SCI
2024年:课题组发表14篇SCI
[1]Y. Zhu, C. Han, Z. Chen, Density functional theory study on the mechanism of oxygen reduction reaction on nitrogen-doped graphene with adjacent Mn and Ni sites, Int. J. Hydrog. Energy 60 (2024): 1359-1369.
[2]Y. Zhu, C. Han, L. Sheng, Z. Chen, Designing the bimetallic catalysts by the adsorption strength of metal atoms for efficient oxygen reduction: A density functional theory study, Int. J. Hydrog. Energy 68 (2024): 1153-1162.
[3]Y. Zhu, C. Han, Z. Chen, Insights into the origin of Co-based bimetallic catalysts with para-structure exhibiting ORR and OER bifunctional activity, Inorg. Chem. Front. (2024).
[4]Wang X, Xu B, Chen Z. Computational assessment for local and total heat transfer characteristics of supercritical CO2 in horizontal heated Micro-Channel[J]. Thermal Science and Engineering Progress, 2024:102442.
[5]Wang X, Xu B, Chen Z. Thermal evaluation of heat exchanger and a dry-cooled supercritical CO2 mixture Brayton cycle based on three-dimensional and one-dimensional models: Key factors and potential applications[J]. Applied Thermal Engineering, 2024: 122756.
[6]Yi Wang, Lisha Sheng, Haiyi Du, Juan Shi, Zhenqian Chen*.Study on photochemistry and component transport coupling processes of azobenzene molecular solar thermal system. Applied Energy. 358(2024):122607.
[7]Xiong C, Xu B. Yu H, et al. Thermal failure optimization of foil thrust bearings[J]. International Joumal of Mechanical Sciences, 2024,267:109026.
[8]Xiong C, Xu B. Chen Z. Flow and thermo-hydrodynamic characteristics in supercritical CO2 lubrication[J]. Applied Thermal Engineering, 2024,241:122399.
[9]Xiong C, Xu B, Chen Z. Slip flow and thermal characteristics in gas thrust bearings with rough surfaces[J]. Industrial Lubrication and Tribology, 2024.
[10]Zhao Yu, Mou Xinzu, Chen Zhenqian, Xu Bo*, Topology optimization and bionic analysis of heat sink fin configuration based on additive manufacturing technology.International Communications in Heat and Mass Transfer.2024, 155, 107544
[11] L.X. Yang, X. Wang, B. Xu, Z.Q. Chen. Operating characterization and performance optimization of high-temperature heat pumps: A comparative energy, economic and environmental analysis. Applied Thermal Engineering; 2024; 124292.
[12] Yi Wang, Lisha Sheng, Bo Xu, Juan Shi, Zhenqian Chen*.Study on thermophysical properties and phase change regulation mechanism of optically-controlled phase change materials: synthesis, crystal structure and molecular dynamics. Small, (2024): 202404184.
[13] Du, H., Shi, J., Chen, S., et al. Energy consumption of a novel floor radiant cooling system in large space buildings. Applied Thermal Engineering, 2024, 124336.
[14]Jiang ,T., Chen, ZQ., Han,CL.Liquid water transport mechanism inside fuel cells with orderly graded perforation microporous layer .Asia-Pacific Journal of Chemical Engineering,2024.
2023年:课题组发表10篇SCI
[1]Yi Wang, Juan Shi, Lisha Sheng, Zhenqian Chen*. Study on the applicability of photoswitch molecules to optically-controlled thermal energy in different organic phase change materials. Chemical Engineering Journal, 456 (2023): 141051.
[2]Lisha Sheng,Yi Wang, Xin Wang, Chaoling Han, Zhenqian Chen. A thermal management strategy for electronic devices based on copper double skin inspired hydrogel[J]. International Journal of Heat and Mass Transfer, 2023, 206: 123946.
[3]Xiong Cheng, Bo Xu, Huanchun Yu, Zhongwen Huang, Zhenqian Chen. A thermo-elastic-hydrodynamic model for air foil thrust bearings considering thermal seizure and failure analyses. Tribology International, 2023, 108373.
[4]Xiong Cheng, Xu Bo, Chen Zhenqian. Static and dynamic characteristics of aerodynamic thrust bearings based on fluid-thermal-structural interaction approach[J]. Thermal Science and Engineering Progress, 2023, 42: 101901.
[5]Xiong Cheng, Xu Bo, Chen Zhenqian. The fluid-thermal-structural interaction analysis of a new multifoil aerodynamic thrust bearings[J]. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 2023: 13506501231198569.
[6]Sheng L, Tian Z, Xu P, et al. Application of distributed parameter model in thermal management of microchannel loop heat pipe[J]. Applied Thermal Engineering, 2023, 234: 121243.
[7]Sheng L, Wang Y, Chen Z. Kinetic and thermodynamic property study of electrostatic-assisted porous liquids, nanofluids and nanoparticle organic hybrid materials by molecular dynamics simulation[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2023: 131898.
[8]Xu B, Zhang T, Wang S, et al. Dynamic characteristics and energy efficiency evaluation of a novel solar seasonal thermal storage-heating system[J]. Applied Thermal Engineering, 2023, 234: 121223.
[9]Xu B, Wang X, Zhang Y, et al. Experimental and economic analysis of optimization potential for annual operating characteristics of air source transcritical CO2 heat pump system[J]. Thermal Science and Engineering Progress, 2023, 42: 101864.
[10]Wang X, Xu B, Guo S, et al. Droplet impacting dynamics: Recent progress and future aspects[J]. Advances in Colloid and Interface Science, 2023: 102919.
2022年:课题组发表19篇SCI
[1]Kang Shang, Chaoling Han, Tao Jiang, Zhenqian Chen. Numerical study of PEMFC heat and mass transfer characteristics based on roughness interface thermal resistance model. International Journal of Hydrogen Energy. 2022.
[2]Tiantian Zhang, Bo Xu, Zhenqian Chen. Effect of Halloysite Nanotubes on the Conformation and Thermal properties of Shape-Stable Phase Change Materials: A Molecular Dynamics Study, Materials Today Communication. Vol. 33, PP. 104180, 2022.
[3]Tiantian Zhang#, Cancan Zhang#, Bo Xu, Wenjing Ren, Zhenqian Chen. Investigation of Polyurethane-based Halloysite Nanotube as Solid-solid Phase Change Materials for Thermal Energy Storage. Heat Transfer Research, Vol. 53(17), PP. 61-73, 2022.
