The Potential of Thermoelectric Generator for Engine Exhaust Heat Recovery Applications

Sugiartha, Nyoman; Negara, I Putu Sastra

doi:10.21660/2018.49.ijcst10

Cited by 2 publications

(2 citation statements)

References 10 publications

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“…Peltier module or thermoelectric cooling (TEC) modules are an alternative way of cooling. As many studies have shown, the efficiency of TEC devices is low [12,13] compared to that of thermodynamic heat pumps, but their volume demand price/cooling power ratio is much lower. In addition to this they have no moving parts [14].…”

Section: Thermoelectric Coolingmentioning

confidence: 99%

Heat Sink Shape and Topology Optimization with Pareto-Vector Length Optimization for Air Cooling

Szodrai

2020

Energies

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Localized air cooling can be used for various purposes, e.g.: electronic equipment cooling, and air conditioning. The paper emphasizes that the connection between the air-flow and cooling has to fulfill a contradictory requirement (low pressure loss and effective cooling). The cooling and the pressure loss are dependent on the moisture content of the air flow. In the study, heat sink geometries were examined at various fresh air relative humidity, temperature and flowrates with commercially available simulation software (Ansys Fluent). The most favorable option was chosen by Pareto-vector length optimization. For optimization, head loss coefficient and temperature coefficient were used. Firstly, 108 cases were made to evaluate the sensitivity of the optimization parameters. Secondly, on 40 finned heat sinks with different fin width and quantity optimization were made. Thirdly, a prototype was made from the favorite solution where the performance was evaluated. For the measurement two type: TEC1-12706 thermoelectric cooling devices (TEC) were used for cooling. The difference between the measured and the modelled cooled air temperatures was 3%.

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Section: Thermoelectric Coolingmentioning

confidence: 99%

Heat Sink Shape and Topology Optimization with Pareto-Vector Length Optimization for Air Cooling

Szodrai

2020

Energies

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“…In their research, [5] [insert study names or authors] delved into the generation of electricity using Peltier modules and explored the use of thermoelectric elements to improve thermal comfort in automobiles. Additionally, studies have focused on the potency of thermoelectric generators for hybrid vehicles, the development [6] of heat extraction systems for automobile applications using Peltier devices, and the utilization of Peltier effects for creating cooling and heating devices for car seats. Furthermore, research has also examined thermoelectric air cooling for cars, optimal design of thermoelectric cooling/heating systems for car seat climate control, and the analysis of cool air ventilated seat covers.…”

Section: Introductionmentioning

confidence: 99%

Utilization of Peltier Chipsets in Electric Vehicles to Charge Li-Ion Batteries

Skheta,

Akar

2023

icat

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Using the Peltier effect for power generation is a relatively new technology that has been gaining attention in recent years. Using Peltier chips for power generation in EVs is an interesting approach that has the potential to provide a renewable and sustainable source of energy. By using the heat generated by the car's components during operation, the Peltier chips can generate electricity, which can be used to charge the battery. This approach has several benefits, including reducing the reliance on fossil fuels, improving the efficiency of the vehicle, and reducing the carbon footprint of the EV. The Peltier effect is a thermoelectric phenomenon that converts temperature differences into electrical energy to generate enough power to recharge an electric vehicle battery, several Peltier chips can be connected in series, and a converter can be used to convert the generated voltage into a sufficient voltage and can charge the battery. In this paper, an in-depth exploration will be conducted to evaluate the overall effectiveness and efficiency of Pelter chips, with a particular focus on simulating the utilization of these chips through the utilization of Proteus software.

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The Potential of Thermoelectric Generator for Engine Exhaust Heat Recovery Applications

Cited by 2 publications

References 10 publications

Heat Sink Shape and Topology Optimization with Pareto-Vector Length Optimization for Air Cooling

Heat Sink Shape and Topology Optimization with Pareto-Vector Length Optimization for Air Cooling

Utilization of Peltier Chipsets in Electric Vehicles to Charge Li-Ion Batteries

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