Dr Lixin Cheng PhD, MSc, BEng
Principal Lecturer in Chemical Engineering
Summary
Dr Cheng joined 香蕉视频 in January 2016. He is dedicated to developing the chemical engineering programme and contributing to teaching several core chemical engineering modules. His teaching interest includes Introduction to Transport Phenomena, Advanced Transport processes, Unit Operations and Separation Processes and Design and Commission Group Projects and 香蕉视频 Projects etc. He is very active in developing interdisciplinary research subjects such as multiphase flow and heat transfer, enhanced heat transfer, advanced chemical engineering processes, oil and gas engineering, subsea technology, carbon capture and storage, energy saving and sustainable energy etc.
About
Dr Cheng obtained his PhD in Thermal Energy Engineering at the State Key Laboratory of Multiphase Flow in Power Engineering of Xi'an Jiaotong University, China in 1998. He worked as associate professor in chemical engineering, senior lecturer and course leader in petroleum engineering, lecturer in chemical engineering, scientific collaborator, Alexander von Humboldt Fellow, senior research fellow and post-doctoral researcher at Aarhus University, Denmark, University of Portsmouth, University of Aberdeen, Swiss Federal Institute of Technology in Lausanne (EPFL), Leibniz University of Hanover in Germany London South Bank University and Eindhoven University of Technology in the Netherlands for 16 years since 2000.
He was a lecturer in chemical process machinery at South China University of Technology in 1998-2000. He has been invited to serve the scientific committee of several international conferences, give keynote lectures and lectures worldwide. He is the editor-in-chief of e-book series “Advances in Multiphase Flow and Heat Transfer” by Bentham Science Publishers, SpringerBriefs in “Multiphase Flow” and Book series “Frontiers and Progress in Multiphase Flow” by Springer Verlag in Germany. He is on the editorial board of several international journals. He has extensive research collaboration experience with a number of international universities and industry.
He worked as design engineer in Weihai Pump Factory, China for 4 years. His research covers both experimental and modelling in multiphase flow and heat transfer and relevant interdisciplinary research topics. he has published more than 80 papers, 8 book chapters and edited 8 books. He is reviewer for more than 40 international journals and several book proposals and a number of international conferences.
Specialist areas of interest
Experiments and modelling on gas liquid two-phase flow and heat transfer, heat and mass transfer, multiphase flow dynamics, flow boiling and condensation, transport phenomena in macro- and micro-channels, cooling and heating technology, nanofluid flow and heat transfer, enhanced heat transfer and energy saving, thermal energy system, carbon capture and storage, and oil-gas-water multiphase flow technologies
Teaching
Department of Engineering and Mathematics
College of Business, Technology and Engineering
Chemical Engineering/Industrial Collaborative Engineering (ICE)
Publications
Journal articles
Shang, H., Xia, G., Cheng, L., & Miao, S. (2025). . Applied Thermal Engineering, 258 (Part C).
Wang, S., Xia, G., Cheng, L., & Ma, D. (2025). Flow boiling characteristics in a novel type of sinusoidal wavy microchannels with stepped expansion flow passages. International Journal of Heat and Mass Transfer, 236, 126308.
Wang, K., Zhang, Q., Cheng, L., Yang, J., & Yang, X. (2024). . Applied Thermal Engineering, 255.
Cheng, L., Guo, Z., & Xia, G. (2024). A Review on 香蕉视频 and Technology Development of Green Hydrogen Energy Systems with Thermal Management and Heat Recovery. Heat Transfer Engineering, 45 (4-5), 300-322.
Cheng, L., Xia, G., & Ghajar, A.J. (2024). In Celebration of Professor John Richard Thome on His 70th Birthday. Heat Transfer Engineering, 45 (4-5), 297-299.
Cheng, L., Bai, B., Xia, G., Zhang, H.-.B., & Guo, Z. (2023). IN CELEBRATION OF PROFESSOR JOHN RICHARD THOME ON HIS 70TH BIRTHDAY. Journal of Enhanced Heat Transfer, 30 (4), v-viii.
Cheng, L., Xia, G., & Guo, Z. (2023). PREFACE: ADVANCED THERMAL MANAGEMENT, ENERGY CONVERSION, AND STORAGE TECHNOLOGIES. Journal of Enhanced Heat Transfer, 30 (8), v-vi.
Cheng, L., Bai, B., Zhang, H., & Ghajar, A.J. (2023). . Heat Transfer Engineering.
Cheng, L., & Xia, G. (2023). . Heat Transfer Engineering.
