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Volume 2, Issue 2 (2014), Pages [105] - [155]
APPLICATION OF AVAILABLE TECHNOLOGIES FOR DEVELOPMENT, CONSTRUCTION AND OPERATION OF SOLAR PLANTS WITH CONCENTRATORS
[1] E. Zarha and J. Muizhead, Increasing the efficiency of small scale CSP application, Proc. of “CSP Today”, Sevilla, (2013), 4.
[2] V. I. Kabakov, Development of plants with solar concentrators for water- and heat supply, Proc. of IX International Conference, Renewable and Small Energy - 2013, Edited by P. P. Bezrukikh and S. V. Gribkov, (2013), 175-182.
[3] V. I. Kabakov, V. A. Bulichev, M. M. Koltun, I. I. Kokhova and B. V. Tarnizhevsky, Helioplant, Patent Application 49112937/06, Favorable Solution, May 20, 1991.
[4] V. I. Kabakov and L. B. Levin, A choice of position of receiver with photocells in parabolic trough concentrator, Solar Energy and Solar Cells 33 (1994).
[5] D. Annaberdiev and I. V. Baum, Geometric Models for Algorithms SAD for Optical Systems of CSP,
[6] V. Kabakov, L. Levin, I. P. Sereda and L. D. Dodonov, A choice of form and temperature regimes in photo-thermal receiver for parabolic trough, Proc. of 7th Int. Symp. on Solar Thermal Concentrating Technologies (1994), 802-808.
[7] V. I. Kabakov and V. M. Yeroshenko, Development and use of different accumulators in solar plants with concentrators, Alternative Energy and Ecology 3 (2012), 39-44.
[8] E. P. Volkov, V. I. Kabakov and M. M. Koltun et al., Solar combined power plant, RF Patent no.1726922, Published in Bulletin of Invention (BI) 14 (1992).
[9] V. I. Kabakov, Power plant using solar energy, Electric Power Stations 9 (2010), 70-76.
[10] V. I. Kabakov, Methods for intensifying parabolic trough receivers operation, Int. J. Technology, Policy and Management 12 (2/3) (2012), 263-274.
[11] V. I. Kabakov, Development and indicators of multifunctional autonomous plants using renewable energy sources, Journal of Management and Strategy 5(3) (2014), 51-60.
[12] E. P. Volkov, V. I. Kabakov, V. A. Podgaetsky and L. P. Tomilova, Power plant working with solar fuels, Intern. Symp. on “Solar Chemistry”, PSI,
[13] V. I. Kabakov, L. G. Tomilova, V. A. Podgaetsky, A. G. Kaplan, N. G. Bialko and E. A. Lukianets, Solar heat collector, RF Patent no. 2023216, Published in Bulletin of Inventions (BI), 21 (1994).
[14] Novatec Solar, BASF successfully commission solar thermal demonstration plant in
[15] V.
[16] A. V. Dubovenko, L. Z. Amtsislavsky, O. A. Vindberg and I. V. Baum, Crimean solar power plant SES-5, experience on design and operation, Proc. of 6th International Symposium of Solar Concentrating Systems, CIEMAT (1992), 1472-1481.
[17] I. V. Baum, Experimental 5MW solar thermal power plant in
[18] V. I. Kabakov, Multi-purpose autonomous solar and geothermal plants with jet pumps, Science and Technology in Industry 3 (2008).
[19] V. I. Kabakov, Hybrid plants with jet pumps, Small Energy, Noes 3-4 (2011), 60-66.
[20] A. Castillo (1) How Ivanpah is reducing glint and glare from heliostat; (2) Industrial applications: A new holy grain for CSP, CSP Today, Sept. 4 and 19, 2014, pp.1-4 and 1-2.
[21] Dicks K. Steiner, IBM, Airlight make progress on multi-purpose CPV dish, CPV News, Sept. 30, 2014.
[22] V. I. Kabakov and A. S. Zuikov, Capability for improvement of modular CSPs, Energeticheskoye StroitelstvŠ¾ 2 (1994), 20-22.