QUYOSH KONSENTRATORLI GELIOPIROLIZ QURILMASI REAKTORIDA ISSIQLIK  ALMASHINUVI JARAYONLARINI TADQIQOT QILISH

Almardanov Hamidulla Abdig'aniyevich

Maqolada quyosh konsentratorli geliopiroliz qurilmasi reaktorida kechadigan

issiqlik almashinuvi jarayonlari tadqiqot qilingan. O„tkazilgan tajribalar asosida quyosh

konsentratorli geliopiroliz qurilmasinining optimal parametrlari aniqlangan va hosil qilingan

energiya quyosh konsentratorlarining aperturasiga bog„liqligi tadqiqot qilingan. Biomassa

geliopirolizi bo„yicha bajarilgan tajribalar natijalari asosida atrof-muhit parametrlarining reaktori

ichidagi issiqlik almashinuvi jarayonlariga ta„siri aniqlangan. O„tkazilgan tajribalarga ko„ra atrof

muhit harorati va shamol tezligi reaktordagi issiqlik almashinuv jarayoniga ta‟siri o„rganilgan.

Tajribalarda geliopiroliz jarayonining harorat rejimi parabolik konsentrator yordamida hosil

qilingan. Reaktordagi harorat rejimi Teplovizor Snegir-700MT yordamida o„lchangan

Name of journalMUQOBIL ENERGETIKA
Number of edition02 (09) 2023
View count 5

Web Address

DOI

Date of creation in the UzSCI system 15-09-2024

Read count 5

Date of publication 03-07-2023

Main LanguageO'zbek

Pages41-47

Tags

biomassa

harorat

quyosh radiatsiyasi

konsentrator

issiqlik miqdori

geliopiroliz

piroliz reaktori

issiqlik samaradorligi

muqobil yoqilg„i

Ўзбек

Maqolada quyosh konsentratorli geliopiroliz qurilmasi reaktorida kechadigan

issiqlik almashinuvi jarayonlari tadqiqot qilingan. O„tkazilgan tajribalar asosida quyosh

konsentratorli geliopiroliz qurilmasinining optimal parametrlari aniqlangan va hosil qilingan

energiya quyosh konsentratorlarining aperturasiga bog„liqligi tadqiqot qilingan. Biomassa

geliopirolizi bo„yicha bajarilgan tajribalar natijalari asosida atrof-muhit parametrlarining reaktori

ichidagi issiqlik almashinuvi jarayonlariga ta„siri aniqlangan. O„tkazilgan tajribalarga ko„ra atrof

muhit harorati va shamol tezligi reaktordagi issiqlik almashinuv jarayoniga ta‟siri o„rganilgan.

Tajribalarda geliopiroliz jarayonining harorat rejimi parabolik konsentrator yordamida hosil

qilingan. Reaktordagi harorat rejimi Teplovizor Snegir-700MT yordamida o„lchangan

Tags

biomassa

harorat

quyosh radiatsiyasi

konsentrator

issiqlik miqdori

geliopiroliz

piroliz reaktori

issiqlik samaradorligi

muqobil yoqilg„i

№ Author name position Name of organisation

1 Almardanov H.A. katta o'qituvchi QarMII

№ Name of reference

1 Abdurakhmanov A., Kuchkarov A.A., Holov Sh. R., Abdumuminov A.Calculation of opticalgeometrical characteristics of parabolic-cylindrical mirror concentrating systems // European science review. 2017. Vol. 2. P. 201-204.

2 Klychev Sh.I., Zakhidov R.A., Bakhramov S.A., Dudko Yu.A., Khudoikulov A.Ya., Klychev Z.Sh., and Khudoiberdiev I.A. Parameter optimization for paraboloid-cylinder-receiver system of thermal power plants // Applied Solar Energy. Applied Solar Energy. 2009. Vol. 45. No. 4. P. 281–284.

3 R.R. Avezov, N.R. Avezova, N.A. Matchanov, Sh.I. Suleimanov, R.D. Abdukadirova. History and State of Solar Engineering in Uzbekistan. Applied Solar Energy, 2012, Vol. 48, No. 1, pp. 14–19

4 K. Zeng, D.P. Minh, D. Gauthier, E. Weiss-Hortala, A. Nzihou, G. Flamant, The effect of temperature and heating rate on char properties obtained from solar pyrolysis of beech wood, Bioresour. Technol. 182 (2015) 114-119.