Cheng, L., & Xia, G. (2023). Study of the Effect of the Reduced Pressure on a Mechanistic Heat Transfer Model for Flow Boiling of CO2 in Macroscale and Microscale Tubes. Heat Transfer Engineering, 44 (16-18), 1657-1670.
Cheng, L., & Xia, G. (2023). . Experimental Thermal and Fluid Science, 148.
Cai, B., Xia, G., Cheng, L., & Wang, Z. (2023). . Experimental Thermal and Fluid Science, 142.
Wang, Q., Xu, J., Zhang, C., Hao, B., & Cheng, L. (2023). . Heat Transfer Engineering.
Cheng, L., Wang, K., Xia, G., & Ghajar, A.J. (2023). . Heat Transfer Engineering, 1-3.
Cheng, L., Bai, B., & Ghajar, A.J. (2022). . Heat Transfer Engineering.
Cheng, L., & Xia, G. (2022). . Heat Transfer Engineering.
Cheng, L., Bai, B.-.F., & Guo, Z. (2022). . Heat Transfer 香蕉视频, 53 (8), v-vi.
Cheng, L., Bai, B., & Guo, Z. (2022). . Journal of Enhanced Heat Transfer, 29 (4), v-vi.
Cheng, L., Chai, L., & Guo, Z. (2022). . Heat Transfer 香蕉视频, 53 (18), 1-25.
Ly, Y., Xia, G., Cheng, L., & Ma, D. (2021). . International Journal of Thermal Sciences, 166.
Cheng, L., & Coletti, F. (2021). . Journal of Enhanced Heat Transfer, 28 (5), V-VI.
Cheng, L., Xia, G., & Thome, J. (2021). . Applied Thermal Engineering.
Cheng, L., Xia, G., & Li, Q. (2021). CO2 Evaporation Process Modelling: Fundamentals and Engineering Applications. Heat Transfer Engineering, 1-28.
Bai, B., Zhang, H., Cheng, L., & Ghajar, A.J. (2021). . Heat Transfer Engineering, 1-4.
Cheng, L. (2021). . Heat Transfer Engineering, 43 (8-10).
Guo, Z., Cheng, L., Cao, H., Zhang, H., Huang, X., & Min, J. (2020). HEAT TRANSFER ENHANCEMENT-A BRIEF REVIEW OF LITERATURE IN 2020 AND PROSPECTS. HEAT TRANSFER RESEARCH, 52 (10), 65-92.
Zhang, H.B., Bai, B.F., Cheng, L., & Mameli, M. (2020). . Interfacial Phenomena and Heat Transfer, 8 (2), v.
Lv, Y., Xia, G., Cheng, L., & Ma, D. (2019). . International Communications in Heat and Mass Transfer, 108.
Xia, G., Lv, Y., Cheng, L., Ma, D., & Jia, Y. (2019). . International Journal of Heat and Mass Transfer, 138, 961-984.
Xia, G., Cai, B., Cheng, L., Wang, Z., & Jia, Y. (2018). . Experimental Thermal and Fluid Science, 94, 9-22.
Cheng, L., Xia, G., Li, Q., & Thome, J.R. (2018). . Heat Transfer Engineering, 1-36.
Xia, G., Cheng, Y., Cheng, L., & Li, Y. (2018). . Heat Transfer Engineering, 1-14.
Cheng, L., & Ghajar, A.J. (2018). . Heat Transfer Engineering, 1-2.
Xia, G., Chen, Z., Cheng, L., Ma, D., Zhai, Y., & Yang, Y. (2017). . International Journal of Thermal Sciences, 119, 9-23.
Xia, G., Du, M., Cheng, L., & Wang, W. (2017). . International Journal of Heat and Mass Transfer, 113, 59-69.
Xia, G., Wang, W., Cheng, L., & Ma, D. (2017). . Applied Thermal Engineering, 116, 392-405.
Cheng, L., & Xia, G. (2016). . International Journal of Heat and Mass Transfer, 108 (Part A), 97-127.
Liu, L., & Cheng, L. (2013). Effect of a Polymer Additive on Heat Transfer and Pressure Drop Behaviors of Upward Air鈥揥ater Flow in an Inclined Smooth Circular Tube. Heat Transfer Engineering, 34 (13), 1099-1111.
Cheng, L. (2013). Fundamental Issues of Critical Heat Flux Phenomena During Flow Boiling in Microscale-Channels and Nucleate Pool Boiling in Confined Spaces. Heat Transfer Engineering, 34 (13), 1016-1043.