[4]Haiyi Du, Juan Shi, Zhenqian Chen. Reverse nonequilibrium molecular dynamics simulation for thermal conductivity of gallium-based liquid metal[J]. Journal of Physical Chemistry C, 2022, 126, 48, 20558–20569.
[5]Yulong Jiang, Bo Xu, Cheng Xiong, Xiangyu Lu, Huanchun Yu, Zhengqian Chen.Influence of slip effect on viscous dissipation heat and lubrication characteristics of gas journal bearing- a multiscale analysis.Numerical Heat Transfer Part A-Applications,2022,Early Access.
[6]Chaoling Han, Tao Jiang, Kang Shang, Bo Xu, Zhenqian Chen. Heat and mass transfer performance of proton exchange membrane fuel cells with electrode of anisotropic thermal conductivity. International Journal of Heat and Mass Transfer, 2022. 182, 12195.
[7]Chaoling Han, Lidan He, Zhizheng Tian, Bo Xu, Zhenqian Chen. Study of heat dissipation characteristics of loop heat pipe with heat sink of composite material. Applied Thermal Engineering, 2022, 200: 117572.
[8]Tiantian Zhang, Juan Shi, Yi Wang, Zhenqian Chen. A novel form-stable phase change material based on halloysite nanotube for thermal energy storage. Journal of Energy Storage, 2022, 45, 103703.
[9]Lisha Sheng, Zhenqian Chen, Xin Wang, Abdul Samad Farooq. Transforming Porous Silica Nanoparticles into Porous Liquids with Different Canopy Structures for CO2 Capture. ACS omega, 2022, 7(7): 5687-5697.
[10]Lisha Sheng, Jie Lei, Zhenqian Chen, Yi Wang. Solvent-free porous liquids for CO2 capture based on silica nanoparticles with different core structures. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022, 634: 128016.
[11]Yi Wang, Siming Wang, Juan Shi, Zhenqian Chen, Lisha Sheng, Tiantian Zhang. Molecular Dynamics Study of Optically Controlled Phase Change Materials. The Journal of Physical Chemistry C, 2022, 126(12): 5443–5456
[12]Tang Zhiwen, Xu Bo, Wang Xin, Chen Zhenqian. Effects of Gravity and Surface Morphology on Droplet Contact Angles and Wetting State[J]. Microgravity Science and Technology, 2022, 34(4): 1-13.
[13]Wu Peichan, Yan Yuhan, Zhu Huan, Shi Juan, Chen Zhenqian. Study on hemodynamics of aneurysm intervention with different stents[J]. Chinese Physics B, 2022.
[14]Zhang Leigang, Xu Bo, Shi Juan, Wang, Xin, Zhang Fangfang, Chen Zhenqian. Experimental Study on Flow Condensation Heat Transfer in a Horizontal Rectangular Channel with Ellipse-shape Pin Fins[J]. Microgravity Science and Technology, 2022, 34(3): 1-16.
[15]Xu Bo, Lu Xiangyu, Jiang Yulong, Xiong Cheng, Yu Huanchun, Zhang Fangfang, Luo Xinyang, Chen Zhenqian. Research on clearance flow characteristics of gas-lubricated journal bearings using the lattice Boltzmann method[J]. Alexandria Engineering Journal, 2022, 61(12): 10981-10993.
[16]Lei Jie, Wang Dengyun, Chen Zhenqian. Numerical Study of Micro-Thermal Environment in Block Based on Porous Media Model[J]. Buildings, 2022, 12(5): 595.
[17]Wang Xin, Xu Bo, Chen Z, Del Col Davide, Li Dong, Zhang Leigang, Mou Xinzhu, Liu Qiusheng, Yang Yang, Cao Qian. Review of droplet dynamics and dropwise condensation enhancement: Theory, experiments and applications[J]. Advances in Colloid and Interface Science, 2022: 102684.
[18]Xinzhu Mou, Zhenqian Chen. Multi-scale study on thermo-hydro-mechanical properties of deformable activated carbon foam during drying process[J]. Chemical Engineering Journal, 2022, 441:136015.
[19]Shi Juan, Du Haiyi, Chen Zhenqian, Lei Shuyao. Review of phase change heat transfer enhancement by metal foam[J]. Applied Thermal Engineering, 2022: 119427.
2021年:课题组发表24篇SCI
[1]Bo Xu, Dengyun Wang, Zhaohai Li, Zhenqian Chen. Drying and dynamic performance of well-adapted solar assisted heat pump drying system. Renewable Energy 2021, 164: 1290-1305.
[2]Bo Xu, Sophie Wang, Zhenqian Chen. Molecular dynamics study of self-propelled droplet on different surfaces. Chemical Physics Letters 2021, 782: 139029
[3]Bo Xu#, Cancan Zhang #, Zhenqian Chen, Yang Yang, Qian Cao. Investigation of nano-droplet wetting states on array micro-structured surfaces with different gravity. Computers and Fluids 2021, 222: 104936.
[4]Bo Xu, Chun Jiang, Zhenqian Chen. Numerical study on flow heat transfer characteristics of horizontal tube falling-film evaporator. Journal of Thermal Science 2021, 30(4): 1302-1317.
[5] Wang Xin,Xu Bo,Chen Zhenqian,Yang Yang,Cao Qian. Lattice Boltzmann simulation of dropwise condensation on the microstructured surfaces with different wettability and morphologies. International Journal of Thermal Sciences 2021,160:1006643.
[6]Wang, X., J. Y. Chang, Z. Q. Chen and B. Xu (2021). Mesoscopic lattice Boltzmann simulation of droplet jumping condensation heat transfer on the microstructured surface. International Communications in Heat and Mass Transfer127.
[7]Wang, X., Z. W. Tang, B. Xu and Z. Q. Chen (2021). Anti-freezing characteristics of water droplet impinging the superhydrophobic surface: An experimental and predictive study. Applied Surface Science566.
[8]Wang, X., B. Xu, Z. Q. Chen, Y. Yang and Q. Cao (2021). Lattice Boltzmann simulation of dropwise condensation on the microstructured surfaces with different wettability and morphologies. International Journal of Thermal Sciences160.
