论著

专著:

[1] Lu YJ*, Li S, Guo LJ. Catalysis in Supercritical Water Gasification of Biomass: Status and Prospects. Source: Near-critical and Supercritical Water and Their Applications for Biorefineries, Book edited by: Fang Z and Xu C, pp.343-371. Springer-Verlag, Berlin Heidelberg, 2014.

[2] Lu Y*, Wei L, Huang J. A Review on Supercritical Fluidization, Source: Thermal Power Plants- New Trends and Recent Developments, Book edited by: Pawel Madejski, IntechOpen, ISBN: 978-1-78923-078-9, pp.93-112, May 2018, InTechOpen

[3] Guo LJ, Cao CQ, Lu YJ. Supercritical water gasification of biomass and organic wastes. Source: Biomass, Book edited by: Maggie Momba and Faizal Bux, ISBN 978-953-307-113-8, pp. 202-220, September 2010, InTech . 

 
近五年发表的代表性论文:

[1] Li G, Lu Y*, Qi S. Investigation of hydrogen oxidation in supercritical H2O/CO2 mixtures using ReaxFF molecular dynamics simulation. The Journal of Supercritical Fluids, 2020,155: 104661.

[2] Huang J, Lu Y*, Jia L. An experimental study on the two-phase flow structure in a supercritical water fluidized bed. Ind Eng Chem Res, 2019, 58: 20099-20108  

[3] Huang J, Lu Y*, Wang H. Fluidization of Particles in Supercritical Water: a Comprehensive Study on Bubble Hydrodynamics. Ind Eng Chem Res, 2019, 58:2036–2051

[4] Wang H, Lu Y*. Numerical simulation of the bubble behavior in a quasi-2D fluidized bed using a bubble-based EMMS model. Particuology, 2019, 46:40-54

[5] Lu Y*, Zhu L, Vieten J, Agrafiotis C*, Roeb M, Sattler C. Solar fuels production: Two-step thermochemical cycle with cerium-based oxides. Progress in Energy and Combustion Science, 2019, 75:100785

[6] Li G, Wang H, Lu Y*. Kinetic study on hydrogen oxidation in supercritical H2O/CO2 mixture. Fuel Processing Technology, 2019, 193: 123-130

[7] Huang J, Lu Y*, Wang H. Minimum bubbling fluidization velocity in a supercritical water fluidized bed acquired by the dual-capacitance probe method. Chemical Engineering Science, 2019, 199:359-370

[8] Zhao L, Lu Y*. Hydrogen production by biomass gasification in a supercritical water fluidized bed reactor: a CFD-DEM study. The Journal of Supercritical Fluids, 2018, 131: 26-36

[9] Zhang T, Lu Y*, Yao L. Experimental study of wall-to-bed heat transfer in supercritical water fluidized bed. Int J Multiphase Flow, 2018, 109:26-34.

[10] Zhu L, Lu Y*. Reactivity and efficiency of ceria-based oxides for solar CO2 splitting via isothermal and near-isothermal thermochemical cycles. Energy & Fuels, 2018,32: 736-746

[11] Huang J, Lu Y*, Wang H. A new quantitative measurement method for mixing and segregation of binary-mixture fluidized bed by capacitance probe. Chemical Engineering Journal, 2017,326:99-108

[12] Wei L, Lu Y*.Fluidization behavior in high-pressure water at temperature from ambient to supercritical, Powder Technology,2016,304:89-100.

[13] Zhu L, Lu Y*, Shen SH. Solar fuel production at high temperatures using ceria as a dense membrane. Energy, 2016, 104:53-63 

[14] Lu Y*, Huang J, Zheng P, Jing D. Flow structure and bubble dynamics in supercritical water fluidized bed and gas fluidized bed: A comparative study. Int J Multiphase Flow, 2015, 73:130-141. 

[15] Lu Y*, Huang J, Zheng P. A CFD-DEM study of bubble dynamics in fluidized bed using flood fill method. Chemical Engineering Journal, 2015, 274:123-131. 

 

专利

获授权国家发明专利8项,申请发明专利2

[1]"一种将太阳能转化为化学能的膜反应系统及方法", 申请号:2015107274134,申 请 日:2015-10-30,排名第1
[2]"一种利用太阳能生产气体燃料的膜反应系统及方法”,申 请 号:2015107271808,申 请 日:2015-10-30,排名第1
[3]"用于超临界水流化床两相流动及传热特性测试的装置”,发明专利: ZL201310565877.0,排名第1.
[4]“一种固体有机物热解特性快速分析的系统与方法”,发明专利,ZL201310712560.5, 排名第1.
[5]“生物质超临界水气化与多碟聚焦供热耦合制氢装置及方法”,发明专利:ZL200910023187.6,授权日期:2012-09-05,排名第2.
[6]“太阳能热驱动的生物质超临界水气化制氢吸收反应器”,发明专利:ZL200910023186.1,授权日期:2011-06-22,排名第4.
[7]“聚焦太阳能热驱动的生物质超临界水气化制氢系统与方法”,发明专利:ZL200910023189.5,授权日期:2011-06-22,排名第4.
[8]“多碟太阳能聚热耦合生物质超临界水气化制氢吸热反应器”,发明专利:ZL201110006999.7,授权日期:2013-01-02,排名第4.
[9]“多碟太阳能聚热耦合生物质超临界水气化制氢系统及方法”,发明专利:ZL201110006991.0 ,授权日期:2013-02-06,排名第4.
[10]“生物质废弃物超临界水流化床部分氧化制氢装置及方法”,发明专利,专利号:ZL200710017691.6 ,授权日期:2010-07-21,排名第2
 
 
 

奖项

没有找到条目。
奖项名称 获奖年份 奖项类型 奖项等级 申报部门
太阳能聚焦供热的热化学分解超临界水和生物质制氢基础研究 2014 省部级科技成果奖 一等奖 陕西省
全国优秀博士论文 2010 省部级科技成果奖 其他 教育部