Performance analysis of automobile exhaust thermoelectric generator system with media fluid

2018 ◽  
Vol 171 ◽  
pp. 427-437 ◽  
Author(s):  
Yulong Zhao ◽  
Shixue Wang ◽  
Minghui Ge ◽  
Zhaojun Liang ◽  
Yifan Liang ◽  
...  
Keyword(s):  
Performance Analysis ◽  
Thermoelectric Generator ◽  
Generator System ◽  
Automobile Exhaust ◽  
Automobile Exhaust Thermoelectric Generator

Design of a Novel Heat Exchanger Using in Automobile Exhaust Thermoelectric Generator

2012 ◽  
Vol 430-432 ◽  
pp. 1428-1432
Author(s):  
Rui Quan ◽  
Xin Feng Tang ◽  
Shu Hai Quan ◽  
Ji Guang Wang
Keyword(s):  
Heat Exchanger ◽  
Temperature Distribution ◽  
Surface Temperature ◽  
Temperature Difference ◽  
Thermoelectric Generator ◽  
Thermoelectric Modules ◽  
Automobile Exhaust ◽  
Surface Temperature Distribution ◽  
Output Performance ◽  
Automobile Exhaust Thermoelectric Generator

The output performance of Automobile Exhaust Thermoelectric Generator (AETEG) is related to the temperature difference and electric connection topology of thermoelectric modules, in order to decrease the ring current among the thermoelectric modules in parallel with different temperature difference and enhance the output performance, a novel heat exchanger using in AETEG is designed in this paper. The interior structure of heat exchanger with fishbone is analysed, then its surface temperature distribution is simulated with ANSYS software and experimented with thermal imaging instrument. Both of the results show that the surface temperature distribution of the fishbone heat exchanger designed in this paper is more uniform in lateral direction and dispalys an obvious gradient in fore-and-aft surface, compared with the one of cavity designed before, the novel heat exchanger has overwhelming advantage in the output performance of AETEG, and the method adopted in this paper is feasible and practical.

Performance analysis of a hybrid photovoltaic-thermoelectric generator system using heat pipe as heat sink for synergistic production of electricity

2021 ◽  
Vol 249 ◽  
pp. 114830
Author(s):  
Yuanzhi Gao ◽  
Dongxu Wu ◽  
Zhaofeng Dai ◽  
Changling Wang ◽  
Bo Chen ◽  
...  
Keyword(s):  
Performance Analysis ◽  
Heat Pipe ◽  
Heat Sink ◽  
Thermoelectric Generator ◽  
Generator System

Study on the Automobile Exhaust Thermoelectric Generator Test Bench

2013 ◽  
Vol 668 ◽  
pp. 514-517
Author(s):  
Rui Quan ◽  
Xin Feng Tang ◽  
Shu Hai Quan
Keyword(s):  
Control System ◽  
Fuel Economy ◽  
Thermoelectric Generator ◽  
Test Bench ◽  
Combustion Engine ◽  
Initial Experiment ◽  
Automobile Exhaust ◽  
Output Performance ◽  
Exhaust Heat ◽  
Automobile Exhaust Thermoelectric Generator

In order to utilize the exhaust heat of internal combustion engine effectively and enhance its fuel economy, a test bench used in Automobile Exhaust Thermoelectric Generator (AETEG) is designed in this paper, the main controller, temperature monitoring unit and single voltage monitoring unit of the control system are elaborated. Finally, several initial experiment results are provided, it reveals that prolonging the exhaust’s transmission time and path appropriately can help raise the temperature of heat exchanger’s surface and enhance the output performance of AETEG, the method adopted in this paper is feasible and the AETEG test bench designed is practical.

The Effects of Backpressure on the Performance of Internal Combustion Engine and Automobile Exhaust Thermoelectric Generator

2022 ◽  
pp. 1-27
Author(s):  
Rui Quan ◽  
Yousheng Yue ◽  
Zikang Huang ◽  
Yufang Chang ◽  
Yadong Deng
Keyword(s):  
Heat Exchanger ◽  
Pressure Drop ◽  
Internal Combustion Engine ◽  
Thermoelectric Generator ◽  
Engine Speed ◽  
Combustion Engine ◽  
Internal Combustion ◽  
Automobile Exhaust ◽  
Automobile Exhaust Thermoelectric Generator ◽  
Co Emission

Abstract The maximum generated power of automobile exhaust thermoelectric generator (AETEG) can be enhanced by applying inserted fins to its heat exchanger, for the temperature difference of thermoelectric modules (TEMs) is increased. However, the heat exchanger will result in undesired backpressure, which may deteriorate the performance of the internal combustion engine (ICE). To evaluate the backpressure on the performance of both the ICE and the AETEG, the model of ICE integrated with AETEG was established with the GT-power software and validated with the AETEG test bench. The heat exchangers with chaos shape and fishbone shape were proposed, their pressure drop with different engine speeds was studied, and their effects on the performance of both the AETEG and the ICE were analyzed. The results showed that compared with the fishbone-shaped structure, the pressure drop of chaos-shaped heat exchanger is larger at the same engine speed, which contributes to the increased maximum power and hot side temperature of the AETEG. Moreover, compared with the ICE without heat exchanger, the brake torque, brake power, volumetric efficiency and pumping mean effective pressure of the ICE assembled with chaos-shape and fishbone-shape heat exchanger reduce, and the corresponding brake specific fuel consumption, CO emission and CO2 emission increase because of the raised backpressure caused by the heat exchanger.

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