[9]Wang, X., B. Xu, Q. S. Liu, Y. Yang and Z. Q. Chen (2021). Enhancement of vapor condensation heat transfer on the micro- and nano-structured superhydrophobic surfaces. International Journal of Heat and Mass Transfer177.
[10]Xin Wang, Wanting Xu, Zhenqian Chen, Bo Xu. Dropwise condensation heat transfer on nanostructured superhydrophobic surfaces with different inclinations and surface subcoolings. International Journal of Heat and Mass Transfer, 2021, 181: 121898.
[11] Mou Xinzhu,Chen Zhenqian. Experimental and predictive study on the performance and energy consumption characteristics for the regeneration of activated alumina assisted by ultrasound. Ultrasonics Sonochemistry 2021,70:105314.
[12] Xinzhu Mou,Zhenqian Chen. Pore-Scale Simulation of Fluid Flow Through Deformable Porous Media Using Immersed Boundary Coupled Lattice Boltzmann Method. Transport in Porous Media 2021(prepublish).
[13]Xinzhu Mou, Zhenqian Chen. Study on the ultrasound-assisted drying process of deformable porous materials . Journal of Food Engineering. 2021, 306:110612.
[14] Han Chaoling,Chen Zhenqian. Study on the synergism of thermal transport and electrochemical of PEMFC based on N, P co-doped graphene substrate electrode. Energy 2021,214: 118808.
[15]Chaoling Han, Zhenqian Chen, Baowen Li. Thermal rectification in three dimensional graphite nanocones. International Journal of Heat and Mass Transfer, 2021. 179, 121675
[16] Lisha Sheng,Zhenqian Chen,Yi Wang. Molecular dynamics simulations of stability and fluidity of porous liquids. Applied Surface Science 2021,536:147951.
[17]Lisha Sheng, Zhenqian Chen. Molecular dynamics study of dispersion and fluidity of porous liquids with different pore sizes. Journal of Molecular Liquids. 2021, 333.
[18]Lisha Sheng, Zhenqian Chen. Molecular dynamics study of dispersion stability and fluidity of porous liquids with different canopy structures . The Journal of Physical Chemistry B. 2021.
[19] Biyao Zhuang,Juan Shi,Zhenqian Chen. Numerical study on indoor environment and thermal comfort in train station waiting hall with two different air-conditioning modes. Building Simulation,2020(prepublish).
[20]V.S. Devahdhanush1, Yuchuan Lei1, Zhenqian Chen, Issam, Mudawar, Assessing advantages and disadvantages of macro- and micro-channel flow boiling for high-heat-flux thermal management using computational and theoretical/empirical methods . International Journal of Heat and Mass Transfer. 2021, 167:120787.
[21]Yulong Jiang, Bo Liang, Zhongwen Huang, Zhenqian Chen, Bo Xu. Prediction on Flow and Thermal Characteristics of Ultrathin Lubricant Film of Hydrodynamic Journal Bearing. Micromachines 2021, 12: 1208.
[22]Yulong Jiang, Bo Xu, Xiangyu Lu, Huanchun Yu, Xinyang Luo, Zhenqian Chen. Multiscale simulation of flow in gas-lubricated journal bearing: A comparative study between Reynolds equation and lattice Boltzmann method. Engineering applications of computational fluid mechanics 2021,15 (1) :1792-1810
[23]Zhang Tiantian ,Xu Bo ,Chen Zhenqian . Effect of Graphite Layers on the Conformation and Thermal Conductivity of n-octadecane: A Molecular Dynamics Study. Journal of Thermal Science, 2021, 30(5), 1789-1802.
[24]Yuchuan Lei, Bo Xu, Zhenqian Chen. Experimental investigation on cooling heat transfer and buoyancy effect of supercritical carbon dioxide in horizontal and vertical micro-channels. International Journal of Heat and Mass Transfer, 2021, 181: 121792.
2020年:课题组发表15篇SCI
[1] Xin Wang,Bo Xu,Zhenqian Chen,Yang Yang,Qian Cao. Effects of Gravitational Force and Surface Orientation on the Jumping Velocity and Energy Conversion Efficiency of Coalesced Droplets. Microgravity Science and Technology 2020,32:1185-1197.
[2] Panpan Li,Enhai Liu,Zhenqian Chen. Changes in micropore structure and moisture transport properties in fibrous porous media after ultrasound treatment. Heat and Mass Transfer 2020,57:431-439.
[3] Xinzhu Mou,Zhenqian Chen. Pore-scale simulation of heat and mass transfer in deformable porous media. International Journal of Heat and Mass Transfer 2020,158.
[4] Ma, Qiang . Zhao, Lijuan . Su, Huaneng . Chen, Zhenqian .Numerical study of mass transfer and desorption behaviors in deformable porous media using a coupling latticeBoltzmann model. PHYSICAL REVIEW E 2020,102:023309.
[5] Wang Xin,Xu Bo,Chen Zhenqian,Yang Yang,Cao Qian. Lattice Boltzmann Modeling of Condensation Heat Transfer on Downward Facing Surfaces with Different Wettability.. Langmuir : the ACS journal of surfaces and colloids 2020,36(31):9204-9214.
[6] Bo Xu,Jiaxin Xu,Zhenqian Chen. Heat transfer study in solar collector with energy storage. International Journal of Heat and Mass Transfer 2020,156.
[7] Mou, Xinzhu . Chen, Zhenqian .Experimental study on the effect of sludge thickness on the characteristics of ultrasound-assisted hot air convective drying municipal sewage. DRYING TECHNOLOGY. DOI: 10.1080/07373937.2020.1716243.
[8] Chaoling Han,Zhenqian Chen. The mechanism study of oxygen reduction reaction (ORR) on non-equivalent P, N co-doped graphene. Applied Surface Science 2020,511..
[9] Juan Shi,Dongyang Feng,Zhenqian Chen. Experimental investigation on pool boiling heat transfer on untreated/super-hydrophilic metal foam under microgravity. International Journal of Heat and Mass Transfer 2020,151..
[10] Lei Yuchuan,Mudawar Issam,Chen Zhenqian. Computational and experimental investigation of condensation flow patterns and heat transfer in parallel rectangular micro-channels. International Journal of Heat and Mass Transfer 2020,149(C).
[11] Xin Wang,Bo Xu,Yi Wang,Zhenqian Chen. Directional migration of single droplet on multi-wetting gradient surface by 3D lattice Boltzmann method. Computers and Fluids 2020,198.
