Selected aspects of low emission management in the Middle Odra Region1
 
 
More details
Hide details
1
Ph.D. University of Zielona Góra, Faculty of Economics and Management Poland
 
 
Online publication date: 2018-12-19
 
 
Management 2018;22(2):311-324
 
KEYWORDS
JEL CLASSIFICATION CODES
E000
 
ABSTRACT
According to the data of the European Environment Agency, due to excessive air pollution about 47 thousand people die prematurely every year in Poland. Although in recent years the level of industrial emissions in Poland has been significantly reduced, it is still a very serious problem of the so-called low emission. The aim of the paper was to determine the most important sources of low emission in the Middle Odra Region and to indicate activities that will optimally limit this problem. The article points out activities that help reduce low emission in the Middle Odra Region, where the problem is also noticeable, despite the lower population density and the lack of highly industrialized areas. Moreover, it pointed to the possible directions of low emission management, the implementation of which may contribute to a significant reduction of low emission in the Middle Odra Region.
REFERENCES (32)
1.
Air quality in Europe — 2017 report, European Environment Agency, Luxembourg: Publications Office of the European Union, 2017.
 
2.
Adamczyk J., Dylewski R. (2017), Analysis of the sensitivity of the ecological effects for the investment based on the thermal insulation of the building: A Polish case study, Journal of Cleaner Production, Vol. 162, pp. 856-864.
 
3.
Adamczyk J., Dzikuć M. (2014), The analysis of suppositions included in the Polish Energetic Policy using LCA technique - Poland case study, Renewable and Sustainable Energy Reviews, Vol. 39, pp. 42-50.
 
4.
Adamczyk J., Piwowar A., Dzikuć M. (2017), Air protection programmes in Poland in the context of the low emission, Environmental Science and Pollution Research, Vol. 24, No. 19, pp. 16316–16327.
 
5.
Awasthi A., Hothi N., Kaur P., Singh N., Chakraborty M., Bansal S. (2017), Elucidative analysis and sequencing of two respiratory health monitoring methods to study the impact of varying atmospheric composition on human health, Atmospheric Environment, Vol. 171, pp. 32-37.
 
6.
Burchart-Korol D., Pustejovska P., Blaut A., Jursova S., Korol J. (2018), Comparative life cycle assessment of current and future electricity generation systems in the Czech Republic and Poland, International Journal of Life Cycle Assessment 2018 https://doi.org/10.1007/s11367....
 
7.
Central Statistical Office of Poland www.stat.gov.pl (22.10.2018 – date of access).
 
8.
Dębski, B., Olecka, A., Bebkiewicz, Chłopek, Z., Kargulewicz, I., Rutkowski, J., Waśniewska, S., Zasina, D., Zimakowska-Laskowska, M., Żaczek, M., 2018. Krajowy bilans emisji SO2, NOX, CO, NH3, NMLZO, pyłów, metali ciężkich i TZO za lata 2015 - 2016 w układzie klasyfikacji SNAP. Raport syntetyczny. Krajowy Ośrodek Bilansowania i Zarządzania Emisjami (KOBiZE), Instytut Ochrony Środowiska – Państwowy Instytut Badawczy, Warszawa.
 
9.
Dzikuć M. (2017a), Problems associated with the low emission limitation in Zielona Góra (Poland): Prospects and challenges, Journal of Cleaner Production, Vol. 166, pp. 81-87.
 
10.
Dzikuć M. (2017b), Ekonomiczne i społeczne czynniki ograniczenia niskiej emisji w Polsce, Difin, Warszawa.
 
11.
Dzikuć M., 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.
 
12.
Dzikuć M., Adamczyk J., Piwowar A. (2017a), Problems associated with the emissions limitations from road transport in the Lubuskie Province (Poland), Atmospheric Environment, Vol. 160 pp. 1-8.
 
13.
Dzikuć M., Dzikuć M., Łasiński K. (2017b), Technical and economic aspects of low emission reduction in Poland, International Journal of Applied Mechanics and Engineering Vol. 22, No. 4 pp. 1107-1112.
 
14.
Dzikuć M., Dzikuć M., Siničáková M. (2017c), The social aspects of low emission management in the Nowa Sól district, Management, Vol. 21, No. 1, pp. 237-249.
 
