个人简历

工作经历
2018.11-2019.02
美国普林斯顿大学，访问学者
2016.04-今
能源科学与工程学院，副教授、博士生导师
2014.12-2016.03
能源科学与工程学院，副教授
2012.12-2013.12
美国科罗拉多矿业大学，访问学者
2010.12-2014.11
能源科学与工程学院，讲师
教育经历(Education Experience)
2007年-2010年，哈尔滨工业大学能源科学与工程学院，热能工程学科，博士学位
2004年-2006年，哈尔滨工业大学能源科学与工程学院，热能工程学科，硕士学位
2000年-2004年，哈尔滨工业大学能源科学与工程学院，热能与动力工程专业，学士学位
奖项成果(Research Award )
2018年，黑龙江省自然科学二等奖
2013年，教育部自然科学二等奖
2011年，黑龙江省高校科学技术二等奖
荣誉称号(Honorary Title)
2018年：“东风汽车杯”第十一届全国大学生节能减排社会实践与科技竞赛二等奖（指导教师）
2014年：二零一四届本科优秀毕业设计（论文）（指导教师）
2013年：国家级大学生创新创业训练计划项目荣获二等奖（指导教师）
2012年：“凯盛开能杯”第五届全国大学生节能减排大赛三等奖（指导教师）
2011年：2010~2011年度哈尔滨工业大学“优秀专兼职学生工作者”
讲授课程(Course)
本科生课程 (Undergraduate Course)
气液两相流(Gas-liquid two-phase flow)
工业过程中的节能原理与技术(Energy saving principle and technology in industrial process)
研究生课程(Graduate Courses)
多相流体动力学(Multiphase fluid dynamics)
招生信息(Recruiting New Member)
本科招生（每年若干名）：热爱学习，态度认真，愿意钻研和从事科技创新活动。
1. 能源的高效利用技术，节能减排技术；
硕士招生（每年1~2名）：能够钻研问题，做事认真，具有一定的创新思维。
2. 多相流动与传热；
3. 流体颗粒体系的Lattice-Boltzmann方法研究；
4. 新型能源开发。
科研项目(Research projects)
高浓度颗粒流体两相流动相间非均匀作用及颗粒动理学研究
液固生物流化床颗粒团聚作用及两相作用机理研究
高浓度液固相互作用机理及湿颗粒动理学研究
可降解废弃液固反应器两相作用机理及流态重构的研究
湿颗粒动理学及稠密液固相间作用机理的研究
高浓度液固流化床两相流动机理研究
高寒地区原油储库降温规律及维温方式的研究
高浓度气固两相流动非均匀结构的相间作用调控机理研究
专利(Patents)
1 上直-下旋干式循环流化床脱硫反应器 2009100713510 2011年
2 一种叠式并联流化的循环流化床焙烧炉 2011102141212 2013年
3 一种三级集成式气水分离器 2011101767962 2013年

研究领域

"流体颗粒两相流动的理论研究
颗粒动理学理论
Lattice-Boltzmann方法
合成气重整催化技术
太阳能绿色利用技术"

