九州大学 研究者情報
著書一覧
SAHA BIDYUT BARAN(しやは びでゆつと ばらん) データ更新日:2024.03.15

教授 /  カーボンニュートラル・エネルギー国際研究所 マルチスケール構造科学ユニット 総合理工学府, 九州大学博士課程教育リーディングプログラム


著書
1. R. Das and B.B. Saha , Rapid Refrigeration and Water Protection: Next Generation Adsorbents, Switzerland, https://doi.org/10.1007/978-3-030-93845-1, ISBN 978-3-030-93845-1, 2022., 2021.05.
2. M.A. Islam, M. Muttakin, K.A. Rocky, B.B. Saha, Towards the Development of Compact and High Efficiency Adsorption Heat Pumps, Chapter 2 in Rapid Refrigeration and Water Protection Next Generation Adsorbents, Switzerland, https://doi.org/10.1007/978-3-030-93845-1, pp. 7-28, 2022., 2022.05.
3. K.A. Rocky, M.A. Islam, A. Pal, B.B. Saha, H.S. Kil, S.H. Yoon, J. Miyawaki, Specific Heat Capacity of Carbon-Based Composites for Adsorption Heat Pump and Desalination Applications, Chapter 4 in Rapid Refrigeration and Water Protection Next Generation Adsorbents, Switzerland, https://doi.org/10.1007/978-3-030-93845-1, pp. 87-111, 2022, 2022.05.
4. M.L. Palash, A. Pal, M.S. Islam, B.B. Saha, Characterizing Adsorbent Materials Employing Atomic Force Microscopy, Chapter 5 in Rapid Refrigeration and Water Protection Next Generation Adsorbents, Switzerland, https://doi.org/10.1007/978-3-030-93845-1, pp. 113-132, 2022., 2022.05.
5. S. Ghosh, S. Harish, B.B. Saha, Energy Harvesting With Thermoelectric Cement Composites, LAMBERT Academic Publishing, 2021.06, This book is intended to present the current state of understanding in the field of energy harvesting using thermoelectric materials. The book is targeted to students and academics interested in energy harvesting, material sciences and engineering studies. To aid the comprehension of the non-specialist, examples of fundamental physical characteristics such as thermoelectricity and thermoelectric properties are included. This book is divided into several chapters. Chapter 1 concerns the discoveries, fundamentals and various materials involved with energy harvesting via the thermoelectric effect. Chapter 2 presents the thermoelectric properties of cement composites with graphene nanoplatelets (GnP) inclusions. Chapter 3 continues the fabrication of graphene based cement composites with the addition of metallic oxides (Fe2O3, ZnO and MnO2). A possible arrangement of p- and n-type thermoelements to achieve the theoretical maximum values by the cement composites based thermoelectric generator (TEG) and their related analytical expressions are presented in Chapter 4. Finally, Chapter 5 points out the major contributions to the thermoelectric cement composites research..
6. S. Ghosh, S. Harish, B.B. Saha, Building Energy Harvesting Powered by Solar Thermal Energy, Chapter 6, in New Research Directions in Solar Energy Technologies, Springer, 2021.06.
7. M. Muttakin, K. Ito, B.B. Saha, Thermal-Powered Adsorption Chiller, Chapter 8, in Solar Energy: Systems, Challenges, and Opportunities, Springer, 2020.05.
8. Islam, M.A., Saha, B.B., TEWI Assessment of Conventional and Solar Powered Cooling Systems, Chapter 9, in Solar Energy: Systems, Challenges, and Opportunities, Springer 2020, ISBN: 978-981-15-0674-1, TEWI Assessment of Conventional and Solar Powered Cooling Systems, Chapter 9, 2020.06.
9. A. Pal, K. Uddin, K. Thu, B.B. Saha, H.-S. Kil, S.-H Yoon, J. Miyawaki, Thermophysical and adsorption characteristics of waste biomass derived activated carbons, Encyclopedia of Renewable and Sustainable Materials, Reference Module in Materials Science and Materials Engineering, Elsevier, 2020.05.