15.
Dzikuć M., Kułyk P., Dzikuć M., Urban S., Piwowar A. (2019), Outline of Ecological and Economic Problems Associated with the Low Emission Reductions in the Lubuskie Voivodeship (Poland) Polish Journal of Environmental Studies, Vol. 28, No. 1, pp. 1-8.
 
16.
Gavurova B., Perzelova I., Bencoova B. (2016), Economic aspects of renewable energy use - Application of support schemes based on a particular biogas plant in Slovakia, Acta Montanistica Slovaca, Vol. 21(3), pp. 217-228.
 
17.
Ghaffar A., Shahera A., Khalid B.M. (2018), Climate mitigation, low-carbon society, and dynamism of educational institutes in a low-income country, Environmental Science and Pollution Research, Vol. 25, No. 4, pp. 3775-3784.
 
18.
Kalembkiewicz J., Galas D., Sitarz-Palczak E. (2018), The Physicochemical Properties and Composition of Biomass Ash and Evaluating Directions of its Applications, Polish Journal of Environmental Studies, Vol. 27, No. 6, pp. 2593-2603.
 
19.
Kobus D., Iwanek J., Kostrzewa J., Mitosek G. (2016), Ocena jakości powietrza w strefach w Polsce za rok 2015. Instytut Ochrony Środowiska - Państwowy Instytut Badawczy, Poland, Warszawa, pp. 67.
 
20.
Kozłowski K., Dach J., Lewicki A., Cieślik M., Czekała W., Janczak D., Brzoski M. (2018), Laboratory Simulation of an Agricultural Biogas Plant Start-up, Chemical Engineering &Technology, Vol. 41, No. 4, pp. 711-716.
 
21.
Krauze-Biernaczyk M., Czarniecka P., Kociołek E. (2016), Roczna ocena jakości powietrza w województwie lubuskim, Wojewódzki Inspektorat Ochrony Środowiska w Zielonej Górze, Zielona Góra.
 
22.
Krauze-Biernaczyk M, Czarniecka P, Kociołek E. (2018), Roczna ocena jakości powietrza w województwie lubuskim, Wojewódzki Inspektorat Ochrony Środowiska, Zielona Góra.
 
23.
Kułyk P., Michałowska M. (2016), Consumer behaviour on the e-commerce market in the light of empirical research in Lubuskie Voivodeship, Management, Vol. 20, No. 1, pp. 239-255.
 
24.
Llano-Paz F., Calvo-Silvosa A., Antelo S.I., Soares I. (2018), Power generation and pollutant emissions in the European Union: A mean-variance model, Journal of Cleaner Production, Vol. 181, No. 20, pp. 123-135.
 
25.
Piwowar A., Adamczyk J., Dzikuć M. (2016), Agricultural biogas plants in Poland - selected technological, market and environmental aspects, Renewable and Sustainable Energy Reviews, Vol. 58, pp. 69-74.
 
26.
Piwowar A., Dzikuć M. (2016), Outline of the economic and technical problems associated with the co-combustion of biomass in Poland, Renewable and Sustainable Energy Reviews, Vol. 54 pp. 415-420.
 
27.
Singh H., Mohapatra S.K. (2018), Production of producer gas from sugarcane bagasse and carpentry waste and its sustainable use in a dual fuel CI engine: A performance, emission, and noise investigation, Journal of the Energy Institute, Vol. 91(1), pp. 43-54.
 
28.
Talbi B. (2017), CO2 emissions reduction in road transport sector in Tunisia, Renewable and Sustainable Energy Reviews, Vol. 69, pp. 232-238.
 
29.
Urban S., Dzikuć M. (2013), Wpływ na środowisko wytwarzania energii elektrycznej w elektrowniach opalanych węglem kamiennym, Ekonomia i Środowisko, No. 2 pp. 84-92.
 
30.
Usubharatana P., Phungrassami H. (2018), Life Cycle Assessment for Enhanced Efficiency of Small Power Plants by Reducing Air Input Temperature, Polish Journal of Environmental Studies, Vol. 27, No. 4, pp. 1781-1793.
 
31.
Woźniak J., Pactwa K. (2018), Responsible Mining-The Impact of the Mining Industry in Poland on the Quality of Atmospheric Air, Sustainability, Vol. 10, No. 4, pp. 1184-1200.
 
32.
Zarębska J., 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 pp. 97-102.
 
eISSN:2299-193X
ISSN:1429-9321 (1997-2019)
Journals System - logo
Scroll to top