Cheng, L., & Ghajar, A.J. (2013). In Celebration of Professor John Richard Thome on His 60th Birthday. Heat Transfer Engineering, 34 (13), 1013-1015.
Zhang, X., Liu, L., Cheng, L., Guo, Q., & Zhang, N. (2013). Experimental study on heat transfer and pressure drop characteristics of air鈥搘ater two-phase flow with the effect of polyacrylamide additive in a horizontal circular tube. International Journal of Heat and Mass Transfer, 58 (1-2), 427-440.
Cheng, L., Celata, G.P., Ghajar, A., Jacobi, A.M., Karayiannis, T.G., Meyer, J., ... Zun, I. (2013). Professor John Richard Thome on his 60th birthday. International Journal of Heat and Mass Transfer, 58 (1-2), 1-2.
Cheng, L. (2012). Critical heat flux in microscale channels and confined spaces: A review on experimental studies and prediction methods. Russian Journal of General Chemistry, 82 (12), 2116-2131.
Cheng, L., Ribatski, G., Quib茅n, J.M., & Thome, J.R. (2012). Erratum to 鈥淣ew prediction methods for CO2 evaporation inside tubes: Part I 鈥 A two-phase flow pattern map and a flow pattern based phenomenological model for two-phase flow frictional pressure drops鈥 [Int. J. Heat Mass Transfer 51 (1鈥2) (2008) 111鈥124]. International Journal of Heat and Mass Transfer, 55 (19-20), 5378.
Cheng, L., & Thome, J.R. (2009). Cooling of microprocessors using flow boiling of CO2 in a micro-evaporator: Preliminary analysis and performance comparison. Applied Thermal Engineering, 29 (11-12), 2426-2432.
Quib茅n, J.M., Cheng, L., da Silva Lima, R.J., & Thome, J.R. (2009). Flow boiling in horizontal flattened tubes: Part II 鈥 Flow boiling heat transfer results and model. International Journal of Heat and Mass Transfer, 52 (15-16), 3645-3653.
Quib茅n, J.M., Cheng, L., da Silva Lima, R.J., & Thome, J.R. (2009). Flow boiling in horizontal flattened tubes: Part I 鈥 Two-phase frictional pressure drop results and model. International Journal of Heat and Mass Transfer, 52 (15-16), 3634-3644.
Bandarra Filho, E.P., Cheng, L., & Thome, J.R. (2009). Flow boiling characteristics and flow pattern visualization of refrigerant/lubricant oil mixtures. International Journal of Refrigeration, 32 (2), 185-202.
Cheng, L. (2009). Nanofluid Heat Transfer Technologies. Recent Patents on Engineering, 3 (1), 1-7.
Cheng, L., Ribatski, G., & Thome, J.R. (2008). Analysis of supercritical CO2 cooling in macro- and micro-channels. International Journal of Refrigeration, 31 (8), 1301-1316.
Cheng, L., Ribatski, G., & Thome, J.R. (2008). Two-Phase Flow Patterns and Flow-Pattern Maps: Fundamentals and Applications. Applied Mechanics Reviews, 61 (5).
Cheng, L., Bandarra Filho, E.P., & Thome, J.R. (2008). Nanofluid two-phase flow and thermal physics: a new research frontier of nanotechnology and its challenges. Journal of nanoscience and nanotechnology, 8 (7), 3315-3332.
Thome, J.R., Cheng, L., Ribatski, G., & Vales, L.F. (2008). Flow boiling of ammonia and hydrocarbons: A state-of-the-art review. International Journal of Refrigeration, 31 (4), 603-620.
Cheng, L., Ribatski, G., & Thome, J.R. (2008). New prediction methods for CO2 evaporation inside tubes: Part II鈥擜n updated general flow boiling heat transfer model based on flow patterns. International Journal of Heat and Mass Transfer, 51 (1-2), 125-135.
Cheng, L., Ribatski, G., Moreno Quib茅n, J., & Thome, J.R. (2008). New prediction methods for CO2 evaporation inside tubes: Part I 鈥 A two-phase flow pattern map and a flow pattern based phenomenological model for two-phase flow frictional pressure drops. International Journal of Heat and Mass Transfer, 51 (1-2), 111-124.
Cheng, L., Mewes, D., & Luke, A. (2007). Boiling phenomena with surfactants and polymeric additives: A state-of-the-art review. International Journal of Heat and Mass Transfer, 50 (13-14), 2744-2771.
