Commercialization and Fundamental Research of Waste Heat Recovery Technology using Adsorption Heat Storage Materials
Based on the Green ILC concept, an R & D program is underway to recover and utilize thermal energy emitted from the cooling water of ILC facilities. Iwate Prefecture, where the ILC Kitakami candidate site is located, is 80% mountainous, which is not suitable for online transportation of thermal...
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| Format: | Article |
| Language: | English |
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EDP Sciences
2024-01-01
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| Series: | EPJ Web of Conferences |
| Online Access: | https://www.epj-conferences.org/articles/epjconf/pdf/2024/25/epjconf_lcws2024_02020.pdf |
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| author | Kono Yuichi Mitoya Goh Suzuki Masaya Manpuku Kazuko Kokubo Takashi Tanino Masayuki Sato Gen Muraoka Shinichi Takahashi Fukumi Anetai Yasunori Odaira Hisashi Kikuchi Kazuya Yoshioka Masakazu Narita Shinya Yoshimoto Noriyuki Fujisaki Satomi Takeda Yoichi Hirosawa Ichiro |
| author_facet | Kono Yuichi Mitoya Goh Suzuki Masaya Manpuku Kazuko Kokubo Takashi Tanino Masayuki Sato Gen Muraoka Shinichi Takahashi Fukumi Anetai Yasunori Odaira Hisashi Kikuchi Kazuya Yoshioka Masakazu Narita Shinya Yoshimoto Noriyuki Fujisaki Satomi Takeda Yoichi Hirosawa Ichiro |
| author_sort | Kono Yuichi |
| collection | DOAJ |
| description | Based on the Green ILC concept, an R & D program is underway to recover and utilize thermal energy emitted from the cooling water of ILC facilities. Iwate Prefecture, where the ILC Kitakami candidate site is located, is 80% mountainous, which is not suitable for online transportation of thermal energy. In order to effectively utilize the thermal energy emitted from the ILC facilities, a thermal energy circulation model suitable for such regional characteristics is required. We are aiming to commercialize an offline waste heat circulation model that utilizes an innovative adsorptive thermal storage material, ”HASClay", which can utilize low-grade waste heat of 50-100°C. So far, we have developed a portable container that can hold approximately 10 kg of dry HASClay and have evaluated its heat storage and emission performance. On the other hand, one of the issues for practical use is to elucidate the mechanism of water vapor adsorption/desorption on the microstructure of "HASClay". Here, we discuss two issues: (1) a demonstration test for commercialization of a thermal energy circulation model and (2) basic research to understand the structure and adsorption/desorption mechanism of "HASClay" using synchrotron radiation. |
| format | Article |
| id | doaj-art-5c82337c7d2c49979f9c6f138995cc33 |
| institution | Kabale University |
| issn | 2100-014X |
| language | English |
| publishDate | 2024-01-01 |
| publisher | EDP Sciences |
| record_format | Article |
| series | EPJ Web of Conferences |
| spelling | doaj-art-5c82337c7d2c49979f9c6f138995cc332025-01-06T11:33:47ZengEDP SciencesEPJ Web of Conferences2100-014X2024-01-013150202010.1051/epjconf/202431502020epjconf_lcws2024_02020Commercialization and Fundamental Research of Waste Heat Recovery Technology using Adsorption Heat Storage MaterialsKono Yuichi0Mitoya Goh1Suzuki Masaya2Manpuku Kazuko3Kokubo Takashi4Tanino Masayuki5Sato Gen6Muraoka Shinichi7Takahashi Fukumi8Anetai Yasunori9Odaira Hisashi10Kikuchi Kazuya11Yoshioka Masakazu12Narita Shinya13Yoshimoto Noriyuki14Fujisaki Satomi15Takeda Yoichi16Hirosawa Ichiro17Higashi Nihon Kidenkaihatsu Co., Ltd.Higashi Nihon Kidenkaihatsu Co., Ltd.National Institute of Advanced Industrial Science and TechnologyNational Institute of Advanced Industrial Science and TechnologyTakasago Thermal Engineering Co., Ltd.Takasago Thermal Engineering Co., Ltd.Takasago Thermal Engineering Co., Ltd.Takasago Thermal Engineering Co., Ltd.WING Co., Ltd.WING Co., Ltd.Tohoku ILC Project Development CenterIwate Prefectural OfficeIwate UniversityIwate UniversityIwate UniversityIwate UniversityIwate UniversitySAGA Light SourceBased on the Green ILC concept, an R & D program is underway to recover and utilize thermal energy emitted from the cooling water of ILC facilities. Iwate Prefecture, where the ILC Kitakami candidate site is located, is 80% mountainous, which is not suitable for online transportation of thermal energy. In order to effectively utilize the thermal energy emitted from the ILC facilities, a thermal energy circulation model suitable for such regional characteristics is required. We are aiming to commercialize an offline waste heat circulation model that utilizes an innovative adsorptive thermal storage material, ”HASClay", which can utilize low-grade waste heat of 50-100°C. So far, we have developed a portable container that can hold approximately 10 kg of dry HASClay and have evaluated its heat storage and emission performance. On the other hand, one of the issues for practical use is to elucidate the mechanism of water vapor adsorption/desorption on the microstructure of "HASClay". Here, we discuss two issues: (1) a demonstration test for commercialization of a thermal energy circulation model and (2) basic research to understand the structure and adsorption/desorption mechanism of "HASClay" using synchrotron radiation.https://www.epj-conferences.org/articles/epjconf/pdf/2024/25/epjconf_lcws2024_02020.pdf |
| spellingShingle | Kono Yuichi Mitoya Goh Suzuki Masaya Manpuku Kazuko Kokubo Takashi Tanino Masayuki Sato Gen Muraoka Shinichi Takahashi Fukumi Anetai Yasunori Odaira Hisashi Kikuchi Kazuya Yoshioka Masakazu Narita Shinya Yoshimoto Noriyuki Fujisaki Satomi Takeda Yoichi Hirosawa Ichiro Commercialization and Fundamental Research of Waste Heat Recovery Technology using Adsorption Heat Storage Materials EPJ Web of Conferences |
| title | Commercialization and Fundamental Research of Waste Heat Recovery Technology using Adsorption Heat Storage Materials |
| title_full | Commercialization and Fundamental Research of Waste Heat Recovery Technology using Adsorption Heat Storage Materials |
| title_fullStr | Commercialization and Fundamental Research of Waste Heat Recovery Technology using Adsorption Heat Storage Materials |
| title_full_unstemmed | Commercialization and Fundamental Research of Waste Heat Recovery Technology using Adsorption Heat Storage Materials |
| title_short | Commercialization and Fundamental Research of Waste Heat Recovery Technology using Adsorption Heat Storage Materials |
| title_sort | commercialization and fundamental research of waste heat recovery technology using adsorption heat storage materials |
| url | https://www.epj-conferences.org/articles/epjconf/pdf/2024/25/epjconf_lcws2024_02020.pdf |
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