Mikheev A.V., Potanina Y.M. Technical-economic evaluation of medium-power gas turbine plant with air bottoming cycle // E3S Web of Conferences. Vol.114. ID: 07005. 2019. DOI: 10.1051/e3sconf/201911407005 A developed mathematical model of a gas turbine power plant with an additional air bottoming cycle to utilize heat of exhaust gases was used to carry out a technical and economic analysis. The approach used in the study is aimed at solving two types of optimization problems: (1) to determine the...
Теги: air bottoming cycle , efficiency , electric power , gas turbine , gas-turbine plant , waste heat recovery , combustion , costs , electric power generation , exhaust gases , gas turbine power plants , gas turbines , natural gasoline plants , waste heat , waste heat utilLachkov G., Fedyaev A. Cogeneration and power export as factors of the Nogliki gas turbine power plant expansion // E3S Web of Conferences. Vol.77. ID: 04003. 2019. DOI: 10.1051/e3sconf/20197704003 The paper focuses on the prospects for expansion of the Nogliki gas turbine power plant in terms of potential cogeneration of the Nogliki urban-type settlement of the Sakhalin region and power export from the Sakhalin Island to Japan. The state and problems of the Nogliki gas turbine power plant and heating...
Теги: boilers , energy policy , expansion , gas plants , gas turbines , petroleum prospecting , plant expansion , waste heat , boiler plants , heating system , sakhalin island , gas turbine power plantsStepanova E., Maksimov A. Influence of internal relative efficiency of steam turbine compartments on the performance of steam turbine cogeneration plant // E3S Web of Conferences. Vol.69. ID: 02006. 2018. DOI: 10.1051/e3sconf/20186902006 The paper considers a steam turbine cogeneration plant that includes a back-pressure steam turbine and a natural gas-fired steam boiler that enables exhaust gas heat recovery, which is rather promising for the isolated heat and electricity consumers. A design and...
Теги: boilers , cogeneration plants , electric power transmission networks , natural gasoline plants , smart power grids , steam , waste heat , back pressures , combustion products , heat and electricity , optimizati
