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THE IMPACT OF GEOTHERMAL HEATING PLANTS ON GREENHOUSE GAS EMISSION REDUCTION AND AIR QUALITY IMPROVEMENT
Abstract
In the context of the urgent need to combat climate change, renewable energy sources, such as geothermal energy, play a crucial role in reducing greenhouse gas emissions. This study examines the ecological impact in the form of avoided emissions for five geothermal heating plants located in Poland. The analysis included emissions of CO2, SO2, NOx, CO, benzo(a)pyrene, and particulate matter (PM10 and PM2.5), considering three reference scenarios based on conventional fuels: hard coal, high-methane natural gas, and heating oil. The calculations were based on emission factors for fossil fuels and annual geothermal heat production values. The results demonstrated that geothermal heating plants significantly reduce carbon dioxide emissions, one of the key greenhouse gases. Additionally, a substantial reduction in other pollutants was observed, confirming the positive impact of geothermal technologies on both the environment and public health. The findings indicate that geothermal energy is an effective tool in combating climate change, while simultaneously contributing to air quality improvement and supporting sustainable development.
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Van Daalen K. R., Romanello M., Rocklov J., Semenza J. C., Tonne C., Markandya A., Dasandi N., Jankin S., Achebak H., Ballester J., Bechara H., Callaghan M., Chambers J., Dasgupta S., Drummond P., Farooq Z., Gasparyan O., Gonzalez-Reviriego N., Hamilton I., Hanninen R., Kazmierczak A., Kendrovski V., Kennard H., Kiesewetter G., Lloyd S., Lotto- Batista M., Martinez-Urtaza J., Mila C., Minx J., Nieuwenhuijsen M., Palamarchuk J., Quijal-Zamorano M., Robinson E., Scamman D., Schmoll O., Ing D., Sewe M., Sjodin H., Sofiev M., Solaraju-Murali B., Springmann M., Trinanes J., Anto J., Nilsson M., Lowe, R., The 2022 Europe report of the Lancet Countdown on health and climate change: towards a climate resilient future, The Lancet Public Health, 7(11), pp 942 � 965, 2022. DOI: 10.1016/s2468-2667(22)00197-9
WFOSiGW, Compilation of formulas and emission factors for pollutants released into the air. [online]: https://www.wfosgw.poznan.pl/wp-content/uploads/2022/03/ Definicja-i-wzor-efektu-OA-2022-1.pdf, 2021.
Zaba-Nieroda R., Energy sector as a producer of electricity and an issuer of environmental pollutants in the context of new environmental standards, Wydawnictwo Uniwersytetu Ekonomicznego we Wroclawiu, 491, pp 376 � 388, 2017. DOI: 10.15611/pn.2017.491.35
KOBiZE, Calorific Values (CV) and CO? Emission Factors (EF) for the Year 2020 for Reporting under the Emissions Trading System for the Year 2023. [online]: https://www.kobize.pl/uploads/materialy/materialy_do_pobrania/monitorowanie_raportowanie_weryfikacja_emisji_w_eu_ets/WO_i_WE_do_monitorowania-ETS-2023.pdf, 2022.
KOBiZE, Emission factors for pollutants from fuel combustion for sources with a nominal thermal power of up to 5 MW, applied for automatic emission calculation in the 2022 National Database Report. [online]: https://krajowabaza.kobize.pl/docs/ Wska%C5%BAniki_ma%C5%82e_%C5%BAr%C3%B3dla_spalania_paliw_2022.pdf, 2023.
Dz. U. 2022 poz. 2856, Rozporzadzenie Ministra Klimatu i Srodowiska z dnia 23 grudnia 2022 r. w sprawie wymagan jakosciowych dla paliw stalych (in Polish).
Dz. U. 2018 poz. 1158, Obwieszczenie Ministra Energii z dnia 16 maja 2018 r. w sprawie ogloszenia jednolitego tekstu rozporzadzenia Ministra Gospodarki w sprawie szczegolowych warunkow funkcjonowania systemu gazowego (in Polish).
Dz. U. 2016 poz. 2008, Rozporzadzenie Ministra Energii z dnia 1 grudnia 2016 r. w sprawie wymagan jakosciowych dotyczacych zawartosci siarki dla olejow oraz rodzajow instalacji i warunkow, w ktorych beda stosowane ciezkie oleje opalowe (in Polish).
EPA, Bituminous And Subbituminous Coal Combustion. [online]: https://www.epa.gov/sites/default/files/202009/documents/1.1_bituminous_and_subbituminous _ coal_combustion.pdf, 2020.
Proszak-Miasik D., Nowak K., Methods of reducing low emissions in urban areas, Instal, 6, pp 18-22, 2019.
Rogalski L., Emission of gaseous pollutants into the atmosphere from the combustion of various fuels. Zeszyty Problemowe Postepow Nauk Rolniczych, 505, pp 353�359, 2005.
Sicard P., Khaniabadi Y. O., Perez S., Gualtieri M., De Marco A., Effect of O3, PM10 and PM2,5 on cardiovascular and respiratory diseases in cities of France, Iran and Italy, Environmental science and pollution research, 26, pp 32645-32665, 2019. DOI: 10.1007/s11356-019-06445-8
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