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Energy Recovery from Municipal Waste based on Moving Grate Technology


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Adams, B., Peeters, K., Eeraerts, D., Diederen, H.S.W., Wijnhoven, J.P.F. (2004). Seghers boiler prism: a proven primary measure against high temperature boiler corrosion. Savannah, 12th Annual North American Waste to Energy Conference, 17-19.05.2004.10.1115/NAWTEC12-2227Search in Google Scholar

Bogalea, W., Viganòa, F. (2014). A preliminary comparative performance evaluation of highly efficient Waste-to-Energy plants. Energy Procedia, 45, 1315-1324.10.1016/j.egypro.2014.01.137Search in Google Scholar

CEWEP – Confederation of European Waste-to-Energy Plants (2012). Recycling and Waste-to-Energy in combination for sustainable waste management. CEWEP, Brussels. Obtained from: http://www.cewep.eu/m_1038.Search in Google Scholar

Cheremisinoff, N.P. (2003). Handbook of Solid Waste Management and Waste Minimization Technologies. 1 Edition. Butterworth-Heinemann. ISBN 0-7506-7507-1.Search in Google Scholar

Consonni, S., M. Giugliano, M., Grosso, M. (2005). Alternative strategies for energy recovery from municipal solid waste. Part A: mass and energy balances. Waste Management, 25, 123-135.10.1016/j.wasman.2004.09.00715737710Search in Google Scholar

European Union (2000). Directive 2000/76/EC of the European Parliament and the Council of 4 December 2000 on the incineration of waste. Official Journal of the European Communities, 28/12/2000.Search in Google Scholar

European Union (2008). Directive 2008/98/EC of the European Parliament and the Council of 19 November 2008 on Waste and Repealing Certain Directives. Official Journal of the European Union, 22/11/2008.Search in Google Scholar

EPRI – Electric Power Research Institute (2011). Waste-to-Energy Technology – Opportunities for Expanding Renewable Generation & Reducing Carbon Emissions. EPRI, Palo Alto. Obtained from: http://www.epri.com/abstracts/Pages/ProductAbstract.aspx?ProductId=0000000001022361.Search in Google Scholar

Fodor, Z., Klemes, J.J. (2012). Waste as alternative fuel – Minimising emissions and effluents by advanced design. Process Safety and Environmental Protection, 90, 263-284.10.1016/j.psep.2011.09.004Search in Google Scholar

Granatstein, D. (2011). Technoeconomic Assessment of Fluidized Bed Combustors as Municipal Solid Waste Incinerators. Reno, 16th ASME International Conference on Fluidized Bed Combustion, 13-16.05.2001. Obtained from: http://ieabioenergytask36.org/documents/studies/Summary_of_Six_Case_Studies.pdf.Search in Google Scholar

Grillo, L. (2013). Municipal solid waste (MSW) combustion plants. [w]: Klinghoffer N. Waste to Energy Conversion Technology, Woodhead Publishing, ISBN 978-0-85709-011-9.Search in Google Scholar

Howes, P., Warren, K. (2013). Integration of Thermal Energy Recovery into Solid Waste Management. Paris. Obtained from: http://www.ieabioenergytask36.org/vbulletin/attachment.php?attachmentid=382&d=1396884184.Search in Google Scholar

Madsen, O. H. (2007). Next Generation of Waste Fired Power Plants. Miami, NAWTEC 15, 21–23.05.2007. Obtained from: http://www.volund.dk/Waste_to_Energy/media/Downloads/Conference%20papers%20-%20WTE/NAWTEC%2015%20-%20Next%20Generation%20of%20waste-fired%20power%20plants.ashx.Search in Google Scholar

Madsen, O. H., Bøjer, M., Jensen, P. A., Dam-Johansen, K. (2008). High Electrical Efficiency by Dividing The Combustion Products. Philadelphia, NAWTEC16, 19-21.05.2008. Obtained from: http://www.volund.dk/Waste_to_Energy/~/media/Downloads/Conference%20papers%20-%20WTE/NAWTEC%2016%2020High%20electrical%20efficiency%20by%20dividing%20the%20combustion%20products.ashx.Search in Google Scholar

HZI – Hitachi Zosen Inova AG, (2014). The Inova Grate – New standard in combustion technologist. Booklet, Zurich. Obtained from: http://www.hz-inova.com/cms/wp-content/uploads/2014/11/HZI_Grate.pdf.Search in Google Scholar

IPPC – Integrated Pollution Prevention and Control (2006), BREF, Reference Document on the Best Available Techniques for Waste Incineration. IPPC, Seville. Obtained from: http://eippcb.jrc.ec.europa.eu/reference/BREF/wi_bref_0806.pdf.Search in Google Scholar

ISWA – the International Solid Waste Association (2012). Waste-to-Energy State-of-the-Art-Report Statistics, 6th Edition. ISWA, Copenhagen. Obtained from: http://www.waste-managementworld.com/content/dam/wmw/online-articles/documents/2013/ISWA_WtE_State_of_theArt_Report_2012_08_FV.pdf.Search in Google Scholar

