2017
DOI: 10.1016/j.energy.2017.04.144
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Thermodynamic and economic analysis of nuclear power unit operating in partial cogeneration mode to produce electricity and district heat

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Cited by 30 publications
(10 citation statements)
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“…The results of carbon dioxide gas emissions in electric boiler, gas boiler, nuclear combined heat and power plants, and heat pump with district heating systems equal to 1291, 2382, 767 and 1017, respectively, showed that the emission of greenhouse gases from the nuclear hybrid system with the heat distribution network is much lower than the other methods 59 . In the research by Jaskólski et al, the results of the thermodynamic and economic study of nuclear power plants such as AP1000 showed that by utilizing the operation of nuclear reactor at peak thermal load up to 250 MW, it is not necessary to introduce the variation in the arrangement of the unit cycles or the thermal capacity for reactor 60 …”
Section: Nuclear Cogeneration Systemsmentioning
confidence: 99%
“…The results of carbon dioxide gas emissions in electric boiler, gas boiler, nuclear combined heat and power plants, and heat pump with district heating systems equal to 1291, 2382, 767 and 1017, respectively, showed that the emission of greenhouse gases from the nuclear hybrid system with the heat distribution network is much lower than the other methods 59 . In the research by Jaskólski et al, the results of the thermodynamic and economic study of nuclear power plants such as AP1000 showed that by utilizing the operation of nuclear reactor at peak thermal load up to 250 MW, it is not necessary to introduce the variation in the arrangement of the unit cycles or the thermal capacity for reactor 60 …”
Section: Nuclear Cogeneration Systemsmentioning
confidence: 99%
“…For instance, the status and prospects in China of district heating with a nuclear reactor were investigated by Zhao et al (2018). More generally, Jaskólski et al (2017), assessed the provision of district heat via a nuclear power unit operating in partial cogeneration mode.…”
Section: Non-electric Applications Of Nuclear Energymentioning
confidence: 99%
“…Nuclear cogeneration refers to production of value added products apart from heat and electricity using additional facilities located on or very close to the power plant site itself 1‐4 . Khamis et al 1 have examined some of these possibilities for water‐cooled reactors, whereas the role of high‐temperature nuclear reactors in supporting cogeneration has been studied by Wrochna et al 2 District heating using hot water from the secondary side of the nuclear power plant has been one of the well‐known examples of nuclear cogeneration as described by Jaskolski et al 3 A generic overview of the challenges and opportunities in nuclear cogeneration with particular reference to Europe has been provided by Leurent et al 4 The opportunities include production of desalinated sea water (through thermal and membrane based desalination technologies) whose techno economic features have been studied by Khamis and El‐Emam 5 and Nisan and Dardour 6 . The use of a high‐temperature reactor for desalination has been examined by Khalid et al 7 while Sadeghi et al look at the possibilities with water‐cooled nuclear reactor systems 8 .…”
Section: Introductionmentioning
confidence: 99%