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2015 | Vol. 95, spec. | 32--41
Tytuł artykułu

Thermodynamic analysis of a co-generation system with a high-temperature gas cooled nuclear reactor

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Języki publikacji
EN
Abstrakty
EN
This paper presents a proposal for a power system with a helium-cooled high-temperature nuclear reactor (V/HTR) used to generate heat and electricity. Heat is supplied to the technological system completing a sulphur-iodine cycle for hydrogen production. The amounts of heat and the values of the carrier temperature required at individual stages of the cycle are known. Helium energy is additionally used for electricity generation: directly – using a gas turbine and indirectly – in two steam systems. One of them uses water vapour as the working medium. In the other (the ORC system) – a low-boiling fluid is used. The paper presents results of the system multivariate thermodynamic analyses performed using the EBSILON software package. The aim of the calculations is to investigate the impact of selected characteristic parameters of fluids and the ORC system fluid types on the power efficiency of the heat and power plant system and on the total power efficiency of the system, taking the produced hydrogen chemical energy into account.
Wydawca

Rocznik
Strony
32--41
Opis fizyczny
Bibliogr. 11 poz., rys., wykr.
Twórcy
  • Silesian University of Technology, Institute of Thermal Technology, Konarskiego 22, 44-100 Gliwice, Poland
Bibliografia
  • [1] E. Losa, B. Heřmanský, D. Kobylka, J. Rataj, L. Sklenka, V. Souček, P. Kohout, Feasibility study of high temperature reactor utilization in czech republic after 2025, Nuclear Engineering and Design 271 (2014) 46–50.
  • [2] A. Bredimas, Pre-economic analysis of htr in preparation for a comprehensive economic assessment of htrs in the world, Nuclear Engineering and Design 271 (2014) 55–59.
  • [3] A. Bredimas, Results of a european industrial heat market analysis as a pre-requisite to evaluating the htr market in europe and elsewhere, Nuclear Engineering and Design 271 (2014) 41–45.
  • [4] A. Bredimas, K. Kugeler, M. A. Fütterer, Strengths, weaknesses, opportunities and threats for htr deployment in europe, Nuclear Engineering and Design 271 (2014) 193–200.
  • [5] J. Leybros, P. Carles, J.-M. Borgard, Countercurrent reactor design and flowsheet for iodine-sulfur thermochemical water splitting process, international journal of hydrogen energy 34 (22) (2009) 9060–9075.
  • [6] M. Roth, K. Knoche, Thermochemical water splitting through direct hi-decomposition from h 2 o/hi/i 2 solutions, International journal of hydrogen energy 14 (8) (1989) 545–549.
  • [7] M. K. Hadj-Kali, V. Gerbaud, P. Lovera, O. Baudouin, P. Floquet, X. Joulia, J.-M. Borgard, P. Carles, Bunsen section thermodynamic model for hydrogen production by the sulfur–iodine cycle, international journal of hydrogen energy 34 (16) (2009) 6625–6635.
  • [8] M. K. Hadj-Kali, V. Gerbaud, J.-M. Borgard, O. Baudouin, P. Floquet, X. Joulia, P. Carles, Hix system thermodynamic model for hydrogen production by the sulfur–iodine cycle, international journal of hydrogen energy 34 (4) (2009) 1696–1709.
  • [9] F. Bertrand, T. Germain, F. Bentivoglio, F. Bonnet, Q. Moyart, P. Aujollet, Safety study of the coupling of a vhtr with a hydrogen production plant, Nuclear Engineering and Design 241 (7) (2011) 2580–2596.
  • [10] R. Liberatore, M. Lanchi, A. Giaconia, P. Tarquini, Energy and economic assessment of an industrial plant for the hydrogen production by water-splitting through the sulfur-iodine thermochemical cycle powered by concentrated solar energy, international journal of hydrogen energy 37 (12) (2012) 9550–9565.
  • [11] C. Huang, T. Ali, et al., Analysis of sulfur–iodine thermochemical cycle for solar hydrogen production. part I: decomposition of sulfuric acid, Solar Energy 78 (5) (2005) 632–646.
Uwagi
PL
Tytuł numeru spec. "Polish Energy Mix 2014"
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.baztech-da5e4b17-47b6-4de6-bd4a-971f6d89f403
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