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Technical and economic aspects of low emission reduction in Poland

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper presents the problem of excessive air pollution in Poland caused mainly by low emission. The emission arises in result of heating flats by means of old and energetically inefficient heating installations. In Poland and Bulgaria the inhaled air is of the worst quality out of all EU countries. The paper presents economic and technical problems related to low emission occurring during the combustion of solid fuels in local boiler houses. Furthermore, the most significant economic issues, connected with the reduction of low emission are discussed, as well as technological possibilities of efficient reduction of the amount of pollution in the atmosphere. Conclusions are presented at the end of the article.
Rocznik
Strony
1107--1112
Opis fizyczny
Bibliogr. 22 poz., rys., tab.
Twórcy
autor
  • University of Zielona Góra, Faculty of Economics and Management Chair of Security Management 65-001 Zielona Góra, ul. Podgórna 50, POLAND
autor
  • University of Zielona Góra, Faculty of Economics and Management Chair of Security Management 65-001 Zielona Góra, ul. Podgórna 50, POLAND
  • University of Zielona Góra, Faculty of Mechanical Engineering Department of Systems Security Engineering 65-516 Zielona Góra, ul. Szafrana 4, POLAND
Bibliografia
  • [1] Łasiński K. (2013): Cam_gate system in product quality control, optimal selection of inspecting-sorting automatic machines. Solid State Phenomena, vol.198, pp.445-450.
  • [2] Dzikuć M. and Łasiński K. (2014): Technical and economisc aspects of biomass co-firing in coal-fired boilers. International Journal of Applied Mechanics and Engineering, vol.19, No.4, pp.849-855.
  • [3] Łasiński K. (2012): Modern methods of quality control measurements by means of CCD cameras - a model selection. – International Journal of Applied Mechanics and Engineering, vol.17, No.3, pp.899-906.
  • [4] European Environment Agency, Air Quality e-Reporting Database http://www.eea.europa.eu/data-andmaps/figures/population-weighted-concentration-field-of (accessed 04.03.2017).
  • [5] Adamczyk J., Piwowar A. and M. Dzikuć (2017): Air protection programmes in Poland in the context of the low emission. Environmental Science and Pollution Research, in press.
  • [6] Sadlok R. (red.): Counteracting low emissions in compact residential buildings. National Fund for Environmental Protection and Water Management, Association for Energy Efficiency and the Development of Renewable Energy Sources HELIOS, Kraków 2014, p.26 (in polish).
  • [7] Szlęk A. (2014): Low Emission. National Fund for Environmental Protection and Water Management, ABRYS Municipal Publications, Poznań, p.15 (in polish).
  • [8] Dzikuć M., Adamczyk J. and Piwowar A. (2017): Problems associated with the emissions limitations from Road transport in the Lubuskie Province (Poland). Atmospheric Environment, vol.160, pp.1-8.
  • [9] Kobus D., Iwanek J., Kostrzewa J. and Mitosek G. (2016): Air quality assessment in areas in Poland for the Lear 2015. Institute of Environmental Protection. National Research Institute in Poland, Warszawa p.67 (in polish).
  • [10] Zarębska J. and Dzikuć M. (2013): Determining the environmental benefits of life cycle assessment (LCA) on example of the power industry. Scientific Journals Maritime University of Szczecin, vol.34, No.163, pp.97-102.
  • [11] Adamczyk J. and Dzikuć M. (2014): The analysis of suppositions included in the Polish Energetic Policy using the LCA technique - Poland case study. Renewable and Sustainable Energy Reviews, vol.39, pp.42-50.
  • [12] PN-EN ISO 14044 (2009): Polish Committee for Standardization. – Warsaw, pp.47-53.
  • [13] PN-EN ISO 14040 (2009): Polish Committee for Standardization. – Warsaw, p.7.
  • [14] Dzikuć M. and Piwowar A. (2017): LCA in agrochemical production. Procedure, impact categories, utilisation possibilities. Przemysł Chemiczny, vol.96, No.2, pp.271-274.
  • [15] Dzikuć M. and Piwowar A. (2016): Ecological and economic aspects of electric energy production using the biomass co-firing method: The case of Poland. Renewable and Sustainable Energy Reviews, vol.55, pp. 856-862.
  • [16] Urban S. and Dzikuć, M. (2013): The impact of electricity production in coal-fired power plants on environment. Economics and Environment, No.2, pp.84-92.
  • [17] Zarębska J. (2013): Ecological and economic aspects management of packaging waste in Lubuskie. – Publishing House of the University of Zielona Góra, Zielona Góra, pp.106-110.
  • [18] Dzikuć M. and Tomaszewski M. (2016): The effects of ecological investments in the power industry and their financial structure: a case study for Poland. Journal of Cleaner Production, vol.118, pp.48-53.
  • [19] Dzikuć M. (2013): Applying the life cycle assessment method to an analysis of the environmental impact of heat generation. International Journal of Applied Mechanics and Engineering, vol.18, No.4, pp.1275-1281.
  • [20] Dzikuć M and Piwowar P. (2015): Life cycle assessment as an eco-management tool within the power industry. Polish Journal of Environmental Studies, vol.24, No.6, pp.2381-2385.
  • [21] Dzikuć M. (2017). Problems associated with the low emission limitation in Zielona Góra (Poland): Prospects and challenges. Journal of Cleaner Production, vol.166, pp.81-87.
  • [22] Dzikuć M. and Adamczyk J. (2015): The ecological and economic aspects of a low emission limitation: A case study for Poland. International Journal of Life Cycle Assessment, vol.20, No.2, pp.217-225.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-cbc3b2a6-5e78-4285-af57-a87495c4e7ac
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