A Solar-Powered In-Vehicle Semiconductor Refrigeration System

Yi Tao Liu; Chang Ping Zhu; Jun Yang Zhao; Hao Bo Sun; Bin Wang; Yi Bin Tang; Bing Yan Chen; Jin Chen; Rong Qian; Deng Feng Jiang

doi:10.4028/www.scientific.net/AMM.587-589.199

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 587-589A Solar-Powered In-Vehicle Semiconductor...

A Solar-Powered In-Vehicle Semiconductor Refrigeration System

Abstract:

A solar-powered in-vehicle semiconductor refrigeration system by remote control is put forward. With the solar power as the source of energy, the in-vehicle refrigeration system uses the safe and pollution-free semiconductor refrigeration method, and adopts the GSM technology to make the remote control via the short message of the mobile phone, so as to achieve the cooling effect without starting the engine of the car. Through the model experiment, the working current and power consumption as well as the refrigeration temperature control effect of the system were analyzed, and verified the feasibility of the system. Being energy saving and environmental friendly, this design has a high application potential.

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Periodical:

Applied Mechanics and Materials (Volumes 587-589)

Pages:

199-202

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.587-589.199

Citation:

Cite this paper

Online since:

July 2014

Authors:

Yi Tao Liu, Chang Ping Zhu*, Jun Yang Zhao, Hao Bo Sun, Bin Wang, Yi Bin Tang, Bing Yan Chen, Jin Chen, Rong Qian, Deng Feng Jiang

Keywords:

Car Air-Conditioner, GSM Technology, Semiconductor Refrigeration, Solar Power

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* - Corresponding Author

References

[1] Martini S., Magini M., Mola S., et al. High-efficiency air conditioning - Improving comfort and reducing impact on fuel consumption. Vehicle Thermal Management Systems, 2003, (6): 273-282.

Google Scholar

[2] Jia Liu, Changgui Xu, Huiyu Xiang, et al. Applications in Medical Reagent Test Equipment of Semiconductor Refrigeration. Applied Mechanics and Materials, 2013, (327): 703-707.

DOI: 10.4028/www.scientific.net/amm.325-326.703

Google Scholar

[3] Peng Han, Kuijuan Jin, Shangfen Ren, et al. Numerical Analysis of Optothermionic Refrigeration in Semiconductor Triple-well Structure. Applied Physics Letters, 2007, 102(11): 167-171.

DOI: 10.1063/1.2817256

Google Scholar

[4] Fan Yang, Hongwei Peng, Weibing Hu, et al. Study Technology of Maximum Power Point Tracker on the Solar Cell. Chinese Journal of Electron Devices, 2008, 31(4): 1081-1084.

Google Scholar

[5] Bin Wang, Changping Zhu, Minglei Shan, et al. A High-efficiency Acoustic Modem Used in the Underwater Acoustic Sensor Network. Technical Acoustics, 2012, 31(4): 436-441.

Google Scholar

[6] Qing Wu, Xi'an Dai. Simplified Calculation of Refrigerating Output of Minicar Air Conditioner. Equipment Manufacturing Technology, 2006, (4): 72-75.

Google Scholar