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Fusion 2050 : European and Polish Perspective

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Fusion, in all its varieties, is a very current subject of science and technology. The results of strongly exothermic reaction of thermonuclear fusion between nuclei of deuterium and tritium are: helium nuclei and neutrons, plus considerable kinetic energy of neutrons of over 14 MeV. DT nuclides synthesis reaction is probably not the most favorable one for energy production, but is the most advanced technologically. More efficient would be possibly an aneutronic fusion. The EU by its EURATOM agenda prepared a Road Map for research and implementation of Fusion as a commercial method of thermonuclear energy generation in the time horizon of 2050. The milestones on this road are tokomak experiments JET, ITER and DEMO, and neutron experiment IFMIF. There is a hope, that by engagement of the national government, and all research and technical fusion and plasma communities, part of this Road Map may be realized in Poland. The infrastructure build for fusion experiments may be also used for material engineering research, chemistry, biomedical, associated with environment protection, power engineering, security, etc. Construction of such research and industrial accelerator and tokomak infrastructure may have potentially a profound meaning for the development of science and technology in Poland.
Twórcy
  • Warsaw University of Technology, Poland
Bibliografia
  • [1] European Fusion Development Agrement – EU-EFDA: www.efda.org.
  • [2] FuseNet – The European Fusion Education Network: fusenet.eu.
  • [3] The European Atomic Energy Community – EURATOM: www.euratom.org.
  • [4] Culham Centre of Fusion Energy, Joint European Torus: www.ccfe.ac.uk/JET.aspx.
  • [5] ITER web page: www.iter.org.
  • [6] T. Matulewicz et al., “The Future of Fusion Research in Poland,” in Fusion Conference IFD UW, Warsaw, May 2013.
  • [7] WILGA 2013 Symposium on Electronics for High Energy Physics Experiments: wilga.ise.pw.edu.pl.
  • [8] R. S. Romaniuk (editor), “Photonics applications in astronomy, communications, industry, and high energy physics experiments 2013,” Proceedings of SPIE, vol. 8903, 2013.
  • [9] R. S. Romaniuk, “Fuzja – perspektywa 2050,” Elektronika, vol. 54, no. 6, pp. 73–78, 2013.
  • [10] IFMIF Web page: www.ifmif.org.
  • [11] National Ignition Facility NIF-LLNF: lasers.llnl.gov.
  • [12] Laser Inertial Fusion Energy LIFE: life.llnf.gov.
  • [13] Spallation Neutron Source SNS: neutrons.ornl.gov.
  • [14] European Spallation Source ESS: europeanspallations ource.se.
  • [15] R. Zagórski, “Fusion Road Map, Program of fusion research in Poland,” in Fusion Conference. Warsaw: IFD UW, May 2013.
  • [16] U. Woźnicka, “Fusion Electricity: A roadmap to realisation of fusion energy,” in Fusion Conference. Warsaw: IFD UW, May 2013.
  • [17] Foresight for thermonuclear energy: [energetykatermojadrowa.pl].
  • [18] R. S. Romaniuk, “Photonics applications and Web engineering: Wilga May 2013,” Proceedings of SPIE, vol. 8903, 2013, art. no. 890303.
  • [19] R. S. Romaniuk, “EuCARD2 – enhanced accelerator R&D in Europe,” Proceedings of SPIE, vol. 8903, 2013, art. no. 89031P.
  • [20] R. S. Romaniuk, “Accelerator science and technology in Europe – EuCARD 2012,” Proceedings of SPIE, vol. 8454, 2012, art. no. 84540O.
  • [21] R. S. Romaniuk, “Accelerator technology and high energy physics experiments, Photonics Applications and Web Engineering, Wilga May 2012,” Proceedings of SPIE, vol. 8454, 2012, art. no. 845404.
  • [22] R. S. Romaniuk, “Photon physics and plasma research, Photonics Applications and Web Engineering, Wilga May 2012,” Proceedings of SPIE, vol. 8454, 2012, art. no. 845405.
  • [23] R. S. Romaniuk, “Accelerators for society: succession of European infrastructural projects: CARE, EuCARD, TIARA and EuCARD2,” Proceedings of SPIE, vol. 8903, 2013, art. no. 890320.
  • [24] R. S. Romaniuk, “Visions of the future of particle accelerators,” Proceedings of SPIE, vol. 8903, 2013, art. no. 890324.
  • [25] R. S. Romaniuk, “Accelerator science and technology in Europe 2008-2017,” Proceedings of SPIE, vol. 8903, 2013, art. no. 89031P.
  • [26] R. S. Romaniuk, “Accelerator infrastructure in Europe EuCARD 2011,” International Journal of Electronics and Telecommunications, vol. 57, no. 3, pp. 413–419, 2011.
  • [27] R. Romaniuk, “EuCARD 2010 accelerator technology in Europe,” International Journal of Electronics and Telecommunications, vol. 56, no. 4, pp. 485–488, 2010.
  • [28] R. S. Romaniuk, “Advanced photonic and electronic systems Wilga 2010,” International Journal of Electronics and Telecommunications, vol. 56, no. 4, pp. 479–484, 2010.
  • [29] R. S. Romaniuk and K. Pozniak, “Metrological aspects of accelerator technology and high energy physics experiments,” Measurement Science and Technology, vol. 18, no. 8, 2008, art. no. E01.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c8e5d686-b920-4336-afab-76a589d33318
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