肖睿

摘要：研究生物質(zhì)高質(zhì)化利用過程中節(jié)能與CO2利用和減排理論和技術(shù)，按照任務(wù)書的要求，采用生物油在低溫（<125 °C）、高效穩(wěn)定催化劑（Ru/C）作用下進(jìn)行選擇性加氫，制備易于分離的氣態(tài)烯烴和液態(tài)芳香烴類化合物等化學(xué)品。開展了二種生物質(zhì)低溫氣化制SNG的研究，另外針對常規(guī)的測試技術(shù)，進(jìn)一步認(rèn)識了氣固流化床特別是稠密氣固流化床復(fù)雜的流體動力學(xué)特性，攻克了微波加熱-紅外熱成像技術(shù)用于顆粒示蹤研究的一系列技術(shù)難題。開展了以苯為?；锏纳镔|(zhì)焦油催化氣化實(shí)驗(yàn)研究。通過本年度的研究在生物質(zhì)低溫氣化制SNG的研究過程中獲得了合適的催化劑，研究了溫度和壓力對產(chǎn)物的影響。在此基礎(chǔ)上，發(fā)展了“微波加熱—紅外熱成像”顆粒示蹤測量新方法，解決了常規(guī)測試技術(shù)難以獲得三位尺度上的顆粒運(yùn)動信息難題，并成功應(yīng)用于噴動流化床內(nèi)顆粒示蹤的研究，獲得了異重顆粒在床內(nèi)的顆粒循環(huán)模式、循環(huán)周期分布和停留時(shí)間分布。另外在催化分解脫除氣化產(chǎn)物中焦油的研究過程中，得到了溫度、水蒸汽量、床高和床料等因素對脫除焦油?；锏挠绊懸?guī)律。

關(guān)鍵詞：生物質(zhì)；熱解；二氧化碳利用與減排

Abstract：The research studied the theory and technology of energy-saving， CO2 application and emission-reduction during biomass high-efficient utilization. In accordance with the requirements of the mission statement， bio-oil was selective hydrogenated under low temperature （<125 ℃） with high-efficient and stable catalyst （Ru/C） to generate easily separated gaseous olefins and aromatic hydrocarbons in liquid form. Biomass low-temperature gasification was also carried out to generate syngas. Besides， the complex fluid dynamics of fluidized bed， especially dense fluidized bed， was further understood. A series of technical problems for applying of microwave heating-IR thermal imaging technology for particle tracing was conquered. Benzene was used as model compound for experimental study of biomass tar catalytic gasification. The research in this year found a suitable catalysis for low-temperature biomass gasification to syngas， the effects of temperature and pressure on the product distribution was also revealed. Based on these， “microwave heating-infrared thermography” particles tracing method was developed to solve the three-dimensional particle motion information problem which is difficult to obtain by conventional testing methods. This new method has successfully applied to spouted fluidized bed， revealing the particle circulating mode， cycle distribution and residence time distribution of the heavy particles. Whats more， during the study of gasification tar removal by catalytic decomposition process， the influence of temperature， water vapor， bed height and bed material on the process was also analyzed. Significant research results are as follows： bio-oil catalytic conversion to chemicals will jointly published an article on SCIENCE in the near future. The achievement of flow reactor coupled with the reaction has received the second award for 2010 National Science and Technology Progress， 12 papers were also published， with an invention patent. CO2 high-efficient absorption with the biomass production published 1 SCI papers and applied 2 invention patents. Biomass by-product catalytic carbonization to produce high performance electromagnetic shielding materials published 1 SCI， 1 EI and 1 core journal papers， and obtained 2 invention patents， 2 new utility patents， and applied 1 invention patent. The use of separated CO2 to synthesis carbonate materials has published 2 SCI papers， and applied 1 invention patent.

Keywords：Biomass； Pyrolysis； CO2 utilization and emission reduction

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