TY - JOUR T1 - Implementation of Nuclear Power Plants instead of “Kosovo A and B” Power Plants as the only Rescue of Coal Resources in the Republic of Kosovo AU - Beluli, V. M. PY - 2019 DA - March DO - 10.1501/nuclear_0000000046 JF - Journal of Nuclear Sciences PB - Ankara University WT - DergiPark SN - 2147-7736 SP - 34 EP - 42 VL - 5 IS - 2 LA - en AB - Kosovo as a state in Europe poses a serious problem of air pollution, due to the production of electricity from Kosovo Aand Kosovo B coal fired-power plants, which use coal as fuel. Although Kosovo possesses large coal reserves, the monetaryincome from the production of electric power from the Coal-Fires Power Plants is very low and too much coal spending,which is a huge resource loss as well as a very valuable natural resource for future generations. Implementation of nuclearreactors may bring profits to this country and coal could have been sold as a raw material in various sectors, thus probablythe state could earn about half a billion euros each year, this is due to the non-construction of a nuclear power plant. Kosovois losing more than 2 billion amounts euro of coal-fired coal for 18 years due to coal-fired power plants. During 2017,Kosovo produced 5 300 000 MWh of electricity. Kosovo had also extracted 8 million tons of coal to produce electricity,while a nuclear reactor needs about 264.99 kg of 235U per year. The aim of this research is to highlight the increment of theprice of electricity in the region of Kosovo and therefore standing as a big obstacle to foreign investment. KW - Kosovo KW - power plants KW - coal KW - pollution KW - nuclear reactors CR - 1]. A. H. Veliu, A. M. Syla, K. Berisha 26th Annual American Association for Aerosol Research Conference, September pp. 24 – 28, in Reno, Nevada – USA, (2007).[2]. N. M. Daci, M. N. Daci- Ajvazi, “Shkenca e Mjedisit”, pp.59-60,63, 65,66, Prishtinë, (2014)[3]. P. Lang, “Nuclear Power Learning and Deployment Rates”, Disruption and Global Benefits Forgone. Energies. 10(12):2169. (2017)[4]. J. Serp, C. Poinssot, S. Bourg. “Assessment of the Anticipated Environmental Footprint of Future Nuclear Energy Systems. Evidence of the Beneficial Effect of Extensive Recycling”. Energies. 10(9):1445. (2017)[5]. I. Filipoviq , S. Lipanoviq. “Kimia e Përgjithshme” pp.631,Universiteti i Prishtinës, (1997)[6]. S. Malaj, F. Hasani, B. Daci. “Radiokimia”, pp. 54, 62-63, Prishtinë, (2014)[7]. http://kek-energy.com/kek/termocentrali-kosova-a/[8]. http://kek-energy.com/kek/termocentrali-kosova-b/[9].http://kek-energy.com/kek/divizioni-qymyrit/historiku-i-divizionit-te-prodhimit-te-qymyrit/[10]. I. Filipoviq, S. Lipanoviq, “Kimia Inorganike”, p.1052, Prishtinë, (1997).[11]. D. F. Shriver, P.W. Atkins, T. L. Rourke, M. T. Weller, F. A. Armstrong. “Kimia Inorganike”. p.583, Oxford UK, (2009). [12]. J. W. Hill, R. H. Petrucci, T. W. McCreary, S. S. Perry, “Kimia e Përgjithshme”, p. 811, SHBA, (2014).[13]. U.S. Nuclear Regulatory Commission Office of Public Affairs Washington, DC Volume 24 (August 2012).http://large.stanford.edu/courses/2015/ph241/zarubin1/docs/ML12241A166.pdf [14]. A. Gabbar, C.A. Stoute, D. Bondarenko, N. Tarsitano, A. Abdel Rihem, S. Sirakov, S. Jani. S, Menashi S. X-Pinch. “Plasma Generation Testing for Neutron Source Development and Nuclear Fusion”. Energies. 11(4):988, (2011).[15]. K. Krane, “Fizika Moderne”, p. 456, Tiranë, (2003).[16].http://www.worldnuclear.org/uploadedfiles/org/info/pdf/economicsnp.pdf[17].https://www.euronuclear.org/info/encyclopedia/f/fuelcomparison.htm UR - https://doi.org/10.1501/nuclear_0000000046 L1 - https://dergipark.org.tr/en/download/article-file/659565 ER -