5 Szymon Sobek, SebastianWerle. Solar pyrolysis of waste biomass: Part 1 reactor design. Renewable Energy. Volume 143, December 2019, Pages 1939-1948.

6 Kuo Zeng, Rui Li, Doan Pham Minh, Elsa Weiss-Hortala, Ange Nzihou, Xiao He. Solar pyrolysis of heavy metal contaminated biomass for gas fuel production. Energy 187 (2019) 116016.

7 Ayala-Cortés A., Arancibia-Bulnes C.A., Villafán-Vidales H.I., Lobato-Peralta D.R., MartinezCasillas D., Cuentas-Gallegos A.K. Solar pyrolysis of agave and tomato pruning wastes: insights of the effect of pyrolysis operation parameters on the physicochemical properties of biochar. In: A Paper Presented at the SolarPACES Conference in Morocco, 2018.

8 G‗.N.Uzoqov, X.A.Davlonov. Gelioissiqxonalarning energiya tejamkor isitish tizimlari // Monografiya. Toshkent, Voris-nashriyoti, 143 b.

9 Uzakov, G.N., Davlonov, H.A. & Holikov, K.N. Study of the Influence of the Source Biomass Moisture Content on Pyrolysis Parameters. Appl. Sol. Energy 54, 481–484 (2018). https://doi.org/10.3103/S0003701X18060178

10 Uzakov G.N., Novik A.V., Davlonov X.A., Almardanov X.A., Chuliev S.E. Heat and Material Balance of Heliopyrolysis Device. ENERGETIKA. Proceedings of CIS higher education institutions and power engineering associations. 2023; 66(1):57-65. https://doi.org/10.21122/1029-7448-2023-66-1-57-65

11 Xayrulla Davlonov, Xamidulla Almardanov, Inomjon Khatamov, Sadriddin Urunboev, Palvan Kalandarov, and Orif Olimov, ―Study on heat and material balance of heliopyrolysis device‖, AIP Conference Proceedings 2686, 020023 (2022) https://doi.org/10.1063/5.0111855

12 Almardanov, H. and Chuliyev, S. 2022. Biomassadan geliopiroliz usulida yoqilg‗i olish tajriba qurilmasining parametrlarini asoslash. Innovatsion texnologiyalar. 1, 4 (Nov. 2022), 92–96.

13 Алмарданов Хамидулла Абдиғаниевич, Хатамов Иномжон Амруллаевич, Тураев Зухриддин Баходирович, Эшонқулов Мансур Насим Угли, Жовлиев Сарвар Мустафо Угли, Юсупов Рустам Эшпулатович. Применение солнечных концентраторов для приема алтернативного топлива через устройство гелиопиролиза // Universum: технические науки. 2021. №3-4 (84).

14 Sh.B. Imomov, X.A. Alimardonov. Heat mode solar heating systems based on flat reflectors, sets on the north side of the building. Молодой ученый, 2015, 335-336 ст.

15 Т. Я. Хамраев, Х. А. Алмарданов. Режим работы установок для получения биогаза из селскохозяйственных отходов. Молодой ученый. — 2020. — № 25 (315). — С. 49-52.

16 Davlonov X.A., Almardanov H.A., Toshboyev A.R., Umirov F.B. Method of Thermal Processing of Biomass With Heliopyrolysis Device. 2021, International Journal of Human Computing Studies, 3(2), 149-151.

17 Давлонов Х.А., Алмарданов Х.А., Гадоев С.А., Шаймарданов И.З. Исследование теплового режима процесса гелиопиролиза биомасса // Универсум: технические науки : электрон. научн. журн. 2021. 4(85) 5-8 ст. https://7universum.com/ru/tech/archive/item/11550

18 Михеев М. А., Михеева И. М. Основы теплопередачи. Изд. 2-е, стереотип. М.,. «Энергия», 1977. 344 с.