Kamuk, B. (2013), Waste to Energy in low and middle income countries. ISWA, Vienna. Obtained from: https://www.iswa.org/index.php?eID=tx_iswaknowledgebase_download&documentUid.Search in Google Scholar

Klinghoffer, N. (2013). Waste to energy (WTE): an introduction. [w]: Klinghoffer N. Waste to Energy Conversion Technology, Woodhead Publishing, ISBN 978-0-85709-011-9.Search in Google Scholar

Lamers, F., Fleck, E., Pelloni, L., Kamuk, B. (2013). White Paper on Alternative Waste Conversion Technologies. ISWA. Obtained from: www.iswa.org/index.php?eID=tx_iswaknowledgebase_download&documentUid=3155.Search in Google Scholar

Lee, S. H. (2009). High-Temperature Corrosion in Waste-to-Energy Boilers. New York, Columbia University. Obtained from: http://www.seas.columbia.edu/earth/wtert/sofos/lee_phd_thesis.pdf.Search in Google Scholar

Lichtenbelt, E. (2014). Clean and valuable solutions for your waste streams. AEB Amsterdam, Utrecht. Obtained from: www.vvm.info/file.php?id=2740.Search in Google Scholar

Liuzzo, G., Verdone, N., Bravi, M. (2007). The benefits of flue gas recirculation in waste incineration. Waste Management, 27, 106-116.10.1016/j.wasman.2006.01.00216516458Search in Google Scholar

Lombardi, L., Carnevale, E., Corti, A. (2014). A review of technologies and performances of thermal treatment systems for energy recovery from waste. Waste Management, 37, 26-44.10.1016/j.wasman.2014.11.01025535103Search in Google Scholar

Michaels, T. (2010). The 2010 ERC Directory of Waste-to-Energy Plants. The Energy Recovery Council, Arlington. Obtained from: http://www.energyrecoverycouncil.org/userfiles/ile/ERC_2010_Directory.pdf.Search in Google Scholar

Nelles M., Dorn, T., Wu, K., Cai, J. (2011). Status and perspectives of waste incineration in China. Hong Kong, International Conference on Solid Waste 2011 – Moving Towards Sustainable Resource Management, 2–6.05.2011. Obtained from: http://www.iswa.org/uploads/tx_iswaknowledgebase/10_Thermal_Technology.pdf.Search in Google Scholar

Reimann, D. (2012). Energy Report III (Status 2007-2010). CEWEP, Bamberg. Obtained from: http://www.cewep.eu/m_1069.Search in Google Scholar

Rogoff, M., Screve, F. (2011). Waste-to-Energy: Technologies and Project Implementation. 2nd Edition, Elsevier, ISBN 978-1-4377-7871-7.Search in Google Scholar

Socotec, (2009). Raport o oddziaływaniu przedsięwzięcia pn.”Budowa Zakładu Termicznego Przekształcania Odpadów przy ul. Giedroycia w Krakowie” jako element projektu “Program gospodarki odpadami komunalnymi w Krakowie”. Socotec, Warszawa. Obtained from: www.khk.krakow.pl/kiovwdkjovxfbd3a9.file.pdf.Search in Google Scholar

Stehlik, P. (2009). Contribution to advances in waste-to-energy technologies. Journal of Cleaner Production, 17, 919-931.10.1016/j.jclepro.2009.02.011Search in Google Scholar

Takano, M. (2015). Grate Combustion for Mixed MSW. Hyderabad, 3rd International Brainstorming Workshop on “Sustainable Municipal Solid Waste Management in India”, 29-30.01.2015. Obtained from: http://www.iea.org/media/topics/energyefficiency/emak/wshop6/S2.5MakotoTakano.pdf.Search in Google Scholar

Themelis, N.J., Mussche, C. (2013). Municipal solid waste management and Waste-to-Energy in the United States, China and Japan. Houthalen-Helchteren, 2nd International Academic Symposium on Enhanced Landfill Mining, 14-16.10.2013. Obtained from: http://www.elfm.eu/Uploads/ELFM/FILE_73D907E9-8225-4B93-91F8-10F71F59B793.PDF.Search in Google Scholar

Umweltbundesamt. (2010). Sprawdzone metody gospodarowania odpadami komunalnymi. Obtained from: http://www.umweltbundesamt.de/sites/default/files/podrecznik.pdf.Search in Google Scholar

Van Berlo, M. (2007). Unleashing the power in waste – A great potential that should not be wasted - CO2 and other performance indicators for WtE. Malmo, ISWA BEACON conference. Obtained from: http://www.iswa.org/uploads/tx_iswaknowledgebase/wte6.pdf.Search in Google Scholar

Van Berlo, M. (2012). Waste-to-Energy Facilities as Power Plants. [w]: Kaltschmitt M. et al. Renewable Energy Systems, Springer, ISBN 978-1-4614-5819-7.Search in Google Scholar

Velzy, C., Grillo, L. (2007). Waste-to-Energy Combustion. [w]: Kreith F., Goswami D.Y. Handbook of Energy Efficiency and Renewable Energy, CRC Press, ISBN 978-0-8493-1730-9.Search in Google Scholar