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Main Authors: Amiri-Margavi, Alireza, Jamali, Reza, Hosseini, Seyed Aria, Torabi, Farschad
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2403.01614
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author Amiri-Margavi, Alireza
Jamali, Reza
Hosseini, Seyed Aria
Torabi, Farschad
author_facet Amiri-Margavi, Alireza
Jamali, Reza
Hosseini, Seyed Aria
Torabi, Farschad
contents New strategy is presented to optimize the performance of Thermoelectric (TE) coolers. This approach breaks optimizing TE coolers free from traditional methods of controlling temperature or engineering materials and the structural properties of the junctions. We introduced a dimensionless figure, γ, that shows the ratio of the unavailable cooling capacity to the available cooling capacity. This parameter relates the TE coolers' coefficient of performance (COP) to the COP of the reversible cycle (second law of thermodynamics efficiency) for a given electrical current. The theoretical description of the model is presented, and it is shown that controlling γ during the TE performance minimizes entropy generation and energy loss, which leads to the maximum pumped heat. We validated this model against a designed TE cooler. In this cooler, contrary to conventional TE coolers, where the temperature of the cold space is generally controlled at a specific temperature, and the performance of the cooler overlooked, the entropy generation and heat loss are engineered, and the electrical current is tuned to minimize γ by the controller so that the TE cooler works near to its optimum performance at any time.
format Preprint
id arxiv_https___arxiv_org_abs_2403_01614
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Real-time optimization of thermoelectric coolers' performance based on energy and exergy analysis
Amiri-Margavi, Alireza
Jamali, Reza
Hosseini, Seyed Aria
Torabi, Farschad
Systems and Control
New strategy is presented to optimize the performance of Thermoelectric (TE) coolers. This approach breaks optimizing TE coolers free from traditional methods of controlling temperature or engineering materials and the structural properties of the junctions. We introduced a dimensionless figure, γ, that shows the ratio of the unavailable cooling capacity to the available cooling capacity. This parameter relates the TE coolers' coefficient of performance (COP) to the COP of the reversible cycle (second law of thermodynamics efficiency) for a given electrical current. The theoretical description of the model is presented, and it is shown that controlling γ during the TE performance minimizes entropy generation and energy loss, which leads to the maximum pumped heat. We validated this model against a designed TE cooler. In this cooler, contrary to conventional TE coolers, where the temperature of the cold space is generally controlled at a specific temperature, and the performance of the cooler overlooked, the entropy generation and heat loss are engineered, and the electrical current is tuned to minimize γ by the controller so that the TE cooler works near to its optimum performance at any time.
title Real-time optimization of thermoelectric coolers' performance based on energy and exergy analysis
topic Systems and Control
url https://arxiv.org/abs/2403.01614