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Design and simulation of high purity biodiesel reactive distillation process

: A review. Renewable Energy 36(2), 437–443. 4. Thangaraj, B., Solomon, P.R., Muniyandi, B., Ranganathan, S. & Lin, L. (2018). Catalysis in biodiesel production—a review. Clean Energy 10.1093/ce/zky020, zky020-zky020. 5. Bateni, H., Saraeian, A., Able, C. & Karimi, K. (2019). Biodiesel Purification and Upgrading Technologies In M. Tabatabaei & M. Aghbashlo (Eds), Biodiesel: From Production to Combustion (pp. 57–100). Basel. Switzerland: Springer, Cham. 6. Ambat, I., Srivastava, V. & Sillanpää, M. (2018). Recent advancement in biodiesel

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Phosphorus recovery from waste - methods review

.: Physical and chemical characterisation of crude meat and bone meal combustion residue: "waste or raw material?" J. Hazard. Mater. , 2005 , B121, 141 - 148. Price G.: Castle's alternative action, 2006 , World Cement , 37 , 6, 41 - 45. Conesa J. A., Fullana A., Font R.: Dioxin production during the thermal treatment of meat and bone meal residues, Chemosphere, 2005 , 59, 85 - 90. Bragança S. R., Bergmann C. P.: Production of bone porcelain and characterization of its technical properties

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Flame Retardant and Antimicrobial Jute Textile Using Sodium Metasilicate Nonahydrate

. Rowell, R.M. & Dietenberger, M.A. (2013). Handbook of Wood Chem. and Wood Composites. In R.M. Rowell (Eds.), Thermal properties, combustion and fire retardancy of wood (pp. 127–149). Taylor & Francis Group: London Newwork CRC press. 8. Helmstetter, J.G. (1995). U.S. Patent No.5453119A. Washington, DC: U.S. Patent and Trademark Office. 9. Slimak, K.M., & Slimak, R.A. (2001). U.S. Patent No. US6303234B1. Washington, DC: U.S. Patent and Trademark Office. 10. Huang, H., Williams, S.K., Sims, C.A. & Simmone A. (2011). Sodium metasilicate affects antimicrobial

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The effect of industrial wastes and municipal sewage sludge compost on the quality of virginia fanpetals (SIDA HERMAPHRODITA RUSBY) biomass Part 1. Macroelements content and their upatke dynamics

References Maciak, F. & Hrynkiewicz S. (1990). Agricultural land reclamation of derelict areas with heat and power plant ash application. Study commissioned by the Żerań Heat and Power Plant, Warszawa [in Polish]. Meller, E., Niedźwiedzki, E., & Meller, E. (2001). The properties of ash from combustion at the Dolna Odra Power Plant stored on a plant landfill site. Fol. Univ. Stetinensis, Agricultura 78: 167-178 [in Polish]. Stankowski, S. & Krzywy, E. (2004). The content of primary

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Graphene oxide-assisted synthesis of LiMn2O4 nanopowder

al. (2007). Effect of particle dispersion on high rate performance of nano-sized Li4Ti5O12 anode. Electrochimica Acta 52, 6470-6475. DOI: 10.1016/j.electacta.2007.04.070. 5. Tarascon, J.M. & Armand, M. (2001). Issues and challenges facing rechargeable lithium batteries. Nature 414, 359-367. DOI: 10.1038/35104644. 6. Kovacheva, D. et al. (2002). Synthesizing nanocrystalline LiMn 2 O 4 by a combustion route. J. Mater. Chem. 12, 1184-1188. DOI: 10.1039/b107669h. 7. Thackeray, M.M. (1997). Manganese oxides for

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Biodiesel production from Argemone mexicana seed oil using crystalline manganese carbonate

-9534(00)00014-3. Crabbe, E., Nolasco-Hipolito, C., Kobayashi, G., Sonomoto, K. (2001). Process Biochem. Ishizaki. 37-65. Muniyappa, P. R., Brammer, S. C. & Noureddini, H. (1996). Improved conversion of plant oils and animal fats into biodiesel and co-product. Bioresour. Technol. 56, 19-24. doi: 10.1016/0960-8524(95)00178-6. Graboski, M. S. & Mc Cormick, R. L. (1998). Combustion of fat and vegetable oil derived fuels in diesel engines. Prog. Energy Combust. Sci. 24, 125-129. doi:10.1016/S0360

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Feasibility of municipal solid waste (MSW) as energy sources for Saudi Arabia’s future Reverse osmosis (RO) desalination plants

Bank. (2012). Renewable Energy Desalination: An Emerging Solution to Close the Water Gap in the Middle East and North Africa. Washington, DC World Bank. DOI: 10.1596/978-0-8213-9. 22. KACARE. (2013). Towards Sustainable Energy and Mission Driven Research. Sustainable Energy Technologies Centre seminar. 19 April, 2013. King Saud University. Riyadh, Saudi Arabia. 23. US Environmental Protection Agency. (n.d.). Advancing Sustainable Materials Management: Facts and Figures. Retrieved May 22, 2015, from http://www.epa.gov/osw/nonhaz/municipal/combustion

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Simultaneous thermodynamic simulation of CNG filling process

References 1. Mansha, M., Saleemi, A.R., Javed, S.H. & Nadeem F., (2011). Analysis of a Detailed Kinetic Model of Natural Gas Combustion in IC Engine, Pol. J. Chem. Technol., 13, 1, 6-15, DOI: 10.2478/v10026-011-0002-0. 2. Farzaneh-Gord, M., Rahbari, HR. & Nikofard, H. (2012), The effect of important parameters on the natural gas vehicles driving range, Pol. J. Chem. Technol., 14, 4, 61-68. DOI: 10.2478/v10026-012-0104-3. 3. National Iran Oil Products Distribution Company website available at: WWW

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The effect of ash and compost on the content and bioaccumulation of selected heavy metals

. Circulation of elements in nature (NE Poland). Monografia, 2, 634–642. 12. Kucowski, J., Laudyn, D. & Przekwas, M. (1997). Energetics and the Environment. (NE Poland).WNT, Warszawa, s:484. 13. Kabata-Pendias, A. & Pendias, H. (2000).Trace Elements in Soils and Plants. (3 rded.) CRC Press, ss. 413. 14. Michałowski, M. & Gołaś, J. (2001). Heavy metal content in the bodies of willows as an indicator of her use in the disposal of sewage sludge. (NE Poland). Zesz. Probl. Postęp. Nauk Rol. 477, 411–419. 15. Krzywy-Gawrońska, E. (2013). Effect of combustion

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Cobalt-lanthanum catalyst precursors for ammonia synthesis: determination of calcination temperature and storage conditions

combustion. J. Therm. Anal. Calorim . 90(2), 393–397. DOI: 10.1007/s10973-006-7603-5. 27. Karolewska, M., Wójcik, P., Truszkiewicz, E., Narowski, R. & Raróg-Pilecka, W. (2012). Co-precipitation as an effective method for preparation of cobalt catalysts for ammonia synthesis. Przem. Chem. 91(11), 2142–2145 [in Polish]. 28. Zybert, M. (2015). Preparation, properties and activity of the promoted cobalt catalysts for ammonia synthesis . Doctoral dissertation, Warsaw University of Technology, Warsaw [in Polish]. 29. Neumann, A. & Walter, D. (2006). The

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