国际会议报告Three plenary/keynote speeches were given
1.Z. Fang方真,“Hydrothermal techniques for conversion of agricultural and forestry lignocellulosic wastes”, The 8th Int’l Conf. on Biomass Energy (ICBE2023) Nanjing, China, October 18-20, 2023 (东南大学,中国南京)Keynote Talks(主旨报告)
This presentation introduces how to use abundant and renewable lignocellulosic biomass (such as straw, grass, and trees) to produce high-quality biofuels and high value-added products based on the speaker's research experience both domestically and internationally. Emphasis will be placed on how to utilize supercritical water techniques for hydrolysis, gasification, liquefaction, and synthesis of nanocatalysts. In addition, supercritical water technology that has been or is about to be industrialized is also introduced.
It consists of eight parts:
1)Biomass resources and biorefineries
2)Supercritical fluids and supercritical water
3)Fast hydrolysis in supercritical water
4)Supercritical water gasification
5)Supercritical water liquefaction
6)Supercritical water synthesis of nanomaterials
7)Conclusion
8)Industrial utilization
Keywords: biomass; Supercritical water; Hydrolysis; Gasification; Liquefaction; Nanocatalysts
水热转化农林生物质应用和技术
第八届生物能源国际会议(南京, 2023.10.18-20)
方真(主旨报告)
报告根据演讲者的国内外研究经历,介绍如何利用丰富和可再生的木质纤维素生物质(如秸秆,草和树木)生产高品质的生物燃料和高附加值产品。重点介绍如何利用超临界水技术水解、气化、液化和合成纳米催化剂。另外,也介绍已或即将产业化的超临界水技术。
包括八个部分:
1)生物质资源和生物炼制
2)超临界流体和超临界水
3)超临界水快速水解
4)超临界水气化
5)超临界水液化
6)超临界水合成纳米材料
7)结论
8)工业上利用
关键词:生物质;超临界水;水解;气化;液化;纳米催化剂
第八届生物能源国际会议
2.Z. Fang方真,“Synthesis of Biomass-based materials for Biorefineries”, 2023 International Conference on Renewable Materials (ICRM) Nanjing, China, November 17-20, 2023(南京林业大学、中南林业科技大学、Tech Science Press 出版社,中国南京)Plenary Talks(大会报告)
This presentation introduces how to use abundant and renewable lignocellulosic biomass (such as straws, grasses, and wood) to produce materials for high-quality biofuels and high value-added products based on the speaker's research experience both domestically and internationally. The focus is on how to synthesize materials that are applied to catalyze biomass to gas and liquid fuels and high value-added products through thermal, biological and chemical methods. In addition, various industrialized bioenergy technologies are also introduced.
It consists of seven parts:
1)Biomass resources and biorefineries
2)Carbon support for Solid Catalysts
3)Biochar for biodiesel
4)MOF-based catalysts for biofuels
5)Nano-catalysts for biorefineries
6)Industrial applications
7)Conclusions
Keywords: Biomass-based materials; Biofuels; Biochar; MOFs; Biodiesel; Nanocatalysts
生物质基材料的合成用于生物炼制
2023年国际可再生材料大会 (南京林业大学、中南林业科技大学、Tech Science Press 出版社,中国南京, 2023.11.17-23)
方真 Plenary Talks(大会报告)
本演讲介绍了如何根据演讲者在国内外的研究经验,利用丰富可再生的木质纤维素生物质(如秸秆、草和木材)合成材料生产高质量生物燃料和高附加值产品。重点是如何通过热、生物和化学方法合成生物质基材料,用于催化生物质转化为气体和液体燃料以及高附加值产品。最后,还介绍了各种工业化的生物能源技术。
它由七个部分组成:
1)生物质资源和生物炼制
2)固体催化剂用碳载体
3)生物柴油用生物炭
4)基于MOF的生物燃料催化剂
5)生物炼制用纳米催化剂
6)工业应用
7)结论
关键词:生物质材料;生物燃料;生物炭;MOFs;生物柴油;纳米催化剂
方真教授主持大会报告Prof. Zhen Fang chaired the Plenary Section
3.Z. Fang方真,“Supercritical water fundamentals & its applications for conversion of ligno-cellulosic wastes” 超临界转化生物质理论和应用
The 6th South Asia Southeast Asia Education Cooperation Forum -2023 Maritime Silk Road Int’l Conf on Industry-Academy-Research Cooperation, Metallurgy and Energy Int’l Cooperation Seminar, Dec. 14-17 (Kunming, China) Keynote Talks
第六届南亚东南亚教育合作论坛-冶金与能源国际合作研讨会(主旨报告)