МАТЕМАТИЧЕСКАЯ МОДЕЛЬ НА ОСНОВЕ ТЕПЛОВЫХ СВОЙСТВ  ЦИРКУЛЯЦИОННОЙ ТЕПЛОВОЙ ТРУБЫ

Mirzaev  M S; Samiyev K A; Ochilov L I

Name of journalMUQOBIL ENERGETIKA
Number of edition04 (11) 2023
View count 4

Web Address

DOI

Date of creation in the UzSCI system 16-09-2024

Read count 4

Date of publication 28-12-2023

Main LanguageO'zbek

Pages79-87

Tags

Русский

В данной статье теоретические расчеты процессов тепломассообмена,

происходящих в циркуляционной тепловой трубе, сравниваются с экспериментальными

результатами. При этом были определены экономические и экологические показатели

тепловой трубы. Эксперименты проводились в естественных условиях с помощью тепловой

трубы кольцевого типа. В ходе экспериментальных исследований фиксировались почасовые

изменения солнечной радиации в течение суток, почасовые изменения температуры

окружающей среды, почасовые изменения скорости ветра и изменения температуры.

почасовое изменение температуры в участках тепловой трубки, нуждающихся в измерении,

определено экспериментальным путем. Изменения температуры можно объяснить на

основе происходящих в ней тепловых и термодинамических процессов. Математическая

модель для объяснения этих процессов была создана с помощью программы MathCAD. По

результатам КПД кольцевой тепловой трубы составляет 25-32% в зависимости от

параметров окружающей среды, срок окупаемости - 2,5-8 лет, ежегодное снижение

выбросов вредных газов в атмосферу - 111 кг. При установке предлагаемой тепловой трубы

на стены здания коэффициент теплопередачи стен здания может быть увеличен до 3,2 раза

в зависимости от уровня тепловой защиты.

Tags

энергосбережение

тепломассообмен

стена

солнечное излучение

теплообмен

испаритель

тепловая труба

рабочее тело

солнечная энергия

змеевик

адиабатическая область

№ Author name position Name of organisation

1 Mirzaev M.S. t.f.n., dots. BuxDU

2 Samiyev K.A. t.f.d., prof. BuxDU

3 Ochilov L.I. t.f.d., prof. BuxDU

№ Name of reference

1 https://earthbuddies.net/when-will-we-run-out-of-fossil-fuel/ (25.07.2023)

2 https://www.iea.org/data-and-statistics/data-tools/energy-statistics-databrowser?country=WORLD&fuel=Energy%20supply&indicator=TESbySource (25.07.2023)v

3 Costa A. , Keane M.M., Torrens J.I., Corry E. Building operation and energy performance: monitoring, analysis and optimisation toolkit Appl. Energy, 101 (2013), pp. 310-316

4 Elaouzy Y., El Fadar A. Energy, economic and environmental benefits of integrating passive design strategies into buildings: A review // Renewable and Sustainable Energy Reviews 167 (2022) 112828. https://doi.org/10.1016/j.rser.2022.112828

5 Gholamreza Heravi, Mohammad Mehdi Abdolvand Assessment of water1 consumption during production of material and construction phases of residential building projects // Sustainable Cities and Society 51 (2019) 101785. https://doi.org/10.1016/j.scs.2019.101785

6 Tingsen Chen, Shuli Liu, Yongliang Shen, Binxu Gao, Abdur Rehman Mazhar A novel triangular pulsating heat pipe with enhanced heat transfer performance for building energy efficiency // Case Studies in Thermal Engineering 49 (2023) 103286. https://doi.org/10.1016/j.csite.2023.103286

7 Duffie J., Beckman W. “Solar engineering of thermal processes”, New York, Wiley, p. 928, 2013.

8 Samiev K.A., Halimov A.S. Annual Thermal Performance of the Trombe Wall with Phase Change Heat Storage under Climate Conditions of Uzbekistan // Applied Solar Energy. –USA. – 2022. – Vol.58, №2. – P.297-305

9 Samiev K.A., Halimov A.S., Fayziev Sh.Sh. Multiobjective Optimization of Integration of the Trombe Wall in Buildings Using a Full Factorial Experiment // Applied Solar Energy. –USA. – 2022. –Vol.58, №1. – P.127-136

