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ENERGY PRODUCTION FROM BLACK SEA WATER BY SULFIDE-DRIVEN FUEL CELL
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References28
. Demirbas A., Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, vol.31, pp. 1866-1872, 2009.
. Midilli A., Ay M., Kale A., Nejat Veziroglu T., A parametric investigation of hydrogen energy potential based on H 2S in Black sea deep water, Int. J. Hydrogen Energy, vol. 32 pp. 117-124, 2007.
. Vasilevsky V.V., Gutsevich E.I., Rusanov V.D., Possibility of selective dissociation of hydrogen sulfide to hydrogen and sulfur in the mixture with hydrocarbons at UV radiation (in Russian), Khim. Vys. Energ., vol. 25, pp. 382-386, 1995.
. Mahmadmuratov A., Gruzdkov Yu.A., Savinov E.N., Photochemical decomposition of hydrogen sulfide immobilized as sulfide on the surface of cadmium and zinc (in Russian), Kinetics and Catalysis, vol. 27/issue 1, pp.133-136, 1986.
Diver R.B., Fletcher E.A., Hydrogen and sulfur from H2S-III. The economics of a quench proce ss, Energy, vol. 10, pp. 831–842, 1985.
. Dutta P.K., Rabaey K., Yuan Z., Keller J., Spontaneous electrochemical removal of aqueous sulfide, Water Research, vol. 42, 4965-4975, 2008.
. Reimers C.E. , Girguis P., Stecher H.A. , Tender L.M., Ryckelynck N., Whaling P., Microbial fuel cell energy from an ocean cold seep, Geobiology, vol. 4/issue 2 , pp.123-136, 2006.
. В. Бешков, Вл. Христов, П. Петков, Метод и инсталация за директен добив на електроенергия от придънна морска вода, съдържаща сулфиди, Патентно ведомство на Р България, патент за полезен модел, №1775/25.11.2013
. Kwiyong Kim, Jong-In Han, Performance of direct alkaline sulfide fuel cell without sulfur deposition on anode, Int. J. Hydrogen Energy, vol. 39, pp. 7142-7146, 2014.
.Yu-Qian F ., Hai -Bo S ., Jian -Ming W ., Liang L ., Jian -Qing Z ., Chu -Nan C. , Discharge performance of alkaline sulfide fuel cells using non -precious anode catalysts, Acta Phys-Chim Sin., vol. 28, pp. 90-94, 2012.
. Dermendzhieva N., Razkazova-Velkova E., Martinov M., Ljutzkanov L., Beschkov V., Study of the influence of different catalysts on the rate of oxidation of sulfide ions in model solutions of sea water, Journal of Chemical Technology & Metallurgy, vol. 49/issue 5, pp. 459-462, 2014.
. Rees T.D., Gyllenpetz A.B., Dochery A.C., Determination of trace amounts of sulphide in condensed steam with N’N -diethyl-p-phenylenediamine,Analyst, vol. 96, pp. 201-208,1971.
. APHA, AWWA, WPCF (1998) Standard methods for the examination of water and wastewater. 20th edn. American Public Health Association, Washington, DC.
. Merle G., Wessling M., Nijmeijer K., Anion exchange membranes for alkaline fuel cells: A review, J. Membrane Sci., vol. 377, pp. 1– 35, 2011. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
. Demirbas A., Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, vol.31, pp. 1866-1872, 2009.
. Midilli A., Ay M., Kale A., Nejat Veziroglu T., A parametric investigation of hydrogen energy potential based on H 2S in Black sea deep water, Int. J. Hydrogen Energy, vol. 32 pp. 117-124, 2007.
. Vasilevsky V.V., Gutsevich E.I., Rusanov V.D., Possibility of selective dissociation of hydrogen sulfide to hydrogen and sulfur in the mixture with hydrocarbons at UV radiation (in Russian), Khim. Vys. Energ., vol. 25, pp. 382-386, 1995.
. Mahmadmuratov A., Gruzdkov Yu.A., Savinov E.N., Photochemical decomposition of hydrogen sulfide immobilized as sulfide on the surface of cadmium and zinc (in Russian), Kinetics and Catalysis, vol. 27/issue 1, pp.133-136, 1986.
Diver R.B., Fletcher E.A., Hydrogen and sulfur from H2S-III. The economics of a quench proce ss, Energy, vol. 10, pp. 831–842, 1985.
. Dutta P.K., Rabaey K., Yuan Z., Keller J., Spontaneous electrochemical removal of aqueous sulfide, Water Research, vol. 42, 4965-4975, 2008.
. Reimers C.E. , Girguis P., Stecher H.A. , Tender L.M., Ryckelynck N., Whaling P., Microbial fuel cell energy from an ocean cold seep, Geobiology, vol. 4/issue 2 , pp.123-136, 2006.
. В. Бешков, Вл. Христов, П. Петков, Метод и инсталация за директен добив на електроенергия от придънна морска вода, съдържаща сулфиди, Патентно ведомство на Р България, патент за полезен модел, №1775/25.11.2013
. Kwiyong Kim, Jong-In Han, Performance of direct alkaline sulfide fuel cell without sulfur deposition on anode, Int. J. Hydrogen Energy, vol. 39, pp. 7142-7146, 2014.
.Yu-Qian F ., Hai -Bo S ., Jian -Ming W ., Liang L ., Jian -Qing Z ., Chu -Nan C. , Discharge performance of alkaline sulfide fuel cells using non -precious anode catalysts, Acta Phys-Chim Sin., vol. 28, pp. 90-94, 2012.
. Dermendzhieva N., Razkazova-Velkova E., Martinov M., Ljutzkanov L., Beschkov V., Study of the influence of different catalysts on the rate of oxidation of sulfide ions in model solutions of sea water, Journal of Chemical Technology & Metallurgy, vol. 49/issue 5, pp. 459-462, 2014.
. Rees T.D., Gyllenpetz A.B., Dochery A.C., Determination of trace amounts of sulphide in condensed steam with N’N -diethyl-p-phenylenediamine,Analyst, vol. 96, pp. 201-208,1971.
. APHA, AWWA, WPCF (1998) Standard methods for the examination of water and wastewater. 20th edn. American Public Health Association, Washington, DC.
. Merle G., Wessling M., Nijmeijer K., Anion exchange membranes for alkaline fuel cells: A review, J. Membrane Sci., vol. 377, pp. 1– 35, 2011. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
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