梁财

能源工程系 教授、博导
副经理

通讯方式:liangc@seu.edu.cn 025-83795351

研究方向:

气固两相流、粉体静电、废塑料制氢、辐射传热、洁净煤发电

办公地点:热能所361

 

 

个人简介

梁财,工学博士、博士生导师、教授、副经理  分别在西北工业大学和4008云顶集团获本科和博士学位,兼任中国多相流测试委员会委员、中国石油和化工勘察设计协会粉体工程设计专业委员会及中国物理学会静电专委会青年委员。承担了多项国家自然科学基金项目、国家重点研发及国家973项目子课题,先后与上海锅炉厂、鞍钢集团和哈尔滨锅炉厂等及荷兰ShellGECHOREN等机构开展合作。发表论文200多篇,其中第一及通讯作者SCI收录60余篇。申请专利30余项,排名第一授权发明专利10余项;获得教育部自然科学奖二等奖1项、中国专利优秀奖1项。


教学课程

(1)研究生课程: 《高等工程传热学》

(2)本科生课程: 《传热学》


科研 教改项目

纵向课题:

(1)国家自然科学基金:高压气体动载荷作用下锁斗内粉体应力演化特性及成拱机制研究,主持

(2)国家自然科学基金:料仓内粉体荷电特性及放电机制研究,主持

(3)国家自然科学基金:超高压给料粉体力学行为及颗粒群流动特性研究,主持

(4)国家重点研发计划子课题:加压富氧流化床传热特性研究,主持

(5)国家自然科学基金:高压超浓相气力输送流型与流动稳定性研究, 主持

(6)国家973项目子课题:高压下不同载气多原料超浓相气力输送机理及流动特性研究,主持

(7)国家烟草总局重点研发项目:基于深度学习的卷烟燃烧锥数字化平台构建及应用,主持

企业委托项目:

(1)企业委托大高炉风口回旋区焦炭熔损特性机理研究,主持

(2)企业委托高炉风口回旋区焦炭熔损特性研究,主持

(3)企业委托干熄焦系统生产指标优化模型的开发与应用

(4)企业委托:基于外加压力炼焦的焦炭增产提质研究与开发,主持

(5)企业委托高压浓相喷吹系统及工艺研发,主持

(6)企业委托干煤粉雾化试验研究,主持

(7)企业委托Investigation on flow characteristic of dense-phase pneumatic conveying of pulverized coal at high pressure,主持;

(8)企业委托:加压气化炉试验台架粉煤加压输送系统研发,主持

(9)企业委托:给粉系统,主持


论文 专著

Selected papers

[1] Gaoqiang Zhang, Liangliang Li, Qun Zhou, Cai Liang, He Meng, Qi Lan, Zhen Cao, Xiaoping Chen, Jiliang Ma. Electrostatic discharge pattern and energy probability distribution of different polarity powders in industrial silo. Chemical Engineering Research and Design, 2023, 192: 91-101.

[2] Ning Liu, Cai Liang, Daoyin Liu, Jiliang Ma, Duanfeng Lu, Bin Li, Dengshan Luo. The Axial Force Model Optimization and Dynamic Characteristics of Shear-Friction Force in Screw Chemical Engineering Research and Design, 2023,189: 272-281.

[3] Xiang Li, Keliang Pang, Cai Liang, Daoyin Liu, Jiliang Ma, Xiaoping Chen. Particle attrition-breakage model for CFD-DEM simulation based on FRM and WPM: Application in blast furnace raceway. Powder Technology, 2023, 414, 118105.

[4] Qingwen Wei, Keliang Pang, Cai Liang. Numerical simulation investigation of pyrolysis characteristics, bubble evolution and CRI reduction mechanism under the hot tamping coking condition. Journal of Analytical and Applied Pyrolysis, 2023, 167, 105668.

[5] Wang Xin, Luo Bing, You Minghao, Liang Cai; Liu Daoyin, Ma Jiliang Chen Xiaoping. Experimental and modeling study of gas flow characteristics in the compressible powder bed during gas pressurization. Chemical Engineering Science, 2023, 268: 118445.

[67] Peng Zhang, Mudi Wu, Cai Liang, Dengshan Luo, Bin Li, JiliangMa. Modulating metal-support interaction via Fe-Ni bimetallic catalyst for H2-rich gas products and carbon nanotubes from microwave plasma-initiated decomposition of plastic wastes. Journal of Hazardous Materials, 2023 445, 130609.

