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Transformations of mercury in processes of solid fuel combustion – review

synthetic fl ue gas, Fuel Processing Technology, 63, pp. 93-107. Bełdowska, M., Saniewska, D., Falkowska, L. & Lewandowska, A. (2012). Mercury in particulate matter over Polish zone of the southern Baltic Sea, Atmospheric Environment, 46, pp. 397-404. Bhardwaj, R., Chen, X. & Vidic, R.D. (2009). Impact of fl y ash composition on mercury speciation in simulated fl ue gas, Journal of the Air & Waste Management Association, 59(11), pp. 1331-1338. Bojakowska, I. & Sokołowska, G. (2001). Mercury in mineral raw materials exploited

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The Utilization of Rapeseed for Biofuels Production in the EU

References Serra , T. et al. 2009. Price Transmission in the US Ethanol Market. Handbook of Bioenergy Economics and Policy, Springer New York, vol. 33, 2009. The Market analysis Oils and Fats for Fuel. 2009. Productshap MVO, Product Board for Margarine, Fats and Oils. 2009. (online 2011-9-14). Thuijl, E. et al. 2003. An Overview of biofuel Technologies, markets and Policies in Europe. Energy research Centre of the Netherlands, 2003.

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Efficiency of the Methane Fermentation Process of Macroalgae Biomass Originating from Puck Bay / Wydajność Procesu Fermentacji Metanowej Biomasy Makroglonów Pochodzących Z Zatoki Puckiej

References [1] Berglund J., Mattila J., Ronnberg O., Heikkila J., Bonsdorff E.: Seasonal and inter-annual variation inoccurrence and biomass of rooted macrophytes and drift algae in shallow bays Estuarine , Coastal and Shelf Science, 56 , 1167-1175 (2003). [2] Brennan L., Owende P.: Biofuels from microalgae - A review of technologies for production, processing, and extractions of biofuels and co-products , Renewable and Sustainable Energy Reviews, 14, 557-577 (2010). [3] Demirbas A.: Use of algae as

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Surface Properties of Particles Emitted from Selected Coal-Fired Heating Plants and Electric Power Stations in Poland: Preliminary Results

, 85–102. [16] Konieczyński, J. & Komosiński, B. (2007). Measurements and investigations of emission of dust and gaseous pollutants from circulating fluidized bed boilers, Archives of Environmental Protection, 33, 3–13. [17] Kozielska, B. & Konieczyński, J. (2007). Polycyclic aromatic hydrocarbons in dust emitted from stokerfi red boilers, Environmental Technology , 28, 895–903. [18] Kozielska, B. & Konieczyński, J. (2008). Occurrence of polycyclic aromatic hydrocarbons in dust emitted from circulating fluidized bed boilers, Environmental Technology , 29

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E Ffectiveness of Intrinsic Biodegradation Enhancement in Oil Hydrocarbons Contaminated Soil

References [1] Atlas, R.M. & Bartha, R. (1998). Microbial Ecology: Fundamentals and Applications. Benjamin/Cummings Publishing, Menlo Park, CA 1998. [2] Bento, F.M., Camargo, F.A.O., Okeke, B.C. & Frankenberger, W.T. (2005). Comparative bioremediation of soils contaminated with diesel oil by natural attenuation, biostimulation and bioaugmentation, Bioresource Technology, 96, 1049-1055. [3] Capelli, S.M., Busalmen, J.P. & Sanchez, S.R. (2001). Hydrocarbon bioremediation of a mineral-base contaminated waste from

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A novel process of dye wastewater treatment by linking advanced chemical oxidation with biological oxidation

References Chen, C., Wu, P. & Chung, Y. (2009). Coupled biological and photo-Fenton pretreatment system for the removal of di-(2-ethylhexyl) phthalate (DEHP) from water, Bioresource Technology , 100, 19, pp. 4531–4534. Chen, S., Sun, D. & Chung, J. (2007). Treatment of pesticide wastewater by moving-bed biofilm reactor combined with Fenton-coagulation pretreatment, Journal of Hazardous Materials , 144, 1, pp. 577–584. Chu, L., Wang, J., Dong, J., Liu, H. & Sun, X. (2012). Treatment of coking wastewater by an advanced Fenton oxidation process

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Numerical modelling of oil spill in New York Bay

:// (10.12.2014)). Elliot, A.J. & Hurford, N. (1989). The influence of wind and wave shear on the spreading of a plume at sea, Oil and Chemical Pollution, 5, 347-363. doi: 10.1016/S0269-8579(89)80025-5. Fay, J.A. (1969). The spread of oil slicks on a Calm Sea, Fluid Mechanics Laboratory, Dept. of Mech. Eng. , MIT, Cambridge, Mass. doi: 10.1007/978-1-4684-9019-0_5. Fingas, M. (2011). Evaporation modeling, Oil Spill Science and Technology, (1), pp. 201-242. Fingas, M. (2013). Modeling oil and

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Adsorptive removal of pentachlorophenol from aqueous solutions using powdered eggshell

References Abdel Salam, W. & Burk, R.C. (2010). Thermodynamics and kinetics studies of pentachlorophenol adsorption from aqueous solutions by multi-walled carbon nanotubes, Water, Air, & Soil Pollution , 210, pp. 101–111. Abdel-Ghani, N.T., El-Chaghaby, G.A. & Zahran, E.M. (2015). Pentachlorophenol (PCP) adsorption from aqueous solution by activated carbons prepared from corn wastes, International Journal of Environmental Science and Technology , 12, pp. 211–222. Ali, I., Asim, M. & Khan, T.A. (2012). Low cost adsorbents for the removal of

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Coal Cleaning Versus the Reduction of Mercury and other Trace Elements’ Emissions from Coal Combustion Processes

, Kraków 2009. [4] Brown, T.D., Smith, D.N., O’Dowd, W.J. & Hargis Jr, R.A. (2000). Fuel Processing Technology, 311, 65-66. [5] Central Statistical Offi ce, (2011), Environment 2011, Warsaw. [6] Davidson, R.M., Reeve D.A., Slos L.L. & Smith I.M. (2003). Trace Elements - Occurrence, Emissions and Control. IEA Clean Coal Centre 2003. [7] Diaz-Somoano M., Unterberger S. & Hein K.R.G. (2007). Fuel Processing Technology, 88, 259-263. [8] Dunham, G.E., Miller, S.J., (1998). Environmental Progress

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Post-Digestion Liquor Treatment in the Method Combining Chemical Precipitation with Reverse Osmosis

References [1] Ahn, Y.H., Hwang, I.S. & Min, K.S. (2004). ANAMMOX and partial denitrifition in anaerobic nitrogen removal from piggery waste, Water Science Technology , 49, 145–153. [2] Appels, L., Baeyens, J., Degréve, J. & Dewil, R. (2008). Principles and potential of the anaerobic digestion of waste-activated sludge, Progress in Energy and Combustion Science , 34, 755-781, DOI:10.1016/j. pecs.2008.06.002. [3] Bitton, G. (2005). Wastewater microbiology, Wiley-Liss, New Jersey. [4] Boe, K. (2006). Online monitoring and control of the biogas process

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