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Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Optimization of the cold‐side heat exchanger design to improve the performance of the motorcycle exhaust thermoelectric generator
This study optimizes the main parameters of the cold‐side heat exchanger (CHE) longitudinal fin, including fin quantity (Nf), fin thickness (Tf), and fin height (Hf), to enhance the performance of motorcycle exhaust thermoelectric generator units (TGUs) utilizing the computational fluid dynamics approach. The investigation shows that these parameters significantly affect the dissipation area of the CHE heat and the outside air velocity distribution in fin gaps, resulting in the fluctuation of TGU output power. The output power increases with respect to Hf; nevertheless, it first increases as Nf and Tf increase but decreases dramatically when Nf or Tf becomes too large. Besides, Hf significantly affects output power, and its impact is almost independent of Tf and Nf, and vice versa; meanwhile, Tf and Nf have a strong relation. This study proposes two Hf of 40 and 60 mm along with the optimal Tf of 1 mm and Nf of 29, providing significantly high output power, low weight, and compact size for TGU. This work contributes insight into the effect of CHE parameters on the TGU performance, and it is a crucial case study for selecting suitable heat sink parameters for TGU, considering practical requirements and conditions.
Optimization of the cold‐side heat exchanger design to improve the performance of the motorcycle exhaust thermoelectric generator
This study optimizes the main parameters of the cold‐side heat exchanger (CHE) longitudinal fin, including fin quantity (Nf), fin thickness (Tf), and fin height (Hf), to enhance the performance of motorcycle exhaust thermoelectric generator units (TGUs) utilizing the computational fluid dynamics approach. The investigation shows that these parameters significantly affect the dissipation area of the CHE heat and the outside air velocity distribution in fin gaps, resulting in the fluctuation of TGU output power. The output power increases with respect to Hf; nevertheless, it first increases as Nf and Tf increase but decreases dramatically when Nf or Tf becomes too large. Besides, Hf significantly affects output power, and its impact is almost independent of Tf and Nf, and vice versa; meanwhile, Tf and Nf have a strong relation. This study proposes two Hf of 40 and 60 mm along with the optimal Tf of 1 mm and Nf of 29, providing significantly high output power, low weight, and compact size for TGU. This work contributes insight into the effect of CHE parameters on the TGU performance, and it is a crucial case study for selecting suitable heat sink parameters for TGU, considering practical requirements and conditions.
Optimization of the cold‐side heat exchanger design to improve the performance of the motorcycle exhaust thermoelectric generator
Hong, Thong Duc (Autor:in) / Nguyen, Duc Hong Tran (Autor:in) / Pham, Minh Quang (Autor:in) / Van Huynh, Em Bao (Autor:in) / Tran, Tien Anh (Autor:in)
Heat Transfer ; 53 ; 4225-4243
01.12.2024
19 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Thermal Optimization of Exhaust-Based Thermoelectric Generator
| British Library Online Contents | 2013
DESIGN AND ANALYSIS OF THERMOELECTRIC GENERATOR FOR WASTE HEAT RECOVERY FROM AUTOMOBILE EXHAUST
| BASE | 2021