METHODOLOGY FOR CALCULATING THE TECHNICAL AND ECONOMIC INDICATORS OF A PHOTOVOLTAIC THERMAL INSTALLATION BASED ON A THIN-FILM CADMIUM TELLURIDE MODULE

This article presents a methodology for calculating the technical, economic and
environmental indicators of the developed design of a photovoltaic thermal installation with a nominal
electric power of 1,2 kW and a thermal power of 2.17 kW for simultaneous production of electric
energy and hot water for household needs of consumers. The capacity of the installation is 5.26 kWh
of electricity and 30 liters/hour of heated water. The schemes of obtaining hot water by additional
heating of the heated water produced by the installation in the cool seasons of the year are presented.
This installation allows to receive total energy in the amount of 2,795.77 thousand UZS per year
without consuming natural resources, save coal consumption in the amount of 2,236.5 thousand UZS
per year, or natural gas in the amount of 1,745.45 thousand UZS. In addition, the installation avoids
emissions of CO2 carbon dioxide into the atmosphere for the production of annual energy based on
the calculation, when using coal at thermal power plants, the output of CO2 emissions in the amount
of 17.3 tons or natural gas 2.15 tons of CO2 per year and prevent environmental pollution.

Название журналаTechnical science and innovation
Номер выпуска2020№1(03)
Количество просмотров 6

Ссылка в интернете

DOI

Дата создание в систему UzSCI 13-11-2024

Количество прочтений 6

Дата публикации 20-05-2020

Язык статьиIngliz

Страницы49-54

Ключевые слова

resources

thermal energy

photovoltaic thermal installation

electrical energy

hot water

English

This article presents a methodology for calculating the technical, economic and
environmental indicators of the developed design of a photovoltaic thermal installation with a nominal
electric power of 1,2 kW and a thermal power of 2.17 kW for simultaneous production of electric
energy and hot water for household needs of consumers. The capacity of the installation is 5.26 kWh
of electricity and 30 liters/hour of heated water. The schemes of obtaining hot water by additional
heating of the heated water produced by the installation in the cool seasons of the year are presented.
This installation allows to receive total energy in the amount of 2,795.77 thousand UZS per year
without consuming natural resources, save coal consumption in the amount of 2,236.5 thousand UZS
per year, or natural gas in the amount of 1,745.45 thousand UZS. In addition, the installation avoids
emissions of CO2 carbon dioxide into the atmosphere for the production of annual energy based on
the calculation, when using coal at thermal power plants, the output of CO2 emissions in the amount
of 17.3 tons or natural gas 2.15 tons of CO2 per year and prevent environmental pollution.

Ключевые слова

resources

thermal energy

photovoltaic thermal installation

electrical energy

hot water

№ Имя автора Должность Наименование организации

1 Juraev I.R. Research Associate Tashkent State Technical University

2 Yuldoshev I.. DSc Tashkent State Technical University

3 Juraeva .I. Assistant, TDTU

№ Название ссылки

1 1. Ukaz Prezidenta Respubliki Uzbekistan, ot 11.09.2023g. № UP-158. O strategii «Uzbekistan-2030». 2. Allaev K. R. Sovremennaya ehnergetika i perspektivy ee razvitiya. Pod obshchej redakciej akademika Salimova A.U.-T.: «Fan va texnologiyalar nashriyot-matbaa uyi», 2021. 952 str. 3. I.R. Zhuraev, I.A. Yuldoshev, Z.I. Zhuraeva. Ehksperimental'noe issledovanie fotoehlektricheskoj teplovoj batarei na osnove tonkoplenochnoj struktury v estestvennykh usloviyakh. Geliotekhnika. 2023, Tom 59, № 2, c. 139-150. 4. V.I. Vissarionov, G.V. Deryugina, V.A. Kuznecov, N.K. Malinin. Solnechnaya ehnergetika. Uchebnoe posobie dlya vuzov. M.,Izdat.dom MEHI,2008- 276s.

2 5. G.N. Tiwari and Swapnil Dubey. Fundamentals of Photovoltaic Modules and Their Applications.CentreforEnergy Studies, Indian Institute of Technology,New Delhi, India, 423 pgs. 6. G.P. Okhotkin. Metodika rascheta moshchnosti solnechnykh ehlektrostancij. Vestnik Chuvashskogo universiteta. 2013. № 3.

3 7. https://solarsoul.net/raschet-solnechnoj-batarei. Raschyot proizvoditel'nosti solnechnykh batarej. Ehlektronnyj resurs. 8. https://e-solarpower.ru/kalkulyator-vyrabotki-sb. Kal'kulyator solnechnykh batarej dlya rascheta vyrabotki ehlektricheskoj ehnergii i okupaemosti. Ehlektronnyj resurs. 9. https://www.teplogid.ru/info/raschet-goryacheyvody. Opredelenie potrebnosti v goryachej vode. Ehlektronnyj resurs. 10. Avezov R.R., Barskij-Zorin M.A., Vasil'eva I.M. i dr. Ssistemy solnechnogo teplo i khladosnabzheniya. Pod red. EH.V.Sarnackogo i S.A.Chistovicha, - M: Strojizdat, 1990, 328s.

4 11. A. YU. Almaev, I. A. Lushkin. Ispol'zovanie solnechnoj ehnergii dlya teplosnabzheniya sistem goryachego vodosnabzheniya v individual'nom zhilishchnom stroitel'stve. «Vestnik NGIEHI» № 12 (43). 2014. 121 s. 12. Bessel' V. V., Kucherov V. G., Mingaleeva R. D. Izuchenie solnechnykh fotoehlektricheskikh ehlementov: Uchebno-metodicheskoe posobie. – M.: Izdatel'skij centr RGU nefti i gaza (NIU) imeni I.M. Gubkina, 2016, s.90. Ehlektronnyj resurs.