近期论文

J.N. Zhao，G.D. Liu，W. Li，X.L. Yin，Y. Wu，C.L. Wang，H.L. Lu, A comprehensive stress model for gas-particle flows in dense and dilute regimes, Chemical Engineering Science, 2020, 226, (23), 115833
W. D.Fullmer, G. D. Liu, X. L. Yin, C.M. Hrenya, Clustering instabilities in sedimenting fluid-solid systems:critical assessment of kinetic-theory-based predictions using direct numericalsimulation data, Journal of Fluid Mechanics, 2017, doi:10.1017/jfm. 2017. 295
G. D. Liu, Fan Y., H.L. Lu, S. Wang, P. W. Liao, Z. H. Hao, CFD-DEM simulation of liquid-solidfluidized bed with dynamic restitution coefficient, Powder Technology, 2016.
L.Y. Sun, S.Y. Wang+, L. Huang, G.D. Liu, H.L. Lu, Y. Liu+, and F.X. Zhao, Prediction ofconfigurational and granular temperatures of particles using DEM inreciprocating grates, Powder Technology, 2015, 269, 495-504.
Liu G.D., Wang P., Yu F., Zhang Y.N., Guo W.T., Lu H.L.. Clusterstructure-dependent drag model for liquid-solid circulating fluidized bed,Advanced Powder Technology, 2015, 26, 14-23.
Sun L. Y., Xu W. G., Lu H. L., Liu G. D.,Zhang Q. H., Tang Q., Zhang T. Y., Simulated configurational temperature ofparticles and a model of constitutive relations of rapid-intermediate-densegranular flow based on generalized granular temperature, International Journalof Multiphase Flow, 2015, 77, 1-8.
S. Wang, J.H. Chen+, G.D. Liu, H.L. Lu+,F.X. Zhao, and Y.N. Zhang, Predictions of coal combustion and desulfurizationin a CFB riser reactor by kinetic theory of granular mixture with unequalgranular temperature, Fuel Processing Technology, 2014,126, 163-172.
L. Huang, J.H. Chen, G.D. Liu, H.L. Lu+, D. Li,and F.X. Zhao, Simulated second-order moments of clusters and dispersedparticles in riser, Chemical Engineering Science, 2013, 101,800-812.
S. Wang, G.D. Liu, H.L. Lu+, L.Y. Sun, and P.F.Xu, CFD simulation of bubbling fluidized beds using kinetic theory of roughsphere, Chemical Engineering Science, 2012, 71,185-201.
L.Y. Sun, W.G. Xu, G.D. Liu, D. Sun, H.L. Lu+,Y.J. Tang, D.Li, Prediction of flow behavior of particles in a tapered bubblingfluidized bed using a second-order moment-frictional stresses model, ChemicalEngineering Science, 2012, 84,170-181.
S. Wang,Z.H. Hao, H.L. Lu, G.D. Liu, J.X. Wang, and P.F. Xu, A bubblingfluidization model using kinetic theory of rough spheres, AICHE Journal, 2012,58,440-455.
G.D. Liu, D. Sun, H.L.Lu, J. Bouillard, Y.H. Bai, S. Wang, Computations of fluid dynamics of a 50MWe circulating fluidized bed combustor, Industrial & Engineering ChemistryResearch, 2010, 49,5132-5140.
S.Y. Wang+, G.D. Liu, Y.B. Wu, J.H. Chen, Y.J. Liu+, and L.X. Wei+,Numerical investigation of gas-to-particle cluster convective heat transfer incirculating fluidized beds, International Journal of Heat and Mass Transfer,2010, 53,3102-3110.
会议文章(Conference papers)
1. G.D.Liu, H.L. Lu+, P. Wang, and S. Wang, Numerical analysis ofeffect of constitutive parameters on fluidization characteristic of particleflow in liquid-solid fluidized bed, 2013 AIChE Annual Meeting, San Francisco,CA, USA, Nov. 3-8, 2013.
2. G.D.Liu, H.L. Lu+, P. Wang, T. Si, and S. Wang, Experimental andCFD study on the hydrodynamic characters of dense liquid-solid fluidized bed.AIP Conf. Proc. 1547, 328-338, 2013.
3. G.D.Liu, H.L. Lu+, S. Wang, L.Y. Sun, Prediction of flowbehavior of liquid and particles in liquid-solid risers with modifiedcluster structure-dependent drag method, 5th BIOT Conference on Poromechanics,Vienna, Austria, July 10-12, 2013.
4. G.D.Liu, X.L. Yin+, P.P. Mitrano+, C. Hrenya+,Effect of particle-fluid density ratio on the stability of sedimentation orfluidization of spherical particles using Lattice-Boltzmann method, 2014 AIChE AnnualMeeting, Atlanta, USA, Nov. 16-21, 2014.
5. H.L.Lu, G.D. Liu, F.X. Zhao, T.Y. Zhang, W.T. Guo, Kinetic theory ofrough spheres apply to gas-solids risers, 2014 AIChE Annual Meeting, Atlanta,GA, USA, Nov. 16-21, 2014.
6.Fullmer W., Liu G.D., Li X.Q., Yin X.L., Hrenya C. M., Effect ofParticle-to-Fluid Density Ratio on Stable-Unstable Transition in a Small-ScaleSedimentating Fluid-Solid System to Test the Limit of a Kinetic-Theory-BasedModel, 2015 AIChE Annual Meeting, Salt Lake, Nov.8-13.
7. LiuG.D., Yin X.L., Stability Boundaries for Sedimentation orFluidization System of Particle-Fluid Flows, 2015 AIChE Annual Meeting, SaltLake, Nov.8-13.
8. Liu G.D.,F. Yu, H.L. Lu, S. Wang, L.Y. Sun, Y.N. Zhang, Discrete element modeling ofparticle flow behaviors in a gas-solid bubbling fluidized bed using dynamicrestitution coefficient, Eleventh International Conference on ComputationalFluid Dynamics in the Minerals and Process Industries, MCEC, Melbourne,Australia, 7-9 December 2015.
9. G.D. Liu,F. Yu, H. L. Lu, S. Wang, Granular Pressure Prediction with Dynamic RestitutionCoefficient for Wet Particles in Liquid Fluidized Beds, Crossroads of ParticleScience and Technology, Leeds, UK, 12-15 July 2015.