[12] Bo Xu,Hezhi Zhang,Zhenqian Chen. Study on heat transfer performance of geothermal pile-foundation heat exchanger with 3-U pipe configuration. International Journal of Heat and Mass Transfer 2020,147.
[13] Lei, Yuchuan. Chen, Zhenqian. Cooling heat transfer and pressure drop of supercritical CO2 in wavy microchannels with consistent and opposite crests and troughs. INTERNATIONAL JOURNAL OF REFRIGERATION-REVUE INTERNATIONALE 2020,109:64-81.
[14] Juan Shi,Xi Jia,Dongyang Feng,Zhenqian Chen,Chaobin Dang. Wettability effect on pool boiling heat transfer using a multiscale copper foam surface. International Journal of Heat and Mass Transfer 2020,146.
[15] Yuchuan Lei,Zhenqian Chen. Numerical Study of Condensation Heat Transfer in Curved Square and Triangle Microchannels. Heat Transfer Engineering 2020,41(9-10).
2019年:课题组发表15篇SCI
[1] Xin Wang,Bo Xu,Z. Chen. Numerical simulation of droplet dynamics on chemically heterogeneous surfaces by lattice Boltzmann method. International Journal of Numerical Methods for Heat & Fluid Flow 2019,30(2):607-624..
[2] Shi, Juan. Xue, Hua. Chen, Zhenqian. Sun, Li. Numerical Study of a New Solar Vacuum Tube Integrating with Phase Change Material. SUSTAINABILITY 2019,11(24):6960.
[3] Bo Xu,Zhenqian Chen. Condensation on Composite V-Shaped Surface with Different Gravity in Nanoscale. Microgravity Science and Technology 2019,31(5):603-613.
[4] Panpan Li,Zhenqian Chen,Yuying Yan. Numerical simulation of heat and moisture transfer in fibrous porous media dehydration process with ultrasound assisted. International Journal of Heat and Mass Transfer 2019,142..
[5] Leigang Zhang,Bo Xu,Juan Shi,Zhenqian Chen. Experimental study on condensation heat transfer of FC-72 in a narrow rectangular channel with ellipse-shape pin fins: Ground and microgravity experiments. International Journal of Heat and Mass Transfer 2019,114:1272-1287.
[6] Qiang Ma,Qian Xu,Qing Chen,Zhenqian Chen,Huaneng Su,Weiqi Zhang. Lattice Boltzmann model for complex transfer behaviors in porous electrode of all copper redox flow battery with deep eutectic solvent electrolyte. Applied Thermal Engineering 2019,160.
[7] Lu Yalin,Chen Zhenqian. Numerical study on heat transfer performance of vacuum tube solar collector integrated with metal foams. International Journal of Low-Carbon Technologies 2019,14(3):44-350.
[8] Yuchuan Lei,Zhenqian Chen. Numerical study of condensation flow regimes in presence of non-condensable gas in minichannels. International Communications in Heat and Mass Transfer 2019,106:1-8.
[9] Juan Shi,Gonghang Zheng,Zhenqian Chen,Chaobin Dang. Experimental study of flow condensation heat transfer in tubes partially filled with hydrophobic annular metal foam. International Journal of Heat and Mass Transfer 2019,136:1265-1272.
[10] Bo Xu,Zhenqian Chen. Molecular dynamics study of water vapor condensation on a composite wedge-shaped surface with multi wettability gradients. International Communications in Heat and Mass Transfer 2019,105:65-72.
[11] Xin Wang,Zhenqian Chen,Bo Xu. Coalescence-induced jumping of condensate droplets on microstructured surfaces with different gravitational fields by lattice Boltzmann method. Computers and Fluids 2019,188:60-69.
[12] Juan Shi,Qiang Ma,Zhenqian Chen. Numerical Study on Bubble Motion in Pore Structure under Microgravity Using the Lattice Boltzmann Method. Microgravity Science and Technology 2019,31(2):207-222..
[13] Chaoling Han,Zhenqian Chen. Adsorption properties of O 2 on the unequal amounts of binary co-doped graphene by B/N and P/N: A density functional theory study. Applied Surface Science 2019,471:445-454.
[14] Bo Xu,Zhenqian Chen. Formaldehyde diffusion within crystalline and amorphous cellulose at different temperatures and electric fields: A molecular dynamics study. Indoor and Built Environment 2019,28(2):175-185.
[15] Han,Chen. Numerical simulations of two-phase flow in a proton-exchange membrane fuel cell based on the generalized design method. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 2019,41(10):1253-1271.
2018年:课题组发表12篇SCI
[1] Leigang Zhang,Juan Shi,Bo Xu,Zhenqian Chen. Experimental Study on Distribution Characteristics of Condensate Droplets Under Ultrasonic Vibration. Microgravity Science and Technology 2018,30(6):737-746.
[2] Leigang Zhang,Juan Shi,Bo Xu,Zhenqian Chen. Influences of Pin Geometry and Inclination Angle on Condensation Heat Transfer Performance of Elliptical Pin–Fin Surface. Microgravity Science and Technology 2018,30(6):965-975.
[3] Bo Xu,Zhenqian Chen. Droplet Movement on a Composite Wedge-Shaped Surface with Multi-Gradients and Different Gravitational Field by Molecular Dynamics. Microgravity Science and Technology 2018,30(4):571-579.
[4] Juan Shi,KaiWei Lin,ZhenQian Chen,Hao Shi. Annual dynamic thermal performance of solar water heaters: A case study in China's Jiangsu Province. Energy & Buildings 2018,173:399-408.
[5] Panpan Li,Zhenqian Chen,Lisha Sheng. Determination of optimum operation conditions in an ultrasound assisted fibrous porous media drying process. Applied Thermal Engineering 2018,138:394-402.
[6] Yuchuan Lei,Zhenqian Chen. Numerical study on cooling heat transfer and pressure drop of supercritical CO 2 in wavy microchannels. International Journal of Refrigeration 2018,90:46-57.
[7] Xu, Bo. Chen, Zhenqian. Effect of electric field on adsorption of formaldehyde by beta-cellobiose in micro-scale. PHYSICA E-LOW-DIMENSIONAL SYSTEMS & NANOSTRUCTURES 2018,99:112-117
[8] Chaoling Han,Zhenqian Chen. Study on electrochemical and mass transfer coupling characteristics of proton exchange membrane (PEM) fuel cell based on a fin-like electrode surface. International Journal of Hydrogen Energy 2018,43(16):8026-8039.