5 13.https://www.norma.uz/novoe_v_zakonodatelstv e/utverjdeny_tarify_na_toplivnoenergeticheskie_ resursy. PKM RUz ot 15.09.2023 g. № 475 «O dopolnitel'nykh merakh po vnedreniyu rynochnykh mekhanizmov v toplivno-ehnergeticheskuyu sferU». Ehlektronnyj resurs. 14. https://e-qaror.gov.uz/doc/1531137 VI-92-228- 14-0-K/23. O rassmotrenii reguliruemykh cen (tarifov) na uslugi teplosnabzheniya v gorode Tashkente. 08.11.2023. Ehlektronnyj resurs. 15. Klyon A.N., Efremenko V.V. Ehkonomicheskaya ehffektivnost' ispol'zovaniya sistem goryachego vodosnabzheniya na osnove solnechnykh kollektorov. DOI: 10.15587/2312-8372.2015.49158. 16. https://sro150.ru/index.php/metodiki/371.Metodika rascheta vybrosov parnikovykh gazov (CO2- ehkvivalenta). Ehlektronnyj resurs.

В ожидании

№	Имя автора	Должность	Наименование организации
1	Juraev I.R.	Research Associate	Tashkent State Technical University
2	Yuldoshev I..	DSc	Tashkent State Technical University
3	Juraeva .I.	Assistant,	TDTU

№	Название ссылки
1	1. Ukaz Prezidenta Respubliki Uzbekistan, ot 11.09.2023g. № UP-158. O strategii «Uzbekistan-2030». 2. Allaev K. R. Sovremennaya ehnergetika i perspektivy ee razvitiya. Pod obshchej redakciej akademika Salimova A.U.-T.: «Fan va texnologiyalar nashriyot-matbaa uyi», 2021. 952 str. 3. I.R. Zhuraev, I.A. Yuldoshev, Z.I. Zhuraeva. Ehksperimental'noe issledovanie fotoehlektricheskoj teplovoj batarei na osnove tonkoplenochnoj struktury v estestvennykh usloviyakh. Geliotekhnika. 2023, Tom 59, № 2, c. 139-150. 4. V.I. Vissarionov, G.V. Deryugina, V.A. Kuznecov, N.K. Malinin. Solnechnaya ehnergetika. Uchebnoe posobie dlya vuzov. M.,Izdat.dom MEHI,2008- 276s.
2	5. G.N. Tiwari and Swapnil Dubey. Fundamentals of Photovoltaic Modules and Their Applications.CentreforEnergy Studies, Indian Institute of Technology,New Delhi, India, 423 pgs. 6. G.P. Okhotkin. Metodika rascheta moshchnosti solnechnykh ehlektrostancij. Vestnik Chuvashskogo universiteta. 2013. № 3.
3	7. https://solarsoul.net/raschet-solnechnoj-batarei. Raschyot proizvoditel'nosti solnechnykh batarej. Ehlektronnyj resurs. 8. https://e-solarpower.ru/kalkulyator-vyrabotki-sb. Kal'kulyator solnechnykh batarej dlya rascheta vyrabotki ehlektricheskoj ehnergii i okupaemosti. Ehlektronnyj resurs. 9. https://www.teplogid.ru/info/raschet-goryacheyvody. Opredelenie potrebnosti v goryachej vode. Ehlektronnyj resurs. 10. Avezov R.R., Barskij-Zorin M.A., Vasil'eva I.M. i dr. Ssistemy solnechnogo teplo i khladosnabzheniya. Pod red. EH.V.Sarnackogo i S.A.Chistovicha, - M: Strojizdat, 1990, 328s.
4	11. A. YU. Almaev, I. A. Lushkin. Ispol'zovanie solnechnoj ehnergii dlya teplosnabzheniya sistem goryachego vodosnabzheniya v individual'nom zhilishchnom stroitel'stve. «Vestnik NGIEHI» № 12 (43). 2014. 121 s. 12. Bessel' V. V., Kucherov V. G., Mingaleeva R. D. Izuchenie solnechnykh fotoehlektricheskikh ehlementov: Uchebno-metodicheskoe posobie. – M.: Izdatel'skij centr RGU nefti i gaza (NIU) imeni I.M. Gubkina, 2016, s.90. Ehlektronnyj resurs.
5	13.https://www.norma.uz/novoe_v_zakonodatelstv e/utverjdeny_tarify_na_toplivnoenergeticheskie_ resursy. PKM RUz ot 15.09.2023 g. № 475 «O dopolnitel'nykh merakh po vnedreniyu rynochnykh mekhanizmov v toplivno-ehnergeticheskuyu sferU». Ehlektronnyj resurs. 14. https://e-qaror.gov.uz/doc/1531137 VI-92-228- 14-0-K/23. O rassmotrenii reguliruemykh cen (tarifov) na uslugi teplosnabzheniya v gorode Tashkente. 08.11.2023. Ehlektronnyj resurs. 15. Klyon A.N., Efremenko V.V. Ehkonomicheskaya ehffektivnost' ispol'zovaniya sistem goryachego vodosnabzheniya na osnove solnechnykh kollektorov. DOI: 10.15587/2312-8372.2015.49158. 16. https://sro150.ru/index.php/metodiki/371.Metodika rascheta vybrosov parnikovykh gazov (CO2- ehkvivalenta). Ehlektronnyj resurs.