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梁财

时间:2024-11-13浏览:3840

Selected papers

[1] HongchuanJiang,KeliangPang, XiaopingChen, DaoyinLiu, JiliangMa, CaiLiang. Deep learning-assisted multi-objective optimization of coke dry quenching system efficiency. Fuel, 2024, 359: 130490.

[2] Peng Zhang; Cai Liang; Mudi Wu; Yongjie Li; Xiaoping Chen; Daoyin Liu; Jiliang Ma. Sustainable and integrated microwave-driven valorization of plastic waste and CO2 for high-yield H2 and CO production. Applied Catalysis B: Environmental, 2024, 345: 123718.

[3] Qingwen Wei, Keliang Pang, Cai Liang, Fujun Liu. Co-pyrolysis of coal with biomass residues and coke breeze for superior quality coke via hot pressing technology. Journal of Analytical and Applied Pyrolysis, 2024, 180: 106547.

[4] Minghao You, Xin Wang, Yifu Shi, Bing Luo, Cai Liang, Daoyin Liu, Jiliang Ma, Xiaoping Chen. The dynamic evolution of powder flow and wall normal stress in different flow pattern silos. International Journal of Multiphase Flow, 2024, 176: 104844.

[5] Yongjie Li, Peng Zhang, Cai Liang, Xiaoping Chen, Daoyin Liu, Jiliang Ma. Simulation investigation on heating characteristics of catalysts under microwave irradiation for decomposition of waste plastic. Journal of the Energy Institute, 2024, 117: 101794.

[6] X. Li, Hongchuan Jiang, Zhaoxing Su, Lianying Xiong, Cai Liang, Daoyin Liu, Lunbo Duan, Huichao Chen, Xiaoping Chen. Integrated Attrition Model of Mechanical-thermal-reaction for CaCO3/CaO Thermochemical Energy Storage. Applied Thermal Engineering, 2024, 257: 124247.

[7] 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.

[8] 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.

[9] 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.

[10] 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.

[11] 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.

[12] 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.

[13] 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.

[14] 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.

[15] 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.

[16]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.

[17]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.

[18] 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.

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

[20] 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.

[21] 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.

[22] 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.

[23] 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.

[24] 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.

[25] 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.

[26] 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.

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

[28] 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.

[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.