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Issue DateTitleAuthor(s)
2015Carbon-free gasoline engine operationMagaril, E.
2020A CPFD Model to Investigate the Influence of Feeding Positions in a Gasification ReactorJaiswal, R.; Furuvik, N. C. I. S.; Thapa, R. K.; Moldestad, B. M. E.
2017The development of a high temperature air heating unit based on the external combustion for integrated gasification combined cycleValtsev, N. V.; Mikula, V. A.; Ryzhkov, A. F.
2023Economic Feasibility of Gasification Scenarios in Remote Areas (the Case of Sverdlovsk Region, Russia)Chebotareva, G. S.; Dvinayninov, A. A.; Чеботарева, Г. С.; Двинянинов, А. А.; 切博塔列娃, 加林娜·谢尔盖耶夫娜; 德温亚尼诺夫, 阿尔乔姆·安德烈耶维奇
2022Environmental Impacts of Waste-to-Energy Processes in Mountainous Areas: the Case of an Alpine RegionTubino, M.; Adami, L.; Schiavon, M.
2020Experimental and Computational Studies of Circulating Fluidized BedMoradi, A.; Samani, N. Ah.; Mojarrad, M.; Sharfuddin, M.; Bandara, Ja. C.; Moldestad, B. M. E.
2019Experimental and Computational Studies on Biomass Gasification in Fluidized BedsBasmoen, T.; Deeraska, Ch.; Nwosu, Ch.; Qaredaghi, E.; Jaiswal, R.; Furuvik, N. C. I.; Moldestad, B. M. E.
2016Experimental and computational study and development of the bituminous coal entrained-flow air-blown gasifier for IGCCAbaimov, N. A.; Osipov, P. V.; Ryzhkov, A. F.
2022Integrated AHP-TOPSIS under a Fuzzy Environment for the Selection of Waste-To-Energy Technologies in Ghana: A Performance Analysis and Socio-Enviro-Economic Feasibility StudyAfrane, S.; Ampah, J. D.; Agyekum, E. B.; Amoh, P. O.; Yusuf, A. A.; Fattah, I. M. R.; Agbozo, E.; Elgamli, E.; Shouran, M.; Mao, G.; Kamel, S.
2023Investigation into the operation of an autothermal two-section subbituminous coal fluidized bed gasifierAbaimov, N.; Ryzhkov, A.; Dubinin, A.; Ding, L.; Tuponogov, V.; Alekseenko, S.
2018Investigation of coal entrained-flow gasification in O 2 -CO 2 mixtures for oxy-fuel IGCCRalnikov, P. A.; Abaimov, N. A.; Ryzhkov, A. F.
2022Mobile power generation system based on biomass gasificationDing, L.; Yang, M.; Dong, K.; Vo, D. -V. N.; Hungwe, D.; Ye, J.; Ryzhkov, A.; Yoshikawa, K.
2019Potentials of the Waste-to-Energy Sector for an Unconventional District Heating SystemRagazzi, M.; Ferrari, K.; Adami, L.; Schiavon, M.; Rada, E. C.
2020Selecting the design of a high-temperature air heater for integrated gasification combined cycleValtsev, N. V.; Ryzhkov, A. F.
2018SOFC power plant with circulating fluidized bed gasifierVolkova, Y. V.; Munts, V.; Choynzonov, D. B.; Plotnikov, N. S.
2020Solid-Recovered Fuel to Liquid Conversion Using Fixed Bed Gasification Technology and a Fischer–Tropsch Synthesis Unit – Case StudyČespiva, J.; Skřínský, J.; Vereš, J.; Borovec, K.; Wnukowski, M.
2016Study of the two-stage gasification process of pulverized coal at the hydrodynamic flow separationKuznetsov, V.; Chernetskiy, M.; Ryzhkov, A.
2017Study of the two-stage gasification process of pulverized coal with a combined countercurrent and concurrent flow systemKuznetsov, V.; Chernetskiy, M.; Abaimov, N.; Ryzhkov, A.
2020Technical and economical evaluation of a high-temperature air heater intended for integrated gasification combined cycle unitValtsev, N. V.; Ryzhkov, A. F.
2018Waste-to-energy options within a circular economy strategy in a developing country: the case of the bio bio region in ChileGonzález, P.; Riveros, S.; Concha, S.; Casas, Ya.
Showing results 1 to 20 of 56  next >