EXPERIMENTAL STUDY OF COOLING FLUID VARIATION ON THE THERMOELECTRIC HOT SIDE ON THERMOELECTRIC VACCINE COOLER BOX PERFORMANCE
The advanced countries make health a high priority and collaborate to create a better quality of life. Vaccination is a critical component of global health. Vaccines must be stored at a constant temperature of 2-8℃, to maintain the viability of the vaccine cold chain. Thermoelectric cooling systems...
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University of Brawijaya
2024-12-01
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Online Access: | https://rekayasamesin.ub.ac.id/index.php/rm/article/view/1850 |
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author | Novreza Pratama Imron Rosyadi Hadi Wahyudi M. Haykal Fasya |
author_facet | Novreza Pratama Imron Rosyadi Hadi Wahyudi M. Haykal Fasya |
author_sort | Novreza Pratama |
collection | DOAJ |
description | The advanced countries make health a high priority and collaborate to create a better quality of life. Vaccination is a critical component of global health. Vaccines must be stored at a constant temperature of 2-8℃, to maintain the viability of the vaccine cold chain. Thermoelectric cooling systems (TECs) are a solution that is simple, lightweight, low cost, and portable. Excessively high hot-side temperatures can be detrimental to operators and the environment during distribution processes. The application of fans and circulating fluid can reduce the TEC hot-side temperature. The lowest TEC temperature difference of 30.26℃ is achieved by using only a fan. The minimum hot side of 31.28℃ is achieved with the fan and circulating water model. The minimum cold side can be increased to 0.53℃ with the fan and circulating radiator coolant model. All tests were at vaccine-eligible temperatures. The best COP of 0.14 can be reached in this study. |
format | Article |
id | doaj-art-adfd4748f837401a965dc48341753629 |
institution | Kabale University |
issn | 2338-1663 2477-6041 |
language | English |
publishDate | 2024-12-01 |
publisher | University of Brawijaya |
record_format | Article |
series | Rekayasa Mesin |
spelling | doaj-art-adfd4748f837401a965dc483417536292025-01-21T01:57:48ZengUniversity of BrawijayaRekayasa Mesin2338-16632477-60412024-12-011531799180810.21776/jrm.v15i3.18501561EXPERIMENTAL STUDY OF COOLING FLUID VARIATION ON THE THERMOELECTRIC HOT SIDE ON THERMOELECTRIC VACCINE COOLER BOX PERFORMANCENovreza Pratama0Imron Rosyadi1Hadi Wahyudi2M. Haykal Fasya3Universitas Sebelas MaretUniversitas Sultan Ageng TirtayasaUniversitas Sultan Ageng TirtayasaUniversitas Sultan Ageng TirtayasaThe advanced countries make health a high priority and collaborate to create a better quality of life. Vaccination is a critical component of global health. Vaccines must be stored at a constant temperature of 2-8℃, to maintain the viability of the vaccine cold chain. Thermoelectric cooling systems (TECs) are a solution that is simple, lightweight, low cost, and portable. Excessively high hot-side temperatures can be detrimental to operators and the environment during distribution processes. The application of fans and circulating fluid can reduce the TEC hot-side temperature. The lowest TEC temperature difference of 30.26℃ is achieved by using only a fan. The minimum hot side of 31.28℃ is achieved with the fan and circulating water model. The minimum cold side can be increased to 0.53℃ with the fan and circulating radiator coolant model. All tests were at vaccine-eligible temperatures. The best COP of 0.14 can be reached in this study.https://rekayasamesin.ub.ac.id/index.php/rm/article/view/1850thermoelectric coolercold chaincopheatsink |
spellingShingle | Novreza Pratama Imron Rosyadi Hadi Wahyudi M. Haykal Fasya EXPERIMENTAL STUDY OF COOLING FLUID VARIATION ON THE THERMOELECTRIC HOT SIDE ON THERMOELECTRIC VACCINE COOLER BOX PERFORMANCE Rekayasa Mesin thermoelectric cooler cold chain cop heatsink |
title | EXPERIMENTAL STUDY OF COOLING FLUID VARIATION ON THE THERMOELECTRIC HOT SIDE ON THERMOELECTRIC VACCINE COOLER BOX PERFORMANCE |
title_full | EXPERIMENTAL STUDY OF COOLING FLUID VARIATION ON THE THERMOELECTRIC HOT SIDE ON THERMOELECTRIC VACCINE COOLER BOX PERFORMANCE |
title_fullStr | EXPERIMENTAL STUDY OF COOLING FLUID VARIATION ON THE THERMOELECTRIC HOT SIDE ON THERMOELECTRIC VACCINE COOLER BOX PERFORMANCE |
title_full_unstemmed | EXPERIMENTAL STUDY OF COOLING FLUID VARIATION ON THE THERMOELECTRIC HOT SIDE ON THERMOELECTRIC VACCINE COOLER BOX PERFORMANCE |
title_short | EXPERIMENTAL STUDY OF COOLING FLUID VARIATION ON THE THERMOELECTRIC HOT SIDE ON THERMOELECTRIC VACCINE COOLER BOX PERFORMANCE |
title_sort | experimental study of cooling fluid variation on the thermoelectric hot side on thermoelectric vaccine cooler box performance |
topic | thermoelectric cooler cold chain cop heatsink |
url | https://rekayasamesin.ub.ac.id/index.php/rm/article/view/1850 |
work_keys_str_mv | AT novrezapratama experimentalstudyofcoolingfluidvariationonthethermoelectrichotsideonthermoelectricvaccinecoolerboxperformance AT imronrosyadi experimentalstudyofcoolingfluidvariationonthethermoelectrichotsideonthermoelectricvaccinecoolerboxperformance AT hadiwahyudi experimentalstudyofcoolingfluidvariationonthethermoelectrichotsideonthermoelectricvaccinecoolerboxperformance AT mhaykalfasya experimentalstudyofcoolingfluidvariationonthethermoelectrichotsideonthermoelectricvaccinecoolerboxperformance |