10. A. Pal, K. Uddin, K. Thu, B.B. Saha, H.-S. Kil, S.-H Yoon, J. Miyawaki, Synthesis of high grade activated carbons from waste biomass, Encyclopedia of Renewable and Sustainable Materials, Reference Module in Materials Science and Materials Engineering, Elsevier, 2020.05.
11. K Uddin, B.B. Saha, K Thu, S Koyama, Low GWP Refrigerants for Energy Conservation and Environmental Sustainability, Chapter 15 in Advances in Solar Energy Research, Springer, https://doi.org/10.1007/978-981-13-3302-6_15, Low GWP Refrigerants for Energy Conservation and Environmental Sustainability, Chapter 15, pp. 485-517, 2019.06.
12. Bidyut Baran Saha, and A. Freni, Chemical Science and Engineering Series 4: Innovative Materials for Processes in Energy Systems, Midori Printing Co. Ltd, 2016.10.
13. Khaled A, Al-Sallal, Y. Hori, T. Iida, Bidyut Baran Saha, Low Energy Low Carbon Architecture Recent Advances & Future Directions, Series 12: Sustainable Energy Developments, CRC Press, London, 2016.06.
14. Bidyut Baran Saha, T. Miyazaki, Research and Development of Adsorption Cooling and Heat Pump System in Home and Abroad, Chapter 2 in Adsorption Cooling and Heat Pump System as Low-temperature Water Heat Utilization Technology, Tokyo, 2014.05.
15. Bidyut Baran Saha, M. Koyama, Y. Takata, Y. Hamamoto, T. Miyazaki, M. Kohno, K. Ito, Innovative Materials for Processes in Energy Systems: Chemical Science & Engineering Series 3, Fukuoka, 2013.09.
16. Bidyut Baran Saha, I.I. El-Sharkawy, Thermally Powered Adsorption Cooling: Recent Trends and Applications, Chapter 2 in Heat Pipes and Solid Sorption Transformations: Fundamentals and Practical Applications, USA, 2013.09.
17. A. Chakraborty, K. Thu, Bidyut Baran Saha, K.C. Ng, Adsorption-Desalination Cycle, Chapter 5 in Advances in Water Desalination, USA, 2012.11.
18. B.B. Saha and K.C. Ng, Advances in Adsorption Technology, USA, 2011.07.
19. B.B. Saha A. Chakraborty and K.C. Ng, Innovative Materials for Processes in Energy Systems, Singapore, 2010.12.
20. B.B. Saha, A. Chakraborty, K.C. Ng and I.I. El-Sharkawy, Study on Adsorption and Thermoelectric Cooling Systems using Boltzmann Transport Equation Approach, Chapter 2, 2010.07.
21. K.C. Ng, I.I. El-Sharkawy, B.B. Saha and A. Chakraborty, Adsorption Desalination – a Novel Method, 2010.03.
22. K.C. Ng, B.B. Saha, S. Koyama and W.G. Chun, A Methodology for Evaluating the Solar Thermal Power Rating and Carbon Dioxide Emission Savings from a Solar Hot Water Plant, 2007.04.
23. Atsushi Akisawa, Bidyut Baran Saha, Yoshinori Hamamoto, Takahiko Miyazaki, International Seminar on the Future of Heat Cascading and Energy Systems, 2006.12.
24. A. Akisawa, B.B. Saha, Y. Hamamoto, A. Kodama, T. Tanaka, Desiccant Air Conditioning System, 2006.12.
25. Bidyut Baran Saha, Atsushi Akisawa and Shigeru Koyama, Thermally Powered Sorption Technology, ISTPST, Japan, 2003.12.
26. E. Jochem (Convening Lead Author), B.B. Saha (Lead Author) et al., Energy End Use Efficiency, United Nations Development Programme, United Nations Department of Economic and Social Affairs, and World Energy Council, New York, 2001.12.
27. Muttakin, M., Ito, K., Saha, B.B., Solar Energy: Systems, Challenges, and Opportunities, pringer 2019 (in press), ISBN: 978-981-15-0674-1, Solar Thermal-Powered Adsorption Chiller, Chapter 8.
28. B.B. Saha, Y. Hamamoto, S. Harish, K. Thu, K. Miyata and H. Watanabe, Proceedings of the 5th International Conference on Polygeneration (ICP 2019), Midori Printing Co. Ltd., Japan, ISBN: 978-4-944005-29-1.

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