熱音響理論を用いた積層金網再生器の エネルギー変換効率の数値計算
A simple numerical method to calculate the performance of a stacked-screen regenerator is proposed. The method is based on a well-known thermoacoustic theory but uses some empirical factors that were determined by the measurement of viscous losses in stacked-screen regenerators. The efficiency of th...
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| Published in | Teion kōgaku Vol. 51; no. 8; pp. 403 - 408 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | Japanese |
| Published |
Tokyo
公益社団法人 低温工学・超電導学会 (旧 社団法人 低温工学協会)
2016
Japan Science and Technology Agency |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0389-2441 1880-0408 |
| DOI | 10.2221/jcsj.51.403 |
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| Abstract | A simple numerical method to calculate the performance of a stacked-screen regenerator is proposed. The method is based on a well-known thermoacoustic theory but uses some empirical factors that were determined by the measurement of viscous losses in stacked-screen regenerators. The efficiency of the energy conversion in a stacked-screen regenerator is calculated using the method and compared with the experimental results. Furthermore,a comparison of the numerically calculated efficiencies in stack-screen and tube-array regenerators is performed. |
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| AbstractList | A simple numerical method to calculate the performance of a stacked-screen regenerator is proposed. The method is based on a well-known thermoacoustic theory but uses some empirical factors that were determined by the measurement of viscous losses in stacked-screen regenerators. The efficiency of the energy conversion in a stacked-screen regenerator is calculated using the method and compared with the experimental results. Furthermore,a comparison of the numerically calculated efficiencies in stack-screen and tube-array regenerators is performed. |
| Author | 上田, 祐樹 FARIKHAH, Irna |
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| Copyright | 2016 公益社団法人 低温工学・超電導学会 (旧 社団法人 低温工学協会) Copyright Japan Science and Technology Agency 2016 |
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| References | 富永 昭: 「蓄冷器の熱音響理論」,低温工学26 (1990) 30-36 上田祐樹:「熱音響理論を用いた数値計算の仕方」,低温工学47 (2012) 3-10 大林 敦,許 書涵,琵琶哲志:「積層ワイヤーメッシュの熱音響特性の振幅依存性」,低温工学47 (2012) 562-567 6) Y. Ueda and C. Kato: “Stability analysis for spontaneous gas oscillations thermally induced in straight and looped tubes”, J.Acoust.Soc.Am.124 (2008) 851–858 8) S. Backhaus and G. W. Swift: “A thermoacoustic stirling engine”, Nature 399 (1999) 335–338 14) G. W. Swift: “Thermoacoustics: A Unifying Perspective for Some Engines and Refrigerators”, Acoustical Society of America, Pennsylvania (2002). 4) M. Tanaka, I. Yamashita and F. Chisaka: “Flow and heat transfer characteristics of Stirling engine regenerator in oscil lating flow”, Trans. Japan Soc. Mech. Eng. Swr. B 55 (1989) 2478–2485 (in Japanese 9) N. Rott: “Damped and thermally driven acoustic oscillations”,Z.Angew.Math.Phys.20 (1969) 230–243 7) Y. Ueda: “Method of calculating the performance of thermoacoustic devices using thermoacoustic theory”, TEION KOGAKU 47 (2012) 3–10 (in Japanese 2) A. Tominaga, “Thermoacoustic theory of regenerator in refrigerator”, TEION KOGAKU 26 (1990) 30–36 (in Japanese 1) A. Tominaga: “Fundamental Thermoacoustics”, Uchidarokakumo, Tokyo (1998 5) A. Obayashi, S. Hsu and T. Biwa: “Amplitude dependence of thermoacoustic properties of stacked wire meshes”, TEION KOGAKU 47 (2012) 562–567 (in Japanese 13) S. Backhaus, E. Tward and M. Petach: “A thermoacoustic stirling engine: Detailed study”, J. Acoust. Soc. Am. 107 (2000) 3148–3166 富永 昭: 「熱音響工学の基礎」,内田老鶴圃,東京(1998) 12) S. Hasegawa, Y. Ashigaki and M. Senga: “Thermal diffusion effect of a regenerator with complex flow channels”, Appl. Thermal Engineering 104 (2016) 237–242 田中 誠,山下 巌,千坂 文武: 「往復流れ場に置かれたスターリングエンジン用再生器材料の流動および伝熱特性」,日本機械学会論文集(B 編)55 (1989) 2478-2485 10) L. D. Landau and E. M. Lifshitz: “Fluid Mechanics: 2nd Edition” Elsevier, Burlington (1987). 11) N. Rott: “Thermally driven acoustic oscillations, part 3:Second-order heat flux”, Z. Angew Math. Phys. 26 (1975) 43–49 3) Y. Ueda, T. Kato and C. Kato: “Experimental evaluation of the acoustical properties of stacked-screen regenerators”, J. Acoust.Soc.Am.125 (2009) 780–786 |
| References_xml | – reference: 8) S. Backhaus and G. W. Swift: “A thermoacoustic stirling engine”, Nature 399 (1999) 335–338 – reference: 富永 昭: 「熱音響工学の基礎」,内田老鶴圃,東京(1998) – reference: 10) L. D. Landau and E. M. Lifshitz: “Fluid Mechanics: 2nd Edition” Elsevier, Burlington (1987). – reference: 12) S. Hasegawa, Y. Ashigaki and M. Senga: “Thermal diffusion effect of a regenerator with complex flow channels”, Appl. Thermal Engineering 104 (2016) 237–242 – reference: 11) N. Rott: “Thermally driven acoustic oscillations, part 3:Second-order heat flux”, Z. Angew Math. Phys. 26 (1975) 43–49 – reference: 9) N. Rott: “Damped and thermally driven acoustic oscillations”,Z.Angew.Math.Phys.20 (1969) 230–243 – reference: 13) S. Backhaus, E. Tward and M. Petach: “A thermoacoustic stirling engine: Detailed study”, J. Acoust. Soc. Am. 107 (2000) 3148–3166 – reference: 富永 昭: 「蓄冷器の熱音響理論」,低温工学26 (1990) 30-36 – reference: 2) A. Tominaga, “Thermoacoustic theory of regenerator in refrigerator”, TEION KOGAKU 26 (1990) 30–36 (in Japanese) – reference: 1) A. Tominaga: “Fundamental Thermoacoustics”, Uchidarokakumo, Tokyo (1998) – reference: 3) Y. Ueda, T. Kato and C. Kato: “Experimental evaluation of the acoustical properties of stacked-screen regenerators”, J. Acoust.Soc.Am.125 (2009) 780–786 – reference: 田中 誠,山下 巌,千坂 文武: 「往復流れ場に置かれたスターリングエンジン用再生器材料の流動および伝熱特性」,日本機械学会論文集(B 編)55 (1989) 2478-2485 – reference: 4) M. Tanaka, I. Yamashita and F. Chisaka: “Flow and heat transfer characteristics of Stirling engine regenerator in oscil lating flow”, Trans. Japan Soc. Mech. Eng. Swr. B 55 (1989) 2478–2485 (in Japanese) – reference: 14) G. W. Swift: “Thermoacoustics: A Unifying Perspective for Some Engines and Refrigerators”, Acoustical Society of America, Pennsylvania (2002). – reference: 6) Y. Ueda and C. Kato: “Stability analysis for spontaneous gas oscillations thermally induced in straight and looped tubes”, J.Acoust.Soc.Am.124 (2008) 851–858 – reference: 5) A. Obayashi, S. Hsu and T. Biwa: “Amplitude dependence of thermoacoustic properties of stacked wire meshes”, TEION KOGAKU 47 (2012) 562–567 (in Japanese) – reference: 7) Y. Ueda: “Method of calculating the performance of thermoacoustic devices using thermoacoustic theory”, TEION KOGAKU 47 (2012) 3–10 (in Japanese) – reference: 上田祐樹:「熱音響理論を用いた数値計算の仕方」,低温工学47 (2012) 3-10 – reference: 大林 敦,許 書涵,琵琶哲志:「積層ワイヤーメッシュの熱音響特性の振幅依存性」,低温工学47 (2012) 562-567 |
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| SubjectTerms | Computing time Energy conversion efficiency Energy measurement Mathematical analysis Numerical analysis Photovoltaic cells Regenerators |
| Title | 熱音響理論を用いた積層金網再生器の エネルギー変換効率の数値計算 |
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