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Microgrid-based cryogenic energy storage as a part of Intelligent Energy Infrastructure Management (IEIM)

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Integration of advanced electrical machines with electrical power systems and renewable energy is at the heart of the dedicated Liquid Hydrogen Laboratory (LHL) at the University of Cambridge. Generation, storage and use of the hydrogen in conjunction with a patented dynamic energy storage system are an integral part of the proposed combined heat and power (CHP) IEIM Project. The aim of the project is to address intelligent energy infrastructure management IEIM of a smart micro grid, which combines hydrogen and electricity. To build a powerful relational database for the entire physical infrastructure based on combined heat and power elements, a sub-system needs to be established to monitor the status of interconnectivity to the grid. This information will be mapped onto the database to provide a real-time view of the energy network's physical interconnectivity with the grid, significantly reducing the environmental impact of the total electricity supply system. Considering the nature of the heat and power elements fibre optic based sensing techniques will remotely monitor the patching fields and provide an accurate map of the connectivity and constantly monitor changes in real-time.
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Bibliografia
  • [1] Yamada S., Hishinuma Y., Uede T., Schippl K. and Mootjima O.; J. Phys.: Conference Series 97 (2008) 012167.
  • [2] Glowacki B. A., and Nuttall W. J.: Assessment of liquid hydrogen cooled MgB2 conductors for magnetically confined fusion, J. Phys.: Conf. Ser. 97 (2008) 012333.
  • [3] Nuttall W.J., Clarke R and Glowacki B.A.; A trip to fusion island, The Engineer, 31 October (2005) 16.
  • [4] McDonald, K. T., Iarocci, M., Kirk, H. G., Mulholland, G. T., Titus, P. H. and Weggel, R. J.: Use of He Gas Cooled by Liquid Hydrogen with a 15-T Pulsed Copper Solenoid Magnet, Technical/Economic Report August 15, (2002) Page 1-5 E951; also presented at ICEC 23 - ICMC 2010, 19-23 July 2010, Wrocław, Poland (to be published in Adv Cryo. Eng.).
  • [5] Patel A., Palka R. and Glowacki B. A.: New fully superconducting bearing concept using the difference in irreversibility field of two superconducting components, Superconductor Science and Technology 24 (1) (2011) 015009.
  • [6] Glowacki B. A., Tomov R., Chorowski M., Piotrowska-Hajnus A., Kraus M., Nowak R. and Jewulski J,: Sustainable LH2 energy cycle, Journal of Energy Science, 1 29-35 (2010).
  • [7] Glowacki B.A. and Nuttall W. J.: Hydrogen as a fuel and as a coolant - from the superconductivity perspective, Journal of Energy Science, 1 (2010) pp 15-29.
  • [8] Glowacki B. A.: Hydrogen Cryomagnetics: The Way Forward For Superconductivity, presented at ICEC 23 - ICMC 2010, 19-23 July 2010, Wrocław, Poland (to be published in Adv Cryo. Eng.).
  • [9] Kamiya, K., Design and Build of Magnetic Refrigerator for Hydrogen Liquefaction, Adv. In Cryogenic Engineering, Vol. 51, Amer. Institute of Physics, Melville, NY (2006), pp. 591-597.
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Bibliografia
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bwmeta1.element.baztech-article-BPS2-0062-0003
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