Optimization of geometrical parameters of the heat receiver of a solar air heating collector
The article presents the optimization of the radiant surface of the solar air heating collector (SAH). As a radiation-receiving surface of the SAH, a surface is used, which is a system of metal drainage shavings and a V-shaped surface. Based on the study of the heat transfer process, an effective sc...
Main Authors: | , , , , |
---|---|
Format: | Article |
Language: | English |
Published: |
EDP Sciences
2024-01-01
|
Series: | BIO Web of Conferences |
Online Access: | https://www.bio-conferences.org/articles/bioconf/pdf/2024/03/bioconf_aquaculture2024_05036.pdf |
_version_ | 1797352996385849344 |
---|---|
author | Uzbekov Mirsoli Kuchkarov Akmal Boynazarov Bekzod Toxirov Muxammadrafiq Muminov Shermuhammad |
author_facet | Uzbekov Mirsoli Kuchkarov Akmal Boynazarov Bekzod Toxirov Muxammadrafiq Muminov Shermuhammad |
author_sort | Uzbekov Mirsoli |
collection | DOAJ |
description | The article presents the optimization of the radiant surface of the solar air heating collector (SAH). As a radiation-receiving surface of the SAH, a surface is used, which is a system of metal drainage shavings and a V-shaped surface. Based on the study of the heat transfer process, an effective scheme of heat removal from the radiation-receiving surface of the SAH is presented. When optimizing the radiation-sensing surface of the SAH, the process of radiation-sensing of the surface, which depends on the geometric shape of the chips, is taken as the target function of the maximum. A formula is proposed for calculating the determination of the transmitted amount of the radiant flux of the sun to the unit of the frontal surface through the shape of the metal shavings from the value of the opening step angle in different thicknesses of the metal shavings. It has been confirmed that the solar radiant flux passing to the unit of the frontal surface through the metal chip shape reaches its maximum value in the following cases: when the chips are 0,002 m thick, they have an optimal angle φ = 58°, the transmitted energy of the radiant flux through the chip shape is E = 31%; with a chip thickness of 0,0005 m, the optimal angle is φ = 42°, the transmitted energy of the radiant flux through the chip shape is E = 41%; with a thickness of 0,001 m, the optimal angle is φ = 50°, the transmitted energy of the radiant flux through the chip shape is. |
first_indexed | 2024-03-08T13:24:50Z |
format | Article |
id | doaj.art-aa9b539bfc0f4642b816fc65b055ec2d |
institution | Directory Open Access Journal |
issn | 2117-4458 |
language | English |
last_indexed | 2024-03-08T13:24:50Z |
publishDate | 2024-01-01 |
publisher | EDP Sciences |
record_format | Article |
series | BIO Web of Conferences |
spelling | doaj.art-aa9b539bfc0f4642b816fc65b055ec2d2024-01-17T14:59:24ZengEDP SciencesBIO Web of Conferences2117-44582024-01-01840503610.1051/bioconf/20248405036bioconf_aquaculture2024_05036Optimization of geometrical parameters of the heat receiver of a solar air heating collectorUzbekov Mirsoli0Kuchkarov Akmal1Boynazarov Bekzod2Toxirov Muxammadrafiq3Muminov Shermuhammad4Fergana Polytechnical InstituteFergana Polytechnical InstituteFergana Polytechnical InstituteFergana Polytechnical InstituteFergana Polytechnical InstituteThe article presents the optimization of the radiant surface of the solar air heating collector (SAH). As a radiation-receiving surface of the SAH, a surface is used, which is a system of metal drainage shavings and a V-shaped surface. Based on the study of the heat transfer process, an effective scheme of heat removal from the radiation-receiving surface of the SAH is presented. When optimizing the radiation-sensing surface of the SAH, the process of radiation-sensing of the surface, which depends on the geometric shape of the chips, is taken as the target function of the maximum. A formula is proposed for calculating the determination of the transmitted amount of the radiant flux of the sun to the unit of the frontal surface through the shape of the metal shavings from the value of the opening step angle in different thicknesses of the metal shavings. It has been confirmed that the solar radiant flux passing to the unit of the frontal surface through the metal chip shape reaches its maximum value in the following cases: when the chips are 0,002 m thick, they have an optimal angle φ = 58°, the transmitted energy of the radiant flux through the chip shape is E = 31%; with a chip thickness of 0,0005 m, the optimal angle is φ = 42°, the transmitted energy of the radiant flux through the chip shape is E = 41%; with a thickness of 0,001 m, the optimal angle is φ = 50°, the transmitted energy of the radiant flux through the chip shape is.https://www.bio-conferences.org/articles/bioconf/pdf/2024/03/bioconf_aquaculture2024_05036.pdf |
spellingShingle | Uzbekov Mirsoli Kuchkarov Akmal Boynazarov Bekzod Toxirov Muxammadrafiq Muminov Shermuhammad Optimization of geometrical parameters of the heat receiver of a solar air heating collector BIO Web of Conferences |
title | Optimization of geometrical parameters of the heat receiver of a solar air heating collector |
title_full | Optimization of geometrical parameters of the heat receiver of a solar air heating collector |
title_fullStr | Optimization of geometrical parameters of the heat receiver of a solar air heating collector |
title_full_unstemmed | Optimization of geometrical parameters of the heat receiver of a solar air heating collector |
title_short | Optimization of geometrical parameters of the heat receiver of a solar air heating collector |
title_sort | optimization of geometrical parameters of the heat receiver of a solar air heating collector |
url | https://www.bio-conferences.org/articles/bioconf/pdf/2024/03/bioconf_aquaculture2024_05036.pdf |
work_keys_str_mv | AT uzbekovmirsoli optimizationofgeometricalparametersoftheheatreceiverofasolarairheatingcollector AT kuchkarovakmal optimizationofgeometricalparametersoftheheatreceiverofasolarairheatingcollector AT boynazarovbekzod optimizationofgeometricalparametersoftheheatreceiverofasolarairheatingcollector AT toxirovmuxammadrafiq optimizationofgeometricalparametersoftheheatreceiverofasolarairheatingcollector AT muminovshermuhammad optimizationofgeometricalparametersoftheheatreceiverofasolarairheatingcollector |