[7] Jialiang Cai, Jiang Xu, Minghao You, Cai Liang, Daoyin Liu,Jiliang Ma, Xiaoping Chen. Flow Characteristics and Pattern transition of Different Pipe Diameters in Pneumatic Conveying for Gasifier. Chemical Engineering Research and Design, 2023, 189:282-295.

[8] Qun Zhou, Xiaotao Bi, Peng Zhang, Jiawei Hu, Cai Liang, Xiaoping Chen, Jiliang Ma. A study of charging characteristics of binary mixture of polyolefin particles by using horizontal airflow to separate large and small particles. Powder Technology, 2023, 420: 118399.

[9] Jiawei Hu, Cai Liang, Chuan-Yu Wu, Xin Wang, Qun Zhou. Effect of electrostatic interactions on particle dispersion in a rotating spherical container. Powder Technology2022398117063.

[10] Zhen Cao, Cai Liang, Xi Zhou, Xin Zeng, Lunbo Duan, Xiaoping Chen, Daoyin Liu. Radiative heat transfer in splash and dilution zones of the oxy-fuel pressurized CFB considering particle-dependent scattering, Advanced Powder Technology. 2022, 33: 103697.

[11] Xin Wang, Yifu Shi, Bing Luo, Cai Liang, Daoyin Liu, Jiliang Ma, Xiaoping Chen. Flow characteristics and pattern transformation during discharge in funnel flow silos. Chemical Engineering Research and Design, 2022, 182: 381-394.

[12] Qun Zhou, Liangliang Li, Xiaotao Bi, Gaoqiang Zhang, Zhen Cao, He Meng, Qi Lan, Cai Liang, Xiaoping Chen, Jiliang Ma.  Electrostatic elimination of charged particles by DC-type bipolar electrostatic eliminator. Powder Technology, 2022, 408: 117774.

[13]Peng Zhang, Cai Liang, Mudi Wu, Xiaopeng Chen, Daoyin Liu, Jiliang Ma.High-efficient microwave plasma discharging initiated conversion of waste plastics into hydrogen and carbon nanotubes. Energy Conversion and Management, 2022, 268:116017.

[14] Ji Wu, MinghuiXie, Yu Zeng, Cai Liang, Yuman Che, Jianwei Zhu, Qingwen Wei, Tianyong Guo, Zhe Jiang, Fujun Liu, Daichao Hu.Microstructure Analysis and Mineral Phase Transformation of Coke in Blast Furnace. Ironmaking and Steelmaking, 2022,49(10): 1068-1077.

[15]Xi Zhou, Cai Liang, Zhen Cao, Xiaoping Chen, Jiliang Ma, Daoyin Liu. Investigation on the radiation heat transfer in dilution zone of a 100 kWth oxy-fuel pressurized circulating fluidized bed. Chemical Engineering Research and Design, 2022, 188: 886-902.

[16] Qingwen Wei, Keliang Pang, Ji Wu, Cai Liang. Coke characteristics and formation mechanism based on the hot tamping coking. Journal of Analytical and Applied Pyrolysis, 2022, 161: 105381.

[17] Jiawei Hu, Cai Liang, Qun Zhou, Jiliang Ma. Equilibrium charge and triboelectric coefficient of spheres in a rotating container. Particuology.2022, 63: 103-111.

[18] Peng Zhang, Cai Liang, Qun Zhou, Xiaoping Chen, Jiliang Ma. Investigation of particle adhesion on the wall due to electrostatic charge in gas-solid fluidized beds. Powder Technology2021, 387: 373-384.

[19] Chun Han, Cai Liang, Jiawei Hu, Qun Zhou, Xiaoping Chen, Jiliang Ma. The charging characteristics of particle-particle contact. Journal of Electrostatics, 2021, 112, 103582.

[20] Qun Zhou, Cai Liang, Jiawei Hu, Xiaoping Chen, Jiliang Ma. Numerical simulation of electric field in cylindrical silo base on non-uniform electrostatic charge distribution caused by particle segregation. Powder Technology, 383: 336-347.

[21] He Zhongli; Song Bing; Liang Cai; Liu Bin; Ma Zhirui; Pang Keliang; Yang Jiangang. Insight of high temperature gas-phase arsenic capture by CaO-Ca12Al14O33 synthetic sorbent. Energy & Fuels. 2021, 35, 3, 2425-2433.

[22] Zhirui Ma; Cai Liang; Bin Liu; Zhongli He; Keliang Pang.Capture Mechanisms of Mineral in Coal on Pb During Combustion. Journal of Chemical Engineering of Japan,54(7):406-416.

