Experimental Study and Performance Analysis of Thermoelectric Cooler Using Solar Photovoltaic Energy
Thermoelectric coolers need electrical energy to create temperature differences between the hot and cold sides; however, photovoltaic systems immediately convert solar radiation into electrical energy. The study is a combined (PV-TEC)—experimental study on a thermoelectric cooler operating by the Pe...
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| Published in | Applied mechanics and materials Vol. 922; pp. 135 - 144 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
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Trans Tech Publications Ltd
19.08.2024
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| Abstract | Thermoelectric coolers need electrical energy to create temperature differences between the hot and cold sides; however, photovoltaic systems immediately convert solar radiation into electrical energy. The study is a combined (PV-TEC)—experimental study on a thermoelectric cooler operating by the Peltier effect to analyze and develop the TEC. One TEC was used, and its dimensions were (40*40*3.4) mm. The current required by the TEC is 6A and 12V DC. The thermoelectric cooler is electrically powered by a solar system consisting of two 660W solar panels, a solar charger and two 12V batteries. The results revealed a relationship between the coefficient of performance and the input energy, as the COP showed an increase as the input energy decreased, which is an essential factor for the cooling process. The temperature difference, which was the difference between ambient and cold temperatures, is related to the COP. The COP rises as the temperature difference decreases until it becomes stable. Moreover, the consumption current is an important factor in electronic devices, so the study focused on demonstrating the effect of the cold side temperature on the current, and an empirical equation was found between them. It has been found that a decrease in the temperature of the cold side leads to a sharp reduction in the consumption current until it stabilizes. The maximum coefficient of performance was 3.7436, obtained at the current 1.4 and cold side temperature of zero degrees centigrade. This high value of the coefficient of performance resulted from using curved fins to improve heat dissipation from the hot side. |
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| AbstractList | Thermoelectric coolers need electrical energy to create temperature differences between the hot and cold sides; however, photovoltaic systems immediately convert solar radiation into electrical energy. The study is a combined (PV-TEC)—experimental study on a thermoelectric cooler operating by the Peltier effect to analyze and develop the TEC. One TEC was used, and its dimensions were (40*40*3.4) mm. The current required by the TEC is 6A and 12V DC. The thermoelectric cooler is electrically powered by a solar system consisting of two 660W solar panels, a solar charger and two 12V batteries. The results revealed a relationship between the coefficient of performance and the input energy, as the COP showed an increase as the input energy decreased, which is an essential factor for the cooling process. The temperature difference, which was the difference between ambient and cold temperatures, is related to the COP. The COP rises as the temperature difference decreases until it becomes stable. Moreover, the consumption current is an important factor in electronic devices, so the study focused on demonstrating the effect of the cold side temperature on the current, and an empirical equation was found between them. It has been found that a decrease in the temperature of the cold side leads to a sharp reduction in the consumption current until it stabilizes. The maximum coefficient of performance was 3.7436, obtained at the current 1.4 and cold side temperature of zero degrees centigrade. This high value of the coefficient of performance resulted from using curved fins to improve heat dissipation from the hot side. |
| Author | Al-Hamadani, Ali A.F. Ali Taher, Noor Al Huda |
| Author_xml | – givenname: Noor Al Huda surname: Ali Taher fullname: Ali Taher, Noor Al Huda email: ntaher@uowasit.edu.iq organization: Wasit University : College of Engineering, Mechanical Department – givenname: Ali A.F. surname: Al-Hamadani fullname: Al-Hamadani, Ali A.F. email: aalhamadani@uowasit.edu.iq organization: Wasit University : College of Engineering, Mechanical Department |
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| Keywords | Thermoelectric Cooler Solar Energy Photovoltaic System Peltier Effect Thermoelectric Module |
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| References | Kandry (5561139); 66 A'laa Taghi Al-Azawi (5587122) 2020; 7 Jouhara (5587125); 9 5587130 Witting (5587132) 2019; 5 Srivastava (5587131); 181 5561138 5561137 Acır (5587127); 265 5587128 (5587126) 2019; 17 5587129 5587133 5587123 5587134 5587124 |
| References_xml | – ident: 5561137 – ident: 5561138 – volume: 66 start-page: 479 ident: 5561139 article-title: Optimized photovoltaic panels power using cooling system based thermoelectric materials publication-title: Materials Today: Proceedings doi: 10.1016/j.matpr.2022.07.381 – volume: 7 start-page: 1 issn: 2663-1970 issue: 3 year: 2020 ident: 5587122 article-title: The Effect of Different Absorber Configurations On The Exergy and The Energy of Parabolic Solar Dish publication-title: Wasit Journal of Engineering Sciences doi: 10.31185/ejuow.vol7.iss3.133 – ident: 5587133 – ident: 5587134 – ident: 5587129 – volume: 9 start-page: 100063 ident: 5587125 article-title: Thermoelectric generator (TEG) technologies and applications publication-title: International Journal of Thermofluids doi: 10.1016/j.ijft.2021.100063 – ident: 5587128 doi: 10.1088/1742-6596/1120/1/012101 – ident: 5587123 – ident: 5587124 – volume: 5 issn: 2199-160X issue: 6 year: 2019 ident: 5587132 article-title: The Thermoelectric Properties of Bismuth Telluride publication-title: Advanced Electronic Materials doi: 10.1002/aelm.201800904 – volume: 17 start-page: 495 issn: 2172-038X year: 2019 ident: 5587126 article-title: Integration of Thermoelectric generators (TEG) in Solar PVT panels publication-title: Renewable Energy and Power Quality Journal doi: 10.24084/repqj17.355 – volume: 265 start-page: 112028 ident: 5587127 article-title: Experimental investigation of a thermal energy storage unit integrated with thermoelectric generators under solar radiation publication-title: Solar Energy doi: 10.1016/j.solener.2023.112028 – ident: 5587130 – volume: 181 start-page: 384 ident: 5587131 article-title: Solar assisted thermoelectric cooling/heating system for vehicle cabin during parking: A numerical study publication-title: Renewable Energy doi: 10.1016/j.renene.2021.09.063 |
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| SubjectTerms | Consumption Coolers Dissipation factor Empirical equations Fins Peltier effects Photovoltaic cells Solar panels Solar radiation Temperature Temperature gradients Thermoelectric cooling |
| Title | Experimental Study and Performance Analysis of Thermoelectric Cooler Using Solar Photovoltaic Energy |
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