Cheng, L. (2007). MODELING OF HEAT TRANSFER OF UPWARD ANNULAR FLOW IN VERTICAL TUBES. Chemical Engineering Communications, 194 (7), 975-993.
Cheng, L., & Chen, T. (2007). Study of vapor liquid two-phase frictional pressure drop in a vertical heated spirally internally ribbed tube. Chemical Engineering Science, 62 (3), 783-792.
Cheng, L., Ribatski, G., Wojtan, L., & Thome, J.R. (2007). Erratum to: 鈥淣ew flow boiling heat transfer model and flow pattern map for carbon dioxide evaporating inside horizontal tubes鈥 [Heat Mass Transfer 49 (21鈥22) (2006) 4082鈥4094]. International Journal of Heat and Mass Transfer, 50 (1-2), 391.
Cheng, L.X., & Mewes, D. (2006). Review of two-phase flow and flow boiling of mixtures in small and mini channels. INTERNATIONAL JOURNAL OF MULTIPHASE FLOW, 32 (2), 183-207.
Cheng, L., Ribatski, G., Wojtan, L., & Thome, J.R. (2006). New flow boiling heat transfer model and flow pattern map for carbon dioxide evaporating inside horizontal tubes. International Journal of Heat and Mass Transfer, 49 (21-22), 4082-4094.
Cheng, L., & Chen, T. (2006). Enhanced Heat Transfer Characteristics of Upward Flow Boiling of Kerosene in a Vertical Spirally Internally Ribbed Tube. Chemical Engineering & Technology, 29 (10), 1233-1241.
Cheng, L., & Chen, T. (2006). Study of Single Phase Flow Heat Transfer and Friction Pressure Drop in a Spiral Internally Ribbed Tube. Chemical Engineering & Technology, 29 (5), 588-595.
Cheng, L., & Shi, F. (2006). 香蕉视频 on synthesis algorithm of delay statements in VHDL. Jisuanji Gongcheng/Computer Engineering, 32 (4).
Cheng, L., & Mewes, D. (2006). Review of two-phase flow and flow boiling of mixtures in small and mini channels. International Journal of Multiphase Flow, 32 (2), 183-207.
Cheng, L.X., Shi, F., & Zhang, X.N. (2005). Study on the design methodology and test scheme of VHDL compiler MTC. Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology, 25 (12), 1043-1046.
Cheng, L.X., Shi, F., & Kamran, M. (2005). Functional unit allocation algorithm by importing mutex relationship. Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology, 25 (10), 885-889.
Cheng, L.X., & Shi, F. (2005). Study on scheduling algorithms constrained by behavioral delay. Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology, 25 (8), 692-696.
CHENG, L., & GELD, C.W.M.V.D. (2005). Experimental Study of Heat Transfer and Pressure Drop Characteristics of Air/Water and Air-Steam/Water Heat Exchange in a Polymer Compact Heat Exchanger. Heat Transfer Engineering, 26 (2), 18-27.
Cheng, L.X., & Shi, F. (2005). Study on the synthesis algorithm supporting AFTER clauses. Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology, 25 (2), 116-120.
Cheng, L., Van Der Geld, C.W.M., & Lexmond, A.S. (2004). Study and visualization of droplet entrainment from a polymer plate heat exchanger. International Journal of Heat Exchangers, 5 (2), 359-378.
Davies, C. (2004). Preface. Renaissance Studies, 18 (1).
Cheng, L., & Xia, G. (2002). Experimental study of CHF in a vertical spirally internally ribbed tube under the condition of high pressures. International Journal of Thermal Sciences, 41 (4), 396-400.
Cheng, L., & Chen, T. (2001). Flow boiling heat transfer in a vertical spirally internally ribbed tube. Heat and Mass Transfer, 37 (2-3), 229-236.
Chen, L.C.T. (2001). STUDY OF FLOW BOILING HEAT TRANSFER IN A TUBE WITH AXIAL MICROGROOVES. Experimental Heat Transfer, 14 (1), 59-73.
Cheng, L., & Chen, T. (2000). Prediction model of annular flow heat transfer coefficient when consider liquid drop entrainment. Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics, 21 (3).
Chen, L.C.T. (2000). Comparison of Six Typical Correlations for Upward Flow Boiling Heat Transfer with Kerosene in a Vertical Smooth Tube. Heat Transfer Engineering, 21 (5), 27-34.
Cheng, L., & Chen, T. (2000). Characteristics of enhancement of flow boiling heat transfer with kerosene inside internally ribbed tube. Huagong Xuebao/Journal of Chemical Industry and Engineering (China), 51 (1), 52-56.
Cheng, L., Chen, T., & Luo, Y. (1997). Flow boiling heat transfer of kerosene inside ribbed tube. American Society of Mechanical Engineers, Heat Transfer Division, (Publication) HTD, 351, 235-239.
Yang, J., & Cheng, L. (1997). Study on thermo-conductive plastic finned tube radiators. Journal of Thermal Science, 6 (1), 21-26.
Yang, J., & Cheng, L. (1996). Study on dropwise condensation heat transfer on composite electroplating surface. Huaxue Gongcheng/Chemical Engineering, 24 (4), 38-41.
Xu, J., Bai, B., Zhou, J., Zhang, H., Cheng, L., & Ghajar, A.J. (n.d.). Selected Papers from the 4th International Symposium on Thermal-Fluid Dynamics (ISTFD 2023). Heat Transfer Engineering, 1-3.
Cheng, L., Xia, G., Wang, K., & Ghajar, A.J. (n.d.). Advances in Thermal-Fluid Science and Technology. Heat Transfer Engineering, 1-2.
Conference papers
Cheng, L., & Liu, L. (2013). Boiling and two-phase flow phenomena of refrigerant-based nanofluids: Fundamentals, applications and challenges. International Journal of Refrigeration, 36 (2), 421-446.
Zhou, Z., Calvert, C.C., Rainforth, W.M., Luo, Q., Cheng, L., & Hovsepian, P. (2006). . Journal of Physics: Conference Series, 26 (1), 95-98.
Cheng, L., & Chen, T. (1999). Augmented performance of flow boiling heat transfer in a tube with axial micro-grooves and its augmentation mechanisms. American Society of Mechanical Engineers, Heat Transfer Division, (Publication) HTD, 364-2, 335-342.
Cheng, L., & Chen, T. (1999). Performance of single-phase turbulent flow heat transfer and frictional pressure drop in an internally ribbed tube. Proceedings of the 1st International Conference on Engineering Thermophysics (ICET '99), 469-476.
Cheng, L., & Chen, T. (1999). Augmented Performance of Flow Boiling Heat Transfer in a Tube With Axial Micro-Grooves and its Augmentation Mechanisms. Heat Transfer: Volume 2, 335-342.
Cheng, L., & Chen, T. (1998). Heat transfer and flow friction characteristics of a compact plate-type condenser. American Society of Mechanical Engineers, Heat Transfer Division, (Publication) HTD, 361-3, 489-496.
Cheng, L., & Chen, T. (1998). Evaluation of several typical correlations for upward flow boiling heat transfer of kerosene in smooth tube. American Society of Mechanical Engineers, Heat Transfer Division, (Publication) HTD, 361-1, 149-155.
Cheng, L., & Chen, T. (1998). Evaluation of Several Typical Correlations for Upward Flow Boiling Heat Transfer of Kerosene in Smooth Tube. Heat Transfer: Volume 1 鈥 Heat Transfer in Flowing Systems, 149-155.
Cheng, L., & Chen, T. (1998). Heat Transfer and Flow Friction Characteristics of a Compact Plate-Type Condenser. Heat Transfer: Volume 3 鈥 Application of Heat Transfer in Equipment, Systems, and Education, 489-496.
Cheng, L., Chen, T., Luo, Y., & Wo, K. (1997). Study of upward flow boiling heat transfer in vertical tubes. Proceedings of the International Symposium on Multiphase Flow, ISMF, 63-67.
Cheng, L., Chen, T., & Luo, Y. (1997). Flow Boiling Heat Transfer of Kerosene Inside Ribbed Tube. Heat Transfer: Volume 1, 235-241.
Book chapters
Cheng, L., Xia, G., & Li, Q. (2023). CO2 Evaporation Process Modeling and Evaporator Design. In Lecture Notes in Energy. (pp. 119-183). Springer International Publishing:
Cheng, L., Xia, G., & Thome, J.R. (2018). . In Thome, J.R. (Ed.) Encyclopedia of Two-Phase Heat Transfer and Flow IV : Modeling Methodologies, Boiling of CO鈧, and Micro-Two-Phase Cooling. (pp. 167-235). World Scientific:
Cheng, L. (2016). Flow Boiling Heat Transfer with Models in Microchannels. In Microchannel Phase Change Transport Phenomena. (pp. 141-191). Elsevier:
Cheng, L. (2016). Flow Patterns and Bubble Growth in Microchