ペルチェ素子を利用した生体用小型冷却装置の数学モデル中のパラメータに関する研究(装置の冷却性能およびサイズの影響)

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Published in日本機械学会論文集 Vol. 83; no. 849; p. 16-00473
Main Authors 齊藤, 俊, 森, 浩二, 上原, 賢祐
Format Journal Article
LanguageJapanese
Published 一般社団法人 日本機械学会 2017
Subjects
Cooling device
Cooling therapy
Mathematical model
Parameter identification
Peltier element
Online AccessGet full text
ISSN2187-9761
DOI10.1299/transjsme.16-00473

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Author 上原, 賢祐
齊藤, 俊
森, 浩二
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  fullname: 齊藤, 俊
  organization: 山口大学大学院 創成科学研究科
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  fullname: 森, 浩二
  organization: 山口大学大学院 創成科学研究科
– sequence: 1
  fullname: 上原, 賢祐
  organization: 山口大学大学院 医学系研究科
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Copyright 2017 一般社団法人日本機械学会
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References Uehara, K., Ukida, Y., Murakami, T., Mori, K. and Saito, T., Investigation on temperature control model of the focal cooling human physiological system, Dynamics and Design Conference (CD-ROM), Vol.2015 (2015), Page. ROMBUNNO.234 (in Japanese).
Ukida, Y., Ichikawa, T., Saito, T., Kida, H., Hujii, M. and Suzuki, M., Research on the mathematical model and temperature control of a focal cooling device for biological objects, JSME annual meeting, (CD-ROM), Vol.2012 (2012), Page.ROMBUNNO.J022014 (in Japanese).
Palacios, R., Arenas, A., Pecharroman, R. R. and Pagola, F. L., Analytical procedure to obtain internal parameters from performance curves of commercial thermoelectric modules, Applied Thermal Engineering, Vol.29, No.17-18 (2009), pp.3501-3505.
Takahashi, D., Makaya, K., Nakamura, H. and Fukumoto, I., A study of cryonecrosis and stress range using Peltier element type cryosurgery system, IEICE Technical Report, Vol.105, No.304 (2005), pp.11-14 (in Japanese).
Yadav, S., Kumar, S. and Yamasani, P., Experimental studies on a micro power generator using thermos-electric modules mounted on a micro-combustor, Energy Conversion and Management, Vol.99 (2015), pp.1-7.
Gou, X., Xiao, H. and Yang, S., Modeling, experimental study and optimization on low-temperature waste heat thermoelectric generator system, Applied Energy, Vol.87, No.10 (2010), pp.3131-3136.
Perez-Aparicio, J. I. and Palma, R., Finite element analysis and material sensitivity of Peltier thermoelectric cells coolers, International Journal of Heat and Mass Transfer, Vol.55, No.4 (2012), pp.1363-1374.
Saito, T., Nakano, K., Uchiyama, J., Fujii, M., Suzuki, M. and Imoto, H., Focal cooling system for termination of neocortical seizure, The 2003 JSME-IIP / ASME-ISPS Joint Conference on Micromechanics for Information and Precision Equipment (IIP/ISPS Joint MIPE ‘03) (2003), pp.153-154.
Ueoka, S., Kijima, H. and Nakata, N., Characteristics of heat transfer at elastic contact between die and material in hot working, Tetsu-to-Hagane, Vol.101, No.6 (2015), pp.15-21 (in Japanese).
Fujii, M., Fujioka, H., Oku, T., Tanaka, N., Imoto, H., Maruta, Y., Nomura, S., Kajiwara, K., Saito, T., Yamanaka, T., Yamakawa, T. and Suzuki, M., Application of focal cerebral cooling for the treatment of intractable epilepsy, Neurologia medico-chirurgica (Tokyo), Vol.50 (2010), pp.839-844.
Mannella, G. A., La., C. V. and Brucato, V., Peltier cells as temperature control elements: Experimental characterization and modeling, Applied Thermal Engineering, Vol.63, No.1 (2014), pp.234-245.
Takeda, H., Aiba, S., Komiya, A. and Maruyama, S., A study for Precise and Repeatable Cryosurgery by the Peltier Cryoprobe Utilizing the Skin Tissue, Heat Transfer Symposium of Japan (CD-ROM), Vol.46th (2009), Page.ROMBUNNO.G-1301 (in Japanese).
Zhang, H. Z., Mui, Y. C. and Train, M., Analysis of thermoelectric cooler performance for high power electronic packages, Applied Thermal Engineering, Vol.30, No.6-7 (2010), pp.561-568.
Barako, M. T., Park, W., Marconnect, A. M., Asheghi, M. and Gooddon, K. E., Thermal cycling, mechanical degradation, and the effective figure of merit of a thermoelectric module, Journal of electronic materials, Vol.42, No.3 (2013), pp.372-381.
Chen, J., Yan, Z. and Wu, L., Nonequilibrium thermodynamic analysis of a thermoelectric device, Energy, Vol.22, No.10 (1997), pp.979-985.
Ferrotec Corporation, Thermoelectric Modules, (Online), available from <http://www.ferrotec.co.jp/products/thermo/thermo.html>, (accessed on 30 March, 2016) (in Japanese).
Montecucco, A., Buckle, J. R. and Knox, A. R., Solution to the 1-D unsteady heat conduction equation with internal joule heat generation for thermoelectric devices, Applied Thermal Engineering, Vol.35 (2012), pp.177-184.
Zhu, L., Tan, H. and Yu, J., Analysis on optimal heat exchanger size of thermoelectric cooler for electronic cooling application, Energy Conversion and Management, Vol.76 (2013), pp.685-690.
Imoto, H., Fujii, M., Uhiyama, J., Fujisawa, H., Nakano, K., Kunitsugu, I., Nomura, S., Saito, T. and Suzuki, M., Use of a Peltier chip with a newly devised local brain-cooling system for neocortical seizures in the rat, Journal of Neurosurgery, Vol.104 (2006), pp.150-156.
References_xml – reference: Zhu, L., Tan, H. and Yu, J., Analysis on optimal heat exchanger size of thermoelectric cooler for electronic cooling application, Energy Conversion and Management, Vol.76 (2013), pp.685-690.
– reference: Yadav, S., Kumar, S. and Yamasani, P., Experimental studies on a micro power generator using thermos-electric modules mounted on a micro-combustor, Energy Conversion and Management, Vol.99 (2015), pp.1-7.
– reference: Chen, J., Yan, Z. and Wu, L., Nonequilibrium thermodynamic analysis of a thermoelectric device, Energy, Vol.22, No.10 (1997), pp.979-985.
– reference: Zhang, H. Z., Mui, Y. C. and Train, M., Analysis of thermoelectric cooler performance for high power electronic packages, Applied Thermal Engineering, Vol.30, No.6-7 (2010), pp.561-568.
– reference: Palacios, R., Arenas, A., Pecharroman, R. R. and Pagola, F. L., Analytical procedure to obtain internal parameters from performance curves of commercial thermoelectric modules, Applied Thermal Engineering, Vol.29, No.17-18 (2009), pp.3501-3505.
– reference: Mannella, G. A., La., C. V. and Brucato, V., Peltier cells as temperature control elements: Experimental characterization and modeling, Applied Thermal Engineering, Vol.63, No.1 (2014), pp.234-245.
– reference: Imoto, H., Fujii, M., Uhiyama, J., Fujisawa, H., Nakano, K., Kunitsugu, I., Nomura, S., Saito, T. and Suzuki, M., Use of a Peltier chip with a newly devised local brain-cooling system for neocortical seizures in the rat, Journal of Neurosurgery, Vol.104 (2006), pp.150-156.
– reference: Takeda, H., Aiba, S., Komiya, A. and Maruyama, S., A study for Precise and Repeatable Cryosurgery by the Peltier Cryoprobe Utilizing the Skin Tissue, Heat Transfer Symposium of Japan (CD-ROM), Vol.46th (2009), Page.ROMBUNNO.G-1301 (in Japanese).
– reference: Fujii, M., Fujioka, H., Oku, T., Tanaka, N., Imoto, H., Maruta, Y., Nomura, S., Kajiwara, K., Saito, T., Yamanaka, T., Yamakawa, T. and Suzuki, M., Application of focal cerebral cooling for the treatment of intractable epilepsy, Neurologia medico-chirurgica (Tokyo), Vol.50 (2010), pp.839-844.
– reference: Takahashi, D., Makaya, K., Nakamura, H. and Fukumoto, I., A study of cryonecrosis and stress range using Peltier element type cryosurgery system, IEICE Technical Report, Vol.105, No.304 (2005), pp.11-14 (in Japanese).
– reference: Ferrotec Corporation, Thermoelectric Modules, (Online), available from <http://www.ferrotec.co.jp/products/thermo/thermo.html>, (accessed on 30 March, 2016) (in Japanese).
– reference: Saito, T., Nakano, K., Uchiyama, J., Fujii, M., Suzuki, M. and Imoto, H., Focal cooling system for termination of neocortical seizure, The 2003 JSME-IIP / ASME-ISPS Joint Conference on Micromechanics for Information and Precision Equipment (IIP/ISPS Joint MIPE ‘03) (2003), pp.153-154.
– reference: Montecucco, A., Buckle, J. R. and Knox, A. R., Solution to the 1-D unsteady heat conduction equation with internal joule heat generation for thermoelectric devices, Applied Thermal Engineering, Vol.35 (2012), pp.177-184.
– reference: Uehara, K., Ukida, Y., Murakami, T., Mori, K. and Saito, T., Investigation on temperature control model of the focal cooling human physiological system, Dynamics and Design Conference (CD-ROM), Vol.2015 (2015), Page. ROMBUNNO.234 (in Japanese).
– reference: Perez-Aparicio, J. I. and Palma, R., Finite element analysis and material sensitivity of Peltier thermoelectric cells coolers, International Journal of Heat and Mass Transfer, Vol.55, No.4 (2012), pp.1363-1374.
– reference: Barako, M. T., Park, W., Marconnect, A. M., Asheghi, M. and Gooddon, K. E., Thermal cycling, mechanical degradation, and the effective figure of merit of a thermoelectric module, Journal of electronic materials, Vol.42, No.3 (2013), pp.372-381.
– reference: Ueoka, S., Kijima, H. and Nakata, N., Characteristics of heat transfer at elastic contact between die and material in hot working, Tetsu-to-Hagane, Vol.101, No.6 (2015), pp.15-21 (in Japanese).
– reference: Gou, X., Xiao, H. and Yang, S., Modeling, experimental study and optimization on low-temperature waste heat thermoelectric generator system, Applied Energy, Vol.87, No.10 (2010), pp.3131-3136.
– reference: Ukida, Y., Ichikawa, T., Saito, T., Kida, H., Hujii, M. and Suzuki, M., Research on the mathematical model and temperature control of a focal cooling device for biological objects, JSME annual meeting, (CD-ROM), Vol.2012 (2012), Page.ROMBUNNO.J022014 (in Japanese).
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SubjectTerms Cooling device
Cooling therapy
Mathematical model
Parameter identification
Peltier element
Title ペルチェ素子を利用した生体用小型冷却装置の数学モデル中のパラメータに関する研究(装置の冷却性能およびサイズの影響)
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