Waiting

№	Name of reference
1	Abdurakhmanov A., Kuchkarov A.A., Holov Sh. R., Abdumuminov A.Calculation of opticalgeometrical characteristics of parabolic-cylindrical mirror concentrating systems // European science review. 2017. Vol. 2. P. 201-204.
2	Klychev Sh.I., Zakhidov R.A., Bakhramov S.A., Dudko Yu.A., Khudoikulov A.Ya., Klychev Z.Sh., and Khudoiberdiev I.A. Parameter optimization for paraboloid-cylinder-receiver system of thermal power plants // Applied Solar Energy. Applied Solar Energy. 2009. Vol. 45. No. 4. P. 281–284.
3	R.R. Avezov, N.R. Avezova, N.A. Matchanov, Sh.I. Suleimanov, R.D. Abdukadirova. History and State of Solar Engineering in Uzbekistan. Applied Solar Energy, 2012, Vol. 48, No. 1, pp. 14–19
4	K. Zeng, D.P. Minh, D. Gauthier, E. Weiss-Hortala, A. Nzihou, G. Flamant, The effect of temperature and heating rate on char properties obtained from solar pyrolysis of beech wood, Bioresour. Technol. 182 (2015) 114-119.
5	Szymon Sobek, SebastianWerle. Solar pyrolysis of waste biomass: Part 1 reactor design. Renewable Energy. Volume 143, December 2019, Pages 1939-1948.
6	Kuo Zeng, Rui Li, Doan Pham Minh, Elsa Weiss-Hortala, Ange Nzihou, Xiao He. Solar pyrolysis of heavy metal contaminated biomass for gas fuel production. Energy 187 (2019) 116016.
7	Ayala-Cortés A., Arancibia-Bulnes C.A., Villafán-Vidales H.I., Lobato-Peralta D.R., MartinezCasillas D., Cuentas-Gallegos A.K. Solar pyrolysis of agave and tomato pruning wastes: insights of the effect of pyrolysis operation parameters on the physicochemical properties of biochar. In: A Paper Presented at the SolarPACES Conference in Morocco, 2018.
8	G‗.N.Uzoqov, X.A.Davlonov. Gelioissiqxonalarning energiya tejamkor isitish tizimlari // Monografiya. Toshkent, Voris-nashriyoti, 143 b.
9	Uzakov, G.N., Davlonov, H.A. & Holikov, K.N. Study of the Influence of the Source Biomass Moisture Content on Pyrolysis Parameters. Appl. Sol. Energy 54, 481–484 (2018). https://doi.org/10.3103/S0003701X18060178
10	Uzakov G.N., Novik A.V., Davlonov X.A., Almardanov X.A., Chuliev S.E. Heat and Material Balance of Heliopyrolysis Device. ENERGETIKA. Proceedings of CIS higher education institutions and power engineering associations. 2023; 66(1):57-65. https://doi.org/10.21122/1029-7448-2023-66-1-57-65
11	Xayrulla Davlonov, Xamidulla Almardanov, Inomjon Khatamov, Sadriddin Urunboev, Palvan Kalandarov, and Orif Olimov, ―Study on heat and material balance of heliopyrolysis device‖, AIP Conference Proceedings 2686, 020023 (2022) https://doi.org/10.1063/5.0111855
12	Almardanov, H. and Chuliyev, S. 2022. Biomassadan geliopiroliz usulida yoqilg‗i olish tajriba qurilmasining parametrlarini asoslash. Innovatsion texnologiyalar. 1, 4 (Nov. 2022), 92–96.
13	Алмарданов Хамидулла Абдиғаниевич, Хатамов Иномжон Амруллаевич, Тураев Зухриддин Баходирович, Эшонқулов Мансур Насим Угли, Жовлиев Сарвар Мустафо Угли, Юсупов Рустам Эшпулатович. Применение солнечных концентраторов для приема алтернативного топлива через устройство гелиопиролиза // Universum: технические науки. 2021. №3-4 (84).
14	Sh.B. Imomov, X.A. Alimardonov. Heat mode solar heating systems based on flat reflectors, sets on the north side of the building. Молодой ученый, 2015, 335-336 ст.
15	Т. Я. Хамраев, Х. А. Алмарданов. Режим работы установок для получения биогаза из селскохозяйственных отходов. Молодой ученый. — 2020. — № 25 (315). — С. 49-52.
16	Davlonov X.A., Almardanov H.A., Toshboyev A.R., Umirov F.B. Method of Thermal Processing of Biomass With Heliopyrolysis Device. 2021, International Journal of Human Computing Studies, 3(2), 149-151.
17	Давлонов Х.А., Алмарданов Х.А., Гадоев С.А., Шаймарданов И.З. Исследование теплового режима процесса гелиопиролиза биомасса // Универсум: технические науки : электрон. научн. журн. 2021. 4(85) 5-8 ст. https://7universum.com/ru/tech/archive/item/11550
18	Михеев М. А., Михеева И. М. Основы теплопередачи. Изд. 2-е, стереотип. М.,. «Энергия», 1977. 344 с.