10 Avezova N.R., Avezov R.R., Rashidov Yu.K., Samiev K.A. Model-based analysis of nonstationary thermal mode in premises with an insolation passive heating system with a threelayer translucent shield // Applied Solar Energy. –USA. – 2014. Vol.50, №3. –pp.184-187

11 Avezova N.R., Avezov R.R., Samiev K.A., Kakhkharov S.K. Comparative analysis of technical characteristics and economic indicators of the "Trombe wall" system in different climatic zones of Uzbekistan // Applied Solar Energy. –USA. – 2021. Vol.57, №2. – P.128-134

12 Zhang, H. and Shu, H., A comprehensive evaluation on energy, economic and environmental performance of the Trombe wall during the heating season, J. Therm. Sci., 2019, vol. 28, pp.1141– 1149.

13 Wanxiang Yao, Chunze Liu, Xiangru Kong, Zhigang Zhang, Yan Wangc, Weijun Gaoa. A systematic review of heat pipe applications in buildings / Journal of Building Engineering 76 (2023) 107287. https://doi.org/10.1016/j.jobe.2023.107287

14 Gaugler, R. S. (1944, June 6). Heat transfer device. U.S. Patent 2,350,348

15 Grover G.M., US Patent 3229759. Filed 1963.

16 Reay D.A., Kew P.A., McGlen R.J. Heat Pipes Theory, Design and Applications / Sixth edition, Elsevier 2014, 251 pages

17 Bahman Zohuri Heat Pipe Design and Technology / Second Edition, Springer, 2016, 537 pages.

18 Stéphane Lips, Valérie Sartre, Frédéric Lefèvre, Sameer Khandekar, Jocelyn Bonjour. Overview of heat pipe studies during the period 2010-2015. Interfacial Phenomena and Heat Transfer, 2016, 4 (1), pp.33-53. 10.1615/InterfacPhenomHeatTransfer.2016016345. hal-01481272

19 Ахатов Ж.С., Самиев К.А., Рашидов К.Ю., Очилов Л.И. Пассивная теплоаккумулирующая система солнечного отопления с тепловой трубой. Патент на полезную модель, № FAP 02206 от 18.05.2022 // Официальный бюллетень. Агентство по интеллектуальной собственности РУз. – 2023. – Том.263, №2. – C.186.

20 https://data.meteo.uz/

21 Tan R., Zhang Z. Heat pipe structure on heat transfer and energy saving performance of the wall implanted with heat pipes during the heating season / Applied Thermal Engineering 102 (2016) 633–640.

22 Zhang H., Shu H.A. Comprehensive Evaluation on Energy, Economic and Environmental Performance of the Trombe Wall during the Heating Season / Journal of Thermal Science 28, pages1141–1149 (2019).

23 Ochilov L.I., Tursunov S.U. Bino va inshootlarni isitishda issiqlik quvurlaridan foydalanish / Ilm-fan va innovatsiya ilmiy-amaliy konferensiyasi 5 iyun 2023.

24 https://cbu.uz/oz/arkhiv-kursov-valyut/

Waiting

№	Author name	position	Name of organisation
1	Mirzaev M.S.	t.f.n., dots.	BuxDU
2	Samiyev K.A.	t.f.d., prof.	BuxDU
3	Ochilov L.I.	t.f.d., prof.	BuxDU

№	Name of reference
1	https://earthbuddies.net/when-will-we-run-out-of-fossil-fuel/ (25.07.2023)
2	https://www.iea.org/data-and-statistics/data-tools/energy-statistics-databrowser?country=WORLD&fuel=Energy%20supply&indicator=TESbySource (25.07.2023)v
3	Costa A. , Keane M.M., Torrens J.I., Corry E. Building operation and energy performance: monitoring, analysis and optimisation toolkit Appl. Energy, 101 (2013), pp. 310-316
4	Elaouzy Y., El Fadar A. Energy, economic and environmental benefits of integrating passive design strategies into buildings: A review // Renewable and Sustainable Energy Reviews 167 (2022) 112828. https://doi.org/10.1016/j.rser.2022.112828
5	Gholamreza Heravi, Mohammad Mehdi Abdolvand Assessment of water1 consumption during production of material and construction phases of residential building projects // Sustainable Cities and Society 51 (2019) 101785. https://doi.org/10.1016/j.scs.2019.101785
6	Tingsen Chen, Shuli Liu, Yongliang Shen, Binxu Gao, Abdur Rehman Mazhar A novel triangular pulsating heat pipe with enhanced heat transfer performance for building energy efficiency // Case Studies in Thermal Engineering 49 (2023) 103286. https://doi.org/10.1016/j.csite.2023.103286
7	Duffie J., Beckman W. “Solar engineering of thermal processes”, New York, Wiley, p. 928, 2013.
8	Samiev K.A., Halimov A.S. Annual Thermal Performance of the Trombe Wall with Phase Change Heat Storage under Climate Conditions of Uzbekistan // Applied Solar Energy. –USA. – 2022. – Vol.58, №2. – P.297-305
9	Samiev K.A., Halimov A.S., Fayziev Sh.Sh. Multiobjective Optimization of Integration of the Trombe Wall in Buildings Using a Full Factorial Experiment // Applied Solar Energy. –USA. – 2022. –Vol.58, №1. – P.127-136
10	Avezova N.R., Avezov R.R., Rashidov Yu.K., Samiev K.A. Model-based analysis of nonstationary thermal mode in premises with an insolation passive heating system with a threelayer translucent shield // Applied Solar Energy. –USA. – 2014. Vol.50, №3. –pp.184-187
11	Avezova N.R., Avezov R.R., Samiev K.A., Kakhkharov S.K. Comparative analysis of technical characteristics and economic indicators of the "Trombe wall" system in different climatic zones of Uzbekistan // Applied Solar Energy. –USA. – 2021. Vol.57, №2. – P.128-134
12	Zhang, H. and Shu, H., A comprehensive evaluation on energy, economic and environmental performance of the Trombe wall during the heating season, J. Therm. Sci., 2019, vol. 28, pp.1141– 1149.
13	Wanxiang Yao, Chunze Liu, Xiangru Kong, Zhigang Zhang, Yan Wangc, Weijun Gaoa. A systematic review of heat pipe applications in buildings / Journal of Building Engineering 76 (2023) 107287. https://doi.org/10.1016/j.jobe.2023.107287
14	Gaugler, R. S. (1944, June 6). Heat transfer device. U.S. Patent 2,350,348
15	Grover G.M., US Patent 3229759. Filed 1963.
16	Reay D.A., Kew P.A., McGlen R.J. Heat Pipes Theory, Design and Applications / Sixth edition, Elsevier 2014, 251 pages
17	Bahman Zohuri Heat Pipe Design and Technology / Second Edition, Springer, 2016, 537 pages.
18	Stéphane Lips, Valérie Sartre, Frédéric Lefèvre, Sameer Khandekar, Jocelyn Bonjour. Overview of heat pipe studies during the period 2010-2015. Interfacial Phenomena and Heat Transfer, 2016, 4 (1), pp.33-53. 10.1615/InterfacPhenomHeatTransfer.2016016345. hal-01481272
19	Ахатов Ж.С., Самиев К.А., Рашидов К.Ю., Очилов Л.И. Пассивная теплоаккумулирующая система солнечного отопления с тепловой трубой. Патент на полезную модель, № FAP 02206 от 18.05.2022 // Официальный бюллетень. Агентство по интеллектуальной собственности РУз. – 2023. – Том.263, №2. – C.186.
20	https://data.meteo.uz/
21	Tan R., Zhang Z. Heat pipe structure on heat transfer and energy saving performance of the wall implanted with heat pipes during the heating season / Applied Thermal Engineering 102 (2016) 633–640.
22	Zhang H., Shu H.A. Comprehensive Evaluation on Energy, Economic and Environmental Performance of the Trombe Wall during the Heating Season / Journal of Thermal Science 28, pages1141–1149 (2019).
23	Ochilov L.I., Tursunov S.U. Bino va inshootlarni isitishda issiqlik quvurlaridan foydalanish / Ilm-fan va innovatsiya ilmiy-amaliy konferensiyasi 5 iyun 2023.
24	https://cbu.uz/oz/arkhiv-kursov-valyut/