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References Aizawa, Hirofumi, Hideto Yoshida, and Shin-ichi Sakai. “Current Results and Future Perspectives for Japanese Recycling of Home Electrical Appliances.” In Resources, Conservation and Recycling, 52, 2008, pp. 1399-1410 Anschütz, Justine, Jeroen IJgosse, and Anne Scheinberg. Putting Integrated Sustainable Waste Management into Practice: Using the ISWM Assessment Methodology. Gouda: WASTE, 2004 Baldé, Cornelis Peter, Feng Wang, Ruediger Kuehr, and Jaco Huisman. The Global E-waste Monitor - 2014. Bonn: United Nations University, IAS - SCYCLE, 2015 Barbour

References Aschemann-Witzel, J., de Hooge, I.E., Rohm, H., Normann, A., Bonzanini Bossle, M., Grønhøj, A., Oostindjer, M. (2017). Key characteristics and success factors of supply chain initiatives tackling consumer-related food waste – A multiple case study. Journal of Cleaner Production , 155(Part 2), 33-45. Beretta, C., Stoessel, F., Baier, U., Hellweg, S. (2013). Quantifying food losses and the potential for reduction in Switzerland. Waste Management , 33(3), 764-773. Bratianu, C. (2015). Developing strategic thinking in business education. Management

1 Introduction Clinical waste includes solid, liquid or gaseous substances produced in connection with rendering health services, as a result of diagnostic procedures, treatment, care and health prevention, as well as scientific research and experiments in the field of medicine [ Ustawa…2012 ]. Thirteen types of clinical waste are listed in the waste catalogue in sub-group 1801, which have further been divided into hazardous and other than hazardous waste (general waste) [ Rozporządzenie…2014 ]. As far as hazardous clinical waste is concerned, these are, for

References BÁREKOVÁ, A. – KAUFMAN, P. 2012. Proposal for a model composition of MSW in a rural area. In Acta horticulturae et regiotecturae, vol. 15, 2012, special number, pp. 13–15. ISSN 1335-2563. FRANEKOVÁ, Z. – BÁREKOVÁ, A. 2013. Zavádzanie separovaného zberu odpadu v prostredí vysokoškolského internátu. In Recenzovaný zborník z medzinárodnej vedeckej konferencie doktorandov a mladých vedeckých pracovníkov „Veda mladých 2013“. Jevíčko, 2013. s. 357–362. ISBN 978-80-552-1081-0. GIDAKAROS, E. et al. 2006. Municipal solid waste composition determination

References Bledzki A.: ( 1997 ), Recycling of Polymeric Materials, WNT, Warsaw (in Polish). GUS ( 2001 ), Industry Statistical Yearbook, Warsaw Plastics Waste Management Institute ( 1993 ), Plastics Recovery in Perspective, Report, Plastics Waste Management Institute, Brussels. Zevenhoven R.: et al. ( 1995 ), Laboratory Scale Characterisation of Plastics Derived Fuel, Report 95/3, Abo Akademi, Department of Chemical Engineering, Finland Hornbogen E., Bode R., Dooner P.: ( 1993 ), Recykling Materialwissenschaftliche Aspekte, Berlin-Haidelberg. Pickering S. J

References Bieniek, J. , Najman, E. , Romański, L. , Molendowski F. , Grabowski J. , Kończyło M. (2014). Analysis of municipal waste collected by the selected waste management establishments. Agricultural Engineering 2(150), 15-22. Błędzki A. K. (red.) (1997). Recykling materiałów polimerowych. Warszawa, Wyd. Naukowo- Techniczne, 1-236. Generowicz, A., Gąska K., (2014). Research on waste generation indicators for 40 thousand inhabitants community. Archives of Waste Management and Environmental protection Vol. 16, Issue 2, ISSN 1733-4381. Główny Urząd Statystyczny

References Wilkosz-Język A. Otrzymywanie fosforanu wapnia z mączki mięsno-kostnej, Praca doktorska, Politechnika Krakowska, 2007. Kowalski Z. Odpady mięsne a emisja odorów, Przegląd Komunalny, 2007, 1(184), 52 Kowalski Z., Konopka M., Krupa-Żuczek K., Wilkosz A. Animal Fat Recovery from Meat and Postflotation Waste and their Use as Substitute of Natural Gas, 10th Conference on Environment and Mineral Processing, VSB-TU Ostrava, Czech Republic 22-26.06.2006, 271. Kowalski Z., Kulczycka J. Cleaner production as a basic element for the sustainable development

References [1] Amol S. Bale, ‘Potential Reuse of Plastic Waste in Road Construction: A Review’, International Journal of Advanced Engineering Technology E-ISSN 0976-3945, Vol.II, Issue III, PG. NO. 233-236, July-September, 2011 [2] R.Sathishkumar and Dr.S.P.Jeyapriya, ‘Comparison of Strength Properties of Bitumen Mixed With Waste Materials As Modifier’, International Journal of Civil Engineering and Technology (IJCIET), Volume 4, Issue 4, PG. NO. 219-224, July-August 2013. [3] Afroz Sultana.SK, K.S.B. Prasad, ‘Utilization of Waste Plastic as a Strength Modifier

prehistory of bathing. Antiquity , 61 (233), 370-379. Ben-Yosef, E., Ron, H., Tauxe, L., Agnon, A., Genevey, A., Levy, T. E., & Najjar, M. (2008). Application of copper slag in geomagnetic archaeointensity research. Journal of Geophysical Research: Solid Earth , 113 (B8). Bilitewski B, Härdtle G, Marek K, Weissbach A and Boeddicker H. (1997). Waste management . Springer-Verlag, Berlin, Heidelberg, Germany. Blažek, J., Ernée, M., Smejtek, L. (1998). Die bronzezeitlichen Gussformen in Nordwestböhmen . Most. Budd, P., Taylor, T. (1995). The faerie smith meets the bronze

References Ademola-Aremu O.O., Aina O.M., Adetiloye A.O. 2009. Levels of lead, cadmium and chromium in Oreochromis niloticus in Lagos State Lagoon. Ethiopian J. Environ. Stud. Manage., 2(3): 13-18. Aina O.M. 2006. Wood waste utilization for energy generation. Proc. Int. Conf. Renewable Energy for Developing Countries. Aiyeloja A.A., Oladele A.T., Furo S.B. 2013. Sustaining livelihood through sawn wood marketing in Port Harcourt, Nigeria. Int. J. Sci. Nature, 4(1): 84-89. Ajanaku S.O. 2004. State Department of Forest, Secretariat, Chief Forestry Officer, Ibadan