSZÁGOS METEOROLÓGIAI SZOLGÁLAT (OMSZ). (2021): Az OLM 2020. évi szálló por PM10 és PM2.5 mintavételi programjának összesítő értékelése, Accessed: 26 September 2022, source: Hungarian Meteorological Service, http://www.levegominoseg.hu/Media/Default/Ertekeles/docs/2020_ertekeles_PM10_mintavetel.pdf
PM10 CSÖKKENTÉSI PROGRAM WEBOLDALA. Accessed: 26 September 2022, source: PM 10 official government information website: https://pm10.kormany.hu/
PM10 CSÖKKENTÉSI PROGRAM. (2017): Beszámoló jelentés az 1330/2011. (X.12.) Korm. határozattal elfogadott Kisméretű Szálló Por (PM10 részecske) Csökkentés Ágazatközi Intézkedési Programjának végrehajtásáról. Accessed: 26 September 2022, Source: PM 10 official government information website: https://pm10.kormany.hu/download/6/80/22000/PM10%20besz%C3%A1mol%C3%B3%202017_web.pdf
REISZ, L. – POMUCZ, A.B. – KOPLÁNYI, N. – BÉRES, A. (2019): New regulation to improve air quality and making steps in energy efficiency. Hungarian Agriculture Research: Environmental Management Land Use Biodiversity 28(4) 20–24.
SOHRAB, S. – CSIKÓS, N. – SZILASSI, P. (2022): Connection between the Spatial Characteristics of the Road and Railway Networks and the Air Pollution (PM10) in Urban–Rural Fringe Zones. Sustainability. 2022; 14(16):10103, DOI: https://doi.org/10.3390/su141610103
TÓVÁRI, P. – KÖRMENDI, P. (2014): Biomassza tüzeléstechnikai alkalmazásának lehetőségei. Accessed: 20 September 2022, source: Agronapló journal website: https://www.agronaplo.hu/szakfolyoirat/2010/05/gepesites/biomassza-tuzelestechnikai-alkalmazasanak-lehetosegei
WORLD HEALTH ORGANIZATION (WHO): 2021. WHO global air quality guidelines. Particulate matter (PM2.5 and PM10), ozone, nitrogen dioxide, sulfur dioxide and carbon monoxide. Geneva: World Health Organization. Accessed: 5 September 2022, source: WHO official website: https://apps.who.int/iris/handle/10665/345329
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