[9] Zhou, Bo. Meng, Er-Lin. Chen, Zhenqian. Numerical study on heat transfer performance of composite phase-change energy storage capsule material. FRESENIUS ENVIRONMENTAL BULLETIN 2018,27(4): 2373-2379.
[10] Panpan Li,Zhenqian Chen,Juan Shi. Numerical Study on the Effects of Gravity and Surface Tension on Condensation Process in Square Minichannel. Microgravity Science and Technology 2018,30(1-2):19-24.
[11] Juan Shi,Gonghang Zheng,Zhenqian Chen. Experimental investigation on flow condensation in horizontal tubes filled with annular metal foam. International Journal of Heat and Mass Transfer 2018,116:920-930.
[12] Chaoling Han,Zhenqian Chen. Numerical simulation for the effect of vaporization intensity in membrane on the performance of PEM fuel cell. Numerical Heat Transfer, Part A: Applications 2018,73(3):177-194.
2017年:课题组发表9篇SCI
[1] Panpan Li,Zhenqian Chen. Experiment study on porous fiber drying enhancement with application of power ultrasound. Applied Acoustics 2017,127:169-174.
[2] Bo Xu,Zhenqian Chen. The combined effects of temperature and electric fields on formaldehyde emission from building materials: Experiment and molecular dynamics simulation. International Communications in Heat and Mass Transfer 2017,87:105-111.
[3] Ma Qiang,Chen Zhenqian,Liu Hao. Multiple-relaxation-time lattice Boltzmann simulation for flow, mass transfer, and adsorption in porous media.. Physical review. E 2017,42(96):013313.
[4] Dongyan Gao,Fang-Bao Tian,Zhenqian Chen,Dongliang Zhang. An improved lattice Boltzmann method for solid-liquid phase change in porous media under local thermal non-equilibrium conditions. International Journal of Heat and Mass Transfer 2017,110:58-62.
[5] Xinpeng Huang,Zhenqian Chen,Juan Shi,Xianchang Li. Experimental Study on Heat Transfer Performance of Vacuum Tube Heat Collector with Thermal Storage. Applied Sciences 2017,7(5):448.
[6] Dongyan Gao,Zhenqian Chen,Dongliang Zhang,Linghai Chen. Lattice Boltzmann modeling of melting of phase change materials in porous media with conducting fins. Applied Thermal Engineering 2017,118:315-327.
[7] Jiayi Zheng,Juan Shi,Qiang Ma,Xiaoli Dai,Zhenqian Chen. Experimental study on humidity control performance of diatomite-based building materials. Applied Thermal Engineering 2017,114:450-456.
[8] Dongyan Gao,Zhenqian Chen,Linghai Chen,Dongliang Zhang. A modified lattice Boltzmann model for conjugate heat transfer in porous media. International Journal of Heat and Mass Transfer 2017,105:673-683.
[9] Nan Lv,Qing Zhang,Zhenqian Chen,Dongsheng Wu. Simulation and analysis on thermodynamic performance of surface water source heat pump system. Building Simulation 2017,10(1):65-73.
2016年:课题组发表5篇SCI
[1] Panpan Li,Xiaowei Fan,Zhenqian Chen. Numerical study on the heat transfer of micro elliptic pin fins in a rectangular minichannel. Numerical Heat Transfer, Part A: Applications 2016,70(11):1242-1252.
[2] Yan Wang,Zhenqian Chen,Xiang Ling. An experimental study of the latent functionally thermal fluid with micro-encapsulated phase change material particles flowing in microchannels. Applied Thermal Engineering 2016,105:209-216.
[3] Yan Wang,Zhenqian Chen,Xiang Ling. A molecular dynamics study of nano-encapsulated phase change material slurry. Applied Thermal Engineering 2016,98:835-540.
[4] Bo Xu,Zhenqian Chen,Qiang Ma. Effect of high-voltage electric field on formaldehyde diffusion within building materials. Building and Environment 2016,95:372-380.
[5]Zhenqian Chen,Juan Shi,Xiaozhong Shen,Qiang Ma,Bo Xu. Study on formaldehyde emissions from porous building material under non-isothermal conditions. Applied Thermal Engineering 2016,101:165-172.
2015年:课题组发表2篇SCI
[1] Yan Wang,Zhenqian Chen,Xiang Ling. Entropy generation analysis of particle suspension induced by Couette flow. International Journal of Heat and Mass Transfer 2015,90:499-504.
[2] Ma Qiang,Chen Zhenqian. Lattice Boltzmann simulation of multicomponent noncontinuum diffusion in fractal porous structures.. Physical review. E, Statistical, nonlinear, and soft matter physics 2015,92(1):013025.
2014年:课题组发表10篇SCI
[1] Qiang Ma,Zhenqian Chen. Numerical study on gas diffusion in isotropic and anisotropic fractal porous media (gas diffusion in fractal porous media). International Journal of Heat and Mass Transfer 2014,79:925-929.
[2] Peitao Zhao,Yafei Shen,Shifu Ge,Zhenqian Chen,Kunio Yoshikawa. Clean solid biofuel production from high moisture content waste biomass employing hydrothermal treatment. Applied Energy,2014,131:345-367.
[3] JIAYI ZHENG,XING SHI,JUAN SHI,ZHENQIAN CHEN. PORE STRUCTURE RECONSTRUCTION AND MOISTURE MIGRATION IN POROUS MEDIA. Fractals 2014,22(3):1440007.
[4] Weibo Yang,Xingfu Liang,Mingheng Shi,Zhenqian Chen. A Numerical Model for the Simulation of a Vertical U-Bend Ground Heat Exchanger Used in a Ground-Coupled Heat Pump. International Journal of Green Energy 2014,11(7):761-785.
[5] Dong Li,Zhenqian Chen. Visualization of Effects of Ultrasound on Liquid Droplet Solidification and Frost Formation on Cold Flat Surface. Heat Transfer Engineering 2014,35(11-12):1098-1104.
[6] Juan Shi,Zhenqian Chen,Shuai Shao,Jiayi Zheng. Experimental and numerical study on effective thermal conductivity of novel form-stable basalt fiber composite concrete with PCMs for thermal storage. Applied Thermal Engineering 2014,66(1-2):156-161.
