日本語フィールド
著者:呉 雪松 , 光武 雄一 , 門出 政則 , 布浦 達也 , 角掛 繁 読み: ウー チーソン,ミツタケ ユウイチ,モンデ マサノリ,フウラ タツヤ,ツノカケ シゲル題名:非定常熱伝導逆問題解を用いた熱物性値の簡易測定法(中空円筒試料への適用)発表情報:日本機械学会論文集B編 79(800), 660-674, 2013
一般社団法人 日本機械学会 巻: 79 号: 800 ページ: 660-674キーワード:概要:抄録:A sophisticated technique to measure thermal properties using inverse heat conduction analysis was proposed and applied to paraffin or packed beds such as copper and metal hydride particles. The technique was extended to a finite hollow cylindrical domain with new accuracy assurance concepts about criterions deciding thermocouple positions in a sample and time period to be solved the inverse solution. The features of the technique are as follows. 1) Arbitrary heating boundary conditions without constant temperature or heat flux can be used. 2) Thermal diffusivity and heat conductivity are quickly and simultaneously obtained after acquisition of transient sample temperature histories and cumulative heat input during sample heating. 3) Estimation errors in thermal properties are assured within 5 %. This technique was successfully applied to measurement of hydrogen absorbed metal hydride bed.英語フィールド
Author:Title:Measurement of Thermal Properties Using One Dimensional Inverse Heat Conduction Analysis (Application to Hollow Cylindrical Samples)Announcement information:日本機械学会論文集B編 Vol: 79 Issue: 800 Page: 660-674An abstract:A sophisticated technique to measure thermal properties using inverse heat conduction analysis was proposed and applied to paraffin or packed beds such as copper and metal hydride particles. The technique was extended to a finite hollow cylindrical domain with new accuracy assurance concepts about criterions deciding thermocouple positions in a sample and time period to be solved the inverse solution. The features of the technique are as follows. 1) Arbitrary heating boundary conditions without constant temperature or heat flux can be used. 2) Thermal diffusivity and heat conductivity are quickly and simultaneously obtained after acquisition of transient sample temperature histories and cumulative heat input during sample heating. 3) Estimation errors in thermal properties are assured within 5 %. This technique was successfully applied to measurement of hydrogen absorbed metal hydride bed.