[23] Qun Zhou, Cai Liang, Choi, Gaoqiang Zhang, Jiawei Hu, Xiaoping Chen, Jiliang Ma.Understanding influence of metal protrusion on electrostatic discharges in conical-cylindrical silo based on electric field simulation.Advanced Powder Technology, 2021, 32: 2781–2790.

[24] Jiawei Hu, Chunlei Pei, Ling Zhang, Cai Liang, Chuan-Yu Wu. Numerical analysis of frictional charging and electrostatic interaction of particles. AIChE Journal, 2021: e17444.

[25] Cao Zhen, Liang Cai, Duan Lunbo, Chen Xiaoping, Liu Daoyin, Ma Jiliang.Radiative Property Model for Non-Gray Particle Based on Dependent Scattering. Powder Technology, 2021, 394: 863-878.

[26] Haiquan An, Xin Wang, Xinhui Fang, Zhen Liu, Cai Liang. Wall Normal Stress Characteristics in an Experimental Coal Silo. Powder Technology, 2021, 377657-665.

[27] Zhou Qun, Cai Liang, Jiawei Hu, Xiaoping Chen, Daoyin Liu, Jiliang Ma. Effect of particle segregation on non-uniform electrostatic charge distribution in cylindrical silo during loading binary particles with size ratio of 2.5:1 centrally. Powder Technology2021, 378:772-784.

[28] Yangyang Chen, Cai Liang, Xin Wang, Xiuqi Guo, Xiaoping Chen, Daoyin Liu. Static pressure distribution characteristics of powders stored in silos. Chemical Engineering Research and Design, 2020, 154: 1-10.

[29] Qun Zhou, Cai Liang, Duanfeng Lu, Jiawei Hu, Xiaoping Chen, Daoyin Liu, JiliangMa. Study on electric field distribution in cylindrical metal silo considering particle segregation. Advanced Powder Technology, 2020,31(1):241-251.

[30] Jiawei Hu, Cai Liang, Chun Han, Qun Zhou, Jiliang Ma, Daoyin Liu, Xiaoping Chen. Effect of external electric field on particle impact charging process. Powder Technology, 2020, 360: 1355–1367.

[31] Zeng Xin, Liang Cai, Duan Lunbo, Chen Xiaoping, Liu Daoyin, Ma Jiliang. A GPU-based Line-by-Line Method for thermal radiation transfer of H2O, CO2, and H2O/CO2 mixture. Applied Thermal Engineering, 2020, 167:114779.

[32] Xin Wang, Cai Liang, Xiuqi Guo, Yangyang Chen, Daoyin Liu, Jiliang Ma, Xiaoping Chen, Haiquan An. Experimental study on the dynamic characteristics of wall normal stresses during silo discharge, Powder Technology, 2020,363:509-518.

[33] Qun Zhou, JiaweiHu, Cai Liang, Xiaoping Chen, Daoyin Liu, Jiliang Ma. Study on electric field distribution in cylindrical metal silo containing charged polyethylene powder. Powder Technology, 2019,353:145-155.

[34] Xin Zeng, Cai Liang, Lunbo Duan, Xiaoping, Chen, Daoyin Liu, Jiliang Ma. Thermal radiation characteristics in dilute phase region of the oxy-fuel combustion pressurized fluidized bed. Applied Thermal Engineering, 2020, 179: 115659.

[35] Jinyong Zhu, Cai Liang, Keliang Pang, Lunbo Duan, Daoyin Liu, Xiaoping Chen and Jiliang Ma. Heat Transfer Characteristics in the Dense Phase Region of a Pressurized Fluidized Bed. Journal of Chemical Engineering of Japan, 2020. 53(9): 1-10.

[36] Zhen Tan, Cai Liang, Xiaoping Chen, Junfei Li. Comparisons of TFM and DEM-CFD simulation analyses on the influence mechanism of electrostatics on single bubble in gas-solid fluidized bed. Powder Technology, 2019, 351:238-258.

[37] Hu Jiawei, Zeng Xin, Han Chun, Liang Cai, Zhou Qun, Ma Jiliang, Liu Daoyin, Chen Xiaoping. Measurement of single particle impact charging under an external electric field. Review of Scientific Instruments, 2019, 90, 045125.

[38] Jiawei Hu, Pengfei Gu, Xin Zeng, Qun Zhou, Cai Liang, Daoyin Liu, Xiaoping Chen. Triboelectric charging behavior of a rough surface sliding on a flat plane. Journal of Electrostatics,2019,97:85-97.

[39] Hu Jiawei, Gu Pengfei, Zhou, Qun, Liang Cai; Liu Daoyin, Chen Xiaoping. Experimental and modeling study on mechanisms of sliding and rolling electrification. Powder Technology, 2018, 340: 484-494.

[40] J. Hu, Q. Zhou, C. Liang, X. Chen, D. Liu, C. Zhao, Experimental investigation on electrostatic characteristics of a single grain in the sliding process. Powder Technology, 2018, 334: 132–142. 

[41] Zhen Tan, Cai Liang, Junfei Li, Shuzhao Zhang. The effect of electrostatics on single bubble in fluidized bed and its mechanism analysis. Powder Technology, 2018, 325: 545-556.

专利申请
  1. 梁财,陈晓平,赵长遂  气力输送料罐流量调节装置及控制方法 专利号:ZL 200810022644.5
  2. 陈晓平,周 云,梁 财,赵长遂  多布风板、多出料管圆柱形发料罐及多路输料方法,申请号:200910026604.2 公开号:CN101544310
  3. 陈晓平,刘道银,梁 财,赵长遂  湿粘物料可控加料装置,申请号:200810195079.2 公开号:CN101391711
  4. 梁财,徐贵玲,陈晓平,赵长遂,许盼   一种变压输送干粉的齿轮泵,公开号:CN102633123A
  5. 梁财,许盼,陈晓平,赵长遂,徐贵玲  压缩型变压粉体泵装置,公开号:CN102700940A
  6. 梁财,许盼,陈晓平,赵长遂,徐贵玲  密闭空腔型变压干粉泵装置,公开号:CN102700941A


荣誉 奖励
指导员工

[1]骆  兵  硕士研究生,2020.09~

[2]刘  宁  硕士研究生,2020.09~

[3]李  响  硕士研究生,2020.09~

[4]曹  镇  硕士研究生,2019.09~

[5]周  希  硕士研究生,2019.09~

[6]侍一夫  硕士研究生,2019.09~

[7]韦庆文  博士研究生,2019.03~

[8]武  吉  博士研究生,2019.09~

[9]韩  春  硕士研究生,2018.09~《单颗粒碰撞荷电特性研究》

[10]张  鹏  硕士研究生,2018.09~转博

[11]马智睿  硕士研究生,2018.09~2021.06 《燃煤过程中矿物质组分对铅挥发特性的影响》

[12]王  欣  博士研究生,2018.09~

[13]周  群  博士研究生,2018.03~

[14]曾  鑫  硕士研究生,2017.09~2020.06 《加压富氧流化床稀相区辐射传热研究》

[15]朱晋永  硕士研究生,2017.09~2020.06 《加压流化床密相区对流传热特性研究》

[16]何忠励  博士研究生,2017.09~

[17]胡驾纬  博士研究生,2017.03~2021.06 《运动颗粒荷电特性及静电效应研究

[18]郭秀琦  硕士研究生,2016.09~2019.06 料仓粉体出料过程中应力分布及流动特性研究》

[19]周  群  硕士研究生,2016.09~直博

[20]丁冬冬  硕士研究生,2016.09~2019.06 《高炉风口回旋区特征的数值模拟与实验研究》

[21]陈阳阳  硕士研究生,2016.09~2019.06 《料仓内粉体静态应力分布特性研究》

[22]邓传杰  硕士研究生,2015.09~2018.06 纳米颗粒聚团流化及原子层沉积模型研究

[23]王延涛  硕士研究生,2015.09~2018.06 《污泥气化焦油催化裂解实验研究》

[24]李俊菲  硕士研究生,2015.09~2018.06 《流化床颗粒静电特性及对流动特性的影响》

[25]汤晓斌  硕士研究生,2014.09~2017.06 《燃煤循环流化床细颗粒物化学团聚捕集特性研究》

[26]蔡文昕  硕士研究生,2014.09~2017.06 《干煤粉弥散特性研究》

[27]谭  震  博士研究生,2013.09~2019.12 《流化床中颗粒静电特性及其对流化特性的影响》

[28]胡驾纬  硕士研究生,2013.09~2016.06 《发送罐中粉体静电特性及对输送稳定性的影响》

[29]宁丽景  硕士研究生,2013.09~2016.06 《粉煤灰改性钙基吸收剂颗粒在流化床中的磨损特性研究》

[30]沈  骝  硕士研究生,2012.09~2015.06 《高压浓相气力输送中倾斜管阻力特性研究》

[28]硕士研究生,2012.09~2015.06 燃煤细颗粒物排放及其化学团聚捕集特性研究》

[29]曾小强硕士研究生,2012.09~2015.06 《城市污泥流化床焚烧炉飞灰中重金属迁移富集特性研究》

  

每年招生硕士研究生2~4名,博士研究生1~2