[7] Dongyan Gao,Zhenqian Chen,Linghai Chen. A thermal lattice Boltzmann model for natural convection in porous media under local thermal non-equilibrium conditions. International Journal of Heat and Mass Transfer,2014 70:979-989.
[8] Dong Li,Zhenqian Chen. Experimental study on instantaneously shedding frozen water droplets from cold vertical surface by ultrasonic vibration. Experimental Thermal and Fluid Science 2014,53:17-25.
[9] Qiang Ma,Zhenqian Chen,Juan Shi,Dong Li. Lattice Boltzmann modeling of VOC desorption and diffusion in porous materials. Building and Environment 2014,72:145-153.
[10] Zhenqian Chen,Dongyan Gao,Juan Shi. Experimental and numerical study on melting of phase change materials in metal foams at pore scale. International Journal of Heat and Mass Transfer 2014,72:646-655.
2013年:课题组发表1篇SCI
[1] Peitao Zhao,Shifu Ge,Zhenqian Chen,Xiang Li. Study on pore characteristics of flocs and sludge dewaterability based on fractal methods (pore characteristics of flocs and sludge dewatering). Applied Thermal Engineering 2013,58(1-2):217-223.
2012年:课题组发表1篇SCI
[1] Wang Yan,Keblinski Pawel,Chen Zhenqian. Viscosity calculation of a nanoparticle suspension confined in nanochannels.. Physical review. E, Statistical, nonlinear, and soft matter physics 2012,86(3 Pt 2):036313.
2011年:课题组发表1篇SCI
[1] Fang Zhao,Zhenqian Chen. Numerical Study on Moisture Transfer in Ultrasound-Assisted Convective Drying Process of Sludge. Drying Technology 2011,29(12):1404-1415.
2010年:课题组发表6篇SCI
[1] Dongyan Gao,Zhenqian Chen. Lattice Boltzmann simulation of natural convection dominated melting in a rectangular cavity filled with porous media. International Journal of Thermal Sciences 2010,50(4):493-501.
[2] Dong Li,Zhenqian Chen,Mingheng Shi. Effect of ultrasound on frost formation on a cold flat surface in atmospheric air flow. Experimental Thermal and Fluid Science 2010,34(8):1247-1252.
[3] DongYan Gao,ZhenQian Chen,MingHeng Shi,ZhiShen Wu. Study on the melting process of phase change materials in metal foams using lattice Boltzmann method. Science China Technological Sciences 2010,53(11):3079-3087.
[4] Xiaozhong Shen,Zhenqian Chen. Fractal diffusion of VOCs in dry porous building materials. Building Simulation 2010,3(3):225-231.
[5] Zhenqian Chen,Mingwei Gu,Donghua Peng. Heat transfer performance analysis of a solar flat-plate collector with an integrated metal foam porous structure filled with paraffin. Applied Thermal Engineering 2010,30:1967-1973.
[6] Zhenqian Chen,Mingwei Gu,Donghua Peng,Changhai Peng,Zhishen Wu. A Numerical Study on Heat Transfer of High Efficient Solar Flat-Plate Collectors with Energy Storage. Taylor & Francis Group 2010,7(3):326-336.
2009年:课题组发表5篇SCI
[1] Zhenqian Chen,Xiaozhong Shen. Study on dielectrophoretic deposition of airborne particles in a vertical micro channel. Building and Environment 2009,45(6):968-975.
[2] Xiaozhong Shen,Zhenqian Chen. Coupled heat and formaldehyde migration in dry porous building materials. Building and Environment 2009,45(6):1470-1476.
[3] Cai-Hua Liang,Xiao-Song Zhang,Xiu-Wei Li,Zhen-Qian Chen. Control strategy and experimental study on a novel defrosting method for air-source heat pump. Applied Thermal Engineering 2009,30(8):892-899.
[4] Donghua Peng,Zhenqian Chen. Numerical simulation of phase change heat transfer of a solar flat-plate collector with energy storage. Building Simulation 2009,2(4):273-280.
[5] Fang Zhao,Zhen-qian Chen,Ming-heng Shi. Numerical study on freezing-thawing phase change heat transfer in biological tissue embedded with two cryoprobes. Journal of Central South University of Technology 2009,16(2):326-331.
2008年:课题组发表3篇SCI
[1] Weibo Yang,Mingheng Shi,Guangyuan Liu,Zhenqian Chen. A two-region simulation model of vertical U-tube ground heat exchanger and its experimental verification. Applied Energy 2008,86(10):2005-2012.
[2] Juan Shi,Zhenqian Chen,Mingheng Shi. Simulation of heat transfer of biological tissue during cryosurgery based on vascular trees. Applied Thermal Engineering 2008,29(8):1792-1798.
[3] Zhengxian Liu,Zhenqian Chen,Mingheng Shi. Thermophoresis of particles in aqueous solution in micro-channel. Applied Thermal Engineering 2008,29(5):1020-1025.
2007年:课题组发表3篇SCI
[1] Liu Zheng-xian. Chen Zhen-qian. Thermophoresis of particles in small air cleaning zone. JOURNAL CENTRAL SOUTH UNIVERSITYOF TECHNOLOGY 2007,14:115-119
[2]YangXiu.ChenZhen-qian.Simulation of phase change heat transfer in porous foam building walls. JOURNAL OF CENTRAL SOUTH UNIVERSITY OF TECHNOLOGY 2007,14:278-281
[3] Yonggao Yin,Xiaosong Zhang,Zhenqian Chen. Experimental study on dehumidifier and regenerator of liquid desiccant cooling air conditioning system. Building and Environment 2007,42(7):2505-2511.
2005年:课题组发表1篇SCI
[1] Z.Q. Chen,J.C. Hermanson,M.A. Shear,P.C. Pedersen. Ultrasonic monitoring of interfacial motion of condensing and non-condensing liquid films. Flow Measurement and Instrumentation 2005,16(6):353-364.
2004年:课题组发表1篇SCI
[1] Z.Q. Chen,M.H. Shi. Study of heat and moisture migration properties in porous building materials. Applied Thermal Engineering 2004,25(1):61-71.
