CALCULATION OF THE OPTIMAL SIZE OF THE REFLECTING ELEMENT LARGE COMPOUND FACET CONCENTRATORS
( Pp. 100-103)
More about authors
Kuchkarov Akmaljon Akhmadalievich
starshiy nauchnyy sotrudnik
Institute of Materials Science «Physics-Sun» of the Uzbekistan Academy of Sciences Abdurakhmanov Abdujabbar Achmadalievich doktor tehnicheskih nauk, professor; zav. laboratoriey № 2
Institute of Materials Science «Physics-Sun» of the Uzbekistan Academy of Sciences Rakhimov Rustam Kh. Dr. Sci. (Eng.); Head, Laboratory No. 1; Institute of Materials Science of the Academy of Sciences of the Republic of Uzbekistan; Institute of Renewable Energy Sources; Tashkent, Republic of Uzbekistan
Институт материаловедения Академии наук Республики Узбекистан
г. Ташкент, Республика Узбекистан
Institute of Materials Science «Physics-Sun» of the Uzbekistan Academy of Sciences Abdurakhmanov Abdujabbar Achmadalievich doktor tehnicheskih nauk, professor; zav. laboratoriey № 2
Institute of Materials Science «Physics-Sun» of the Uzbekistan Academy of Sciences Rakhimov Rustam Kh. Dr. Sci. (Eng.); Head, Laboratory No. 1; Institute of Materials Science of the Academy of Sciences of the Republic of Uzbekistan; Institute of Renewable Energy Sources; Tashkent, Republic of Uzbekistan
Институт материаловедения Академии наук Республики Узбекистан
г. Ташкент, Республика Узбекистан
Abstract:
The main relationships of choosing the optimal sizes of elements of mosaic concentrators, as well as large-sized facet elements on a paraboloid and parabolacylindrical basis, are considered taking into account the optimal size of the scattering spot (receiver) at the maximum value of the efficiency obtained for energy-based MCS.
How to Cite:
Kuchkarov A.A., Abdurakhmanov A.A., Rakhimov R.K., (2019), CALCULATION OF THE OPTIMAL SIZE OF THE REFLECTING ELEMENT LARGE COMPOUND FACET CONCENTRATORS. Computational Nanotechnology, 3 => 100-103.
Reference list:
Zakhidov R.A. Technology and Testing of Solar Energy Concentrating Systems // (English Edition) Gujarat Energy Development Agency Vadodara. 1996. P. 184.
Abdurakhmanov A.A. Zerkal no-kontsentriruyushchie sistemy solnechnykh energosilovykh i tekhnologicheskikh ustanovok i ikh effektivnost pri ispol zovanii priemnikov selektivnogo luchepogloshchenii: Dis. doktora tekhnicheskikh nauk. M.: 1992. 300 s.
Strebkov D.S., Tver yanovich E.V. Kontsentratory solnechnogo izlucheniya // pod. red. akademika RASKHN D.S. Strebkova. M.: GNU VIESKH. 2007. S. 316.
Bronshteyn YU.L. Krupnogabaritnye zerkal nye sistemy (kontrol geometrii, yustirovka). M.: DPK Press. 2015. S. 600.
Klychev SH.I. Modelirovanie priemno-kontsentriruyushchikh ustroystv solnechnykh teploenergeticheskikh ustanovok: Dis. ... d-ra tekhn. nauk. Tashkent: FTI, 2004. 268 s.
Kuchkarov A.A., Abdurakhmanov A. Raschet optimal nykh razmerov otrazhayushchikh elementov mozaichnogo kontsentratora // Materialy Respubl. nauch.-tekhn. konf. Sovremennye problemy vozobnovlyaemoy energetiki . 18-19 maya 2018, Karshi. S. 67-71.
Kuchkarov A.A., Kholova Sh.R., Abdumuminov A.A., Abdurakhmanov A. Optical energy characteristics of the optimal module of a solar composite parabolic-cylindrical plant // Applied Solar Energy. New York, 2018. Vol. 54. № 4. R. 293-296.
Akbarov R.Yu., Kuchkarov A.A. Modeling and Calculation of Optical-Geometric Characteristics of a Solar Concentrator with Flat Fresnel Mirrors // Applied Solar Energy. New York. 2018. Vol. 54. № 3. R. 187-192.
Abdurakhmanov A.A., Akhadov ZH.Z., Mamatkosimov M.A., Klychev SH.I. Kontsentriruyushchie sistemy i vybor optimal nykh parametrov luchevosprinimayushchey poverkhnosti // Geliotekhnika. 2009. № 2. S. 72-76.
Kuchkarov A.A., Holov Sh.R., Abdumuminov A.A., Abdurakhmanov A. Calculation of optical-geometrical characteristics of parabolic-cylindrical mirror concentrating systems // European science review. 2017. № 1-2. R. 28-32.
Abdurakhmanov A.A. Zerkal no-kontsentriruyushchie sistemy solnechnykh energosilovykh i tekhnologicheskikh ustanovok i ikh effektivnost pri ispol zovanii priemnikov selektivnogo luchepogloshchenii: Dis. doktora tekhnicheskikh nauk. M.: 1992. 300 s.
Strebkov D.S., Tver yanovich E.V. Kontsentratory solnechnogo izlucheniya // pod. red. akademika RASKHN D.S. Strebkova. M.: GNU VIESKH. 2007. S. 316.
Bronshteyn YU.L. Krupnogabaritnye zerkal nye sistemy (kontrol geometrii, yustirovka). M.: DPK Press. 2015. S. 600.
Klychev SH.I. Modelirovanie priemno-kontsentriruyushchikh ustroystv solnechnykh teploenergeticheskikh ustanovok: Dis. ... d-ra tekhn. nauk. Tashkent: FTI, 2004. 268 s.
Kuchkarov A.A., Abdurakhmanov A. Raschet optimal nykh razmerov otrazhayushchikh elementov mozaichnogo kontsentratora // Materialy Respubl. nauch.-tekhn. konf. Sovremennye problemy vozobnovlyaemoy energetiki . 18-19 maya 2018, Karshi. S. 67-71.
Kuchkarov A.A., Kholova Sh.R., Abdumuminov A.A., Abdurakhmanov A. Optical energy characteristics of the optimal module of a solar composite parabolic-cylindrical plant // Applied Solar Energy. New York, 2018. Vol. 54. № 4. R. 293-296.
Akbarov R.Yu., Kuchkarov A.A. Modeling and Calculation of Optical-Geometric Characteristics of a Solar Concentrator with Flat Fresnel Mirrors // Applied Solar Energy. New York. 2018. Vol. 54. № 3. R. 187-192.
Abdurakhmanov A.A., Akhadov ZH.Z., Mamatkosimov M.A., Klychev SH.I. Kontsentriruyushchie sistemy i vybor optimal nykh parametrov luchevosprinimayushchey poverkhnosti // Geliotekhnika. 2009. № 2. S. 72-76.
Kuchkarov A.A., Holov Sh.R., Abdumuminov A.A., Abdurakhmanov A. Calculation of optical-geometrical characteristics of parabolic-cylindrical mirror concentrating systems // European science review. 2017. № 1-2. R. 28-32.