低碳化学与化工2025,Vol.50Issue(8):34-43,10.DOI:10.12434/j.issn.2097-2547.20250138
国内生物质热化学转化的研究热点与发展趋势
Research hotspots and development trends of biomass thermochemical conversion in China
摘要
Abstract
As a zero-carbon renewable energy source,biomass energy is of strategic significance in combating climate change,guaranteeing energy security and promoting sustainable development.The targeted preparation of clean fuels and high-value chemicals by biomass thermochemical conversion technology has become a key pathway for realizing the efficient utilization of biomass.Although the current research in this field has made progress in process optimization,catalyst development and product regulation,the systematic review of the dynamic evolution of the field is still insufficient.In order to systematically sort out the current hotspots and development trends of this field in China,based on the CiteSpace software,the Chinese paper data about biomass thermochemical conversion in the past decade was visualized and analyzed.Through the construction of knowledge map,it is revealed that the research hotspots in this field in China are focused on optimizing pyrolysis/gasification technology,exploring catalytic cracking mechanism and biomass synergistic conversion.The core direction presents a phased evolution from the basic process to product quality improvement and system integration.In the future,it is necessary to strengthen the multi-technology coupling mechanism,develop highly efficient and renewable composite catalysts,integrate artificial intelligence to optimize the reaction path and carbon footprint assessment system,deepen the supercritical pyrolysis,microwave pyrolysis and other emerging process mechanisms,balance the environmental friendliness and economy,to promote the biomass thermochemical conversion towards intelligent and efficient leapfrog development.关键词
生物质/热解/气化/CiteSpace/研究热点/发展趋势Key words
biomass/pyrolysis/gasification/CiteSpace/research hotspots/development trends分类
能源科技引用本文复制引用
丁昊萱,朱治平..国内生物质热化学转化的研究热点与发展趋势[J].低碳化学与化工,2025,50(8):34-43,10.基金项目
国家重点研发计划"战略性科技创新合作"专项(2022YFE0206600). (2022YFE0206600)