2000年:课题组发表2篇SCI
[1] Z.Q. Chen,P. Cheng,C.T. Hsu. A theoretical and experimental study on stagnant thermal conductivity of bi-dispersed porous media. International Communications in Heat and Mass Transfer 2000,27(5):601-610.
[2] Z.Q. Chen,P. Cheng,T.S. Zhao. An experimental study of two phase flow and boiling heat transfer in bi-dispersed porous channels. International Communications in Heat and Mass Transfer 2000,27(3):293-302.
EI
2022年:课题组发表2篇EI
[1] 牟新竹, 陈振乾. 超声波辅助再生活性氧化铝性能与能耗特性研究[J]. 工程热物理学报, 2022, 43(3), 734-743.
[2] 许婉婷,许波,王鑫,陈振乾.方形微通道内超临界CO_2流动换热特性研究[J].化工学报,2022,73(04):1534-1545.
2021年:课题组发表1篇EI
[1]生丽莎,陈振乾.多孔液体设计制备及性能分析研究进展[J/OL].化工进展:1-25[2022-04-18].DOI:10.16085/j.issn.1000-6613.2021-1678.
2020年:课题组发表3篇EI
[1]许波,陈振乾.液滴在润湿梯度表面运动的分子动力学模拟.工程热物理学报,2020,41(02):430-435.
[2]韩超灵,陈振乾.添加碳纳米颗粒对磷氮双掺杂石墨烯电化学特性的影响.化工学报,2020,71(S1):448-453.
[3]牟新竹, 陈振乾.污泥厚度对超声波辅助热风干燥污泥特性的影响[J]. 化工学报, 2020, 71(S2): 241-252.
2019年:课题组发表4篇EI
[1]牟新竹,陈振乾.多尺度分形多孔介质气体有效扩散系数的数学模型.东南大学学报(自然科学版),2019,49(03):520-526.
[2]生丽莎,陈振乾.静电辅助多孔液体的制备及特性研究.化工学报,2019,70(03):1163-1170.
[3]张雷刚,许波,施娟,陈振乾.微重力条件下FC-72在针肋表面冷凝传热的实验研究.化工学报,2019,70(S1):45-53.
[4]王鑫,陈振乾.梯度润湿表面上液滴定向迁移及合并行为的格子Boltzmann模拟.计算力学学报,2019,36(04):511-519.
2018年:课题组发表2篇EI
[1]蒋淳,陈振乾.水平管外降膜蒸发流动和传热特性数值模拟.化工学报,2018,69(10):4224-4230.
[2]Yi Wang,Zhenqian Chen. Numerical simulation of thermochemical energy storage in kW-scale based on Mg/MgH 2. Energy Procedia,2018,144: 132-142.
2017年:课题组发表10篇EI
[1]李盼盼,陈振乾.超声波强化多孔纤维干燥过程试验研究.工程热物理学报,2017,38(04):876-880.
[2]许波,陈振乾.建材内甲醛散发参数处理方法及实验研究.化工学报,2017,68(S1):43-47.
[3]黄欣鹏,唐超权,施娟,陈振乾.泡沫铝和石蜡复合相变材料的传热特性分析.东南大学学报(自然科学版),2017,47(01):73-78.
[4]Yuchuan Lei,Zhenqian Chen. Numerical Study of Condensation Heat Transfer in Curved Triangle Microchannels. Procedia Engineering,2017,205: 64-70.
[5]Chao Wang,Juan Shi,Zhenqian Chen,Xiang Zha. Study on energy consumption of large public building based on sub-metering technology. Procedia Engineering,2017,205: 3056-3060.
[6]Xueqin Wu,Zhenqian Chen. Performance analysis of a district cooling system based on operation data. Procedia Engineering,2017,205: 3117-3122.
[7]Xi Jia,Juan Shi,Zhenqian Chen. Single bubble rising dynamics in porous media using lattice Boltzmann method. IOP Conference Series: Earth and Environmental Science,2017,94(1).
[8]Hezhi Zhang,Zhenqian Chen. Study on heat transfer performance of energy pile in GSHP system. Procedia Engineering,2017,205: 2393-2400.
[9]李栋,陈振乾,王鑫,赵孝保.冷表面霜晶演化的微观可视化观测.东南大学学报(自然科学版),2017,47(01):79-84.
[10]Hezhi Zhang,Zhenqian Chen. Study on heat transfer performance of energy pile in GSHP system. Procedia Engineering,2017,205: 2393-2400.
2016年:课题组发表2篇EI
[1]许波,陈振乾.高压静电场对纤维素Iβ中甲醛扩散的影响.化工学报,2016,67(S1):57-62.
[2]李盼盼,陈振乾.正方形小通道内的冷凝换热数值模拟.东南大学学报(自然科学版),2016,46(04):763-769.
2015年:课题组发表8篇EI
[1]施娟,陈振乾,马强.多孔泡沫金属内气泡动力学行为的格子波尔兹曼方法模拟.东南大学学报(自然科学版),2015,45(04):734-737.
[2]马强,陈振乾.分形多孔材料双尺度孔隙内气体脱附扩散过程数值模拟.东南大学学报(自然科学版),2015,45(04):728-733.
[3]Xiaozhong Shen,Juan Shi,Zhenqian Chen. Experimental Study on the Formaldehyde Emission under Non-isothermal Conditions. Procedia Engineering,2015,121: 590-595.
[4]Nan Lv,Qing Zhang,Dongsheng Wu,Zhenqian Chen. Surface Water Source Heat Pump Air Conditioning System Simulation and Operation Performance Analysis. Procedia Engineering,2015,121: 1880-1886.
[5]Qiang Ma,Zhenqian Chen,Bo Xu. Numerical Simulation for Gas Diffusion in Fractal Reconstructed Anisotropic Porous Building Materials. Procedia Engineering,2015,121: 240-247.
[6]Zhou Bo,Chen Zhenqian. Experimental Study on Relation between Micro-structure and Macro-performance of Zeolite-based Humidity Control Building Coating. Procedia Engineering,2015,121: 1259-1265.
[7]Qing Zhang,Nan Lv,Shengpeng Chen,Hao Shi,Zhenqian Chen. Study on Operating and Control Strategies for Hybrid Ground Source Heat Pump System. Procedia Engineering,2015,121: 1894-1901.
[8]Bo Xu,Zhenqian Chen,Qiang Ma. Experimental Study of Formaldehyde Diffusion with in Building Materials in Different High-Voltage Electric Field. Procedia Engineering,2015,121: 256-261.
2014年:课题组发表9篇EI
[1]戴晓丽,郑佳宜,陈振乾.掺有定形相变胶囊的储能墙体传热性能数值研究.东南大学学报(自然科学版),2014,44(04):764-768.
[2]戴晓丽,陈振乾,王登云.定形相变材料的有效导热系数.太阳能学报,2014,35(04):664-669.
[3]李栋,陈振乾,施明恒.超声波雾化铝表面液滴的试验研究.工程热物理学报,2014,35(10):2045-2048.
[4]李栋,陈振乾.超声功率对冷壁面冻结液滴脱除效果的影响.东南大学学报(自然科学版),2014,44(04):751-755.
[5]郑佳宜,陈振乾.硅藻土基调湿材料中热湿耦合传递.化工学报,2014,65(09):3357-3365.
[6]Huang, Jun; Chen, Zhenqian. Numerical study of coagulation and sedimentation of indoor suspended particles. Lecture Notes in Electrical Engineering 2014,1: 467-474
[7]Li, Dong; Chen, Zhenqian. Ultrasonic vibration for instantaneously removing frozen water droplets from cold vertical surface. Lecture Notes in Electrical Engineering 2014,2: 807-815
[8]Huang, Jun; Chen, Zhenqian. Numerical study of coagulation and sedimentation of indoor suspended particles. Lecture Notes in Electrical Engineering 2014,1: 467-474
[9]Ma, Qiang; Chen, Zhenqian. Mesoscopic simulation of VOCs' migration in porous building materials with different spatial scale. Lecture Notes in Electrical Engineering 2014,1: 533-540
2013年:课题组发表6篇EI
[1]张岩琛,杲东彦,陈振乾.基于格子Boltzmann方法的孔隙率对泡沫金属内相变材料融化传热的影响.东南大学学报(自然科学版),2013,43(01):94-98.
[2]李栋,陈振乾.超声波瞬间雾化结霜初始阶段液滴的可视化.化工学报,2013,64(11):3910-3916.
[3]李栋,陈振乾.超声波瞬间脱除冷表面冻结液滴的试验研究.化工学报,2013,64(08):2730-2735.
[4]周波,郑佳宜,陈振乾.微波辅助NH_4Cl改性沸石及其在调湿材料中的应用.东南大学学报(自然科学版),2013,43(04):835-839.
[5]郑佳宜,陈振乾.硅藻土基调湿建筑材料的应用仿真模拟.东南大学学报(自然科学版),2013,43(04):840-844.
[5]戴晓丽,王登云,陈振乾,施明恒.球形相变胶囊内凝固传热过程数值模拟.工程热物理学报,2013,34(04):715-719.
[6]戴晓丽,王登云,陈振乾,施明恒.球形相变胶囊内凝固传热过程数值模拟.工程热物理学报,2013,34(04):715-719.
2012年:课题组发表2篇EI
[1]万广通,陈振乾,董卫,王红星,吴仲武,姚丽.平面型热声转换装置的特性分析.东南大学学报(自然科学版),2012,42(02):313-317.
[2]李栋,陈振乾.超声波影响初始霜晶生长的微观可视化研究.应用基础与工程科学学报,2012,20(01):28-35.
2011年:课题组发表3篇EI
[1]Zheng, J. Y.; Luo, L. J.; Chen, Z. Q. Numerical approach of carbon monoxide dispersion in a big enclosed parking lot. 7TH INTERNATIONAL SYMPOSIUM ON HEATING, VENTILATING AND AIR CONDITIONING - PROCEEDINGS OF ISHVAC 2011,2: 411-416
[2]杲东彦,陈振乾.格子Boltzmann方法模拟高Darcy数多孔介质内融化传热过程.化工学报,2011,62(02):321-328.
[3]张素芬,唐超权,陈振乾.自然分层型水蓄冷槽布水器速度场的模拟.重庆大学学报,2011,34(S1):13-16.
2010年:课题组发表5篇EI
[1]DongYan Gao,ZhenQian Chen,MingHeng Shi,ZhiShen Wu. Study on the melting process of phase change materials in metal foams using lattice Boltzmann method. Science China Technological Sciences,2010,53(11): 3079-3087.
[2]Zhenqian Chen,Mingwei Gu,Donghua Peng,Changhai Peng,Zhishen Wu. A Numerical Study on Heat Transfer of High Efficient Solar Flat-Plate Collectors with Energy Storage. Taylor & Francis Group 2010,7(3):326-336
[3]杲东彦,陈振乾,施明恒.格子Boltzmann方法模拟融化相变过程.工程热物理学报,2011,32(01):85-88.
[4]施娟,陈振乾,施明恒.蓄冰球内多孔泡沫金属对流体冻结传热影响的试验研究.工程热物理学报,2010,31(08):1395-1397.
[5]顾明伟,陈振乾,施明恒.泡沫金属内石蜡相变凝固传热的数值模拟.工程热物理学报,2010,31(11):1929-1932.
2009年:课题组发表2篇EI
[1]彭冬华,陈振乾,施明恒.太阳平板集热/储能相变传热的数值模拟.太阳能学报,2009,30(07):911-915.
[2]彭冬华,陈振乾,施明恒.泡沫金属内相变材料融化传热过程的数值模拟.工程热物理学报,2009,30(06):1025-1028.
2008年:课题组发表3篇EI
[1]申小中,陈振乾,施明恒.微通道介电泳颗粒流动中的焦耳热分析.工程热物理学报,2008(03):476-478.
[2]杨秀,陈振乾.蓄冰球中填充泡沫铝的融化相变传热过程的数值模拟.化工学报,2008,59(S2):139-142.
[3]施娟,陈振乾,施明恒,陈宇.肿瘤冻融相变传热过程的数值模拟.工程热物理学报,2008(06):1017-1020.
2007年:课题组发表3篇EI
[1]陈振乾,陈宇,施明恒.生物组织冻结相变过程的数值模拟.东南大学学报(自然科学版),2007(01):74-77.
[2]陈振乾,施明恒.微流动细胞颗粒中介电泳力的分析.工程热物理学报,2007(01):77-79.
[3]杨卫波,施明恒,陈振乾.土壤源热泵夏季运行特性的实验研究.太阳能学报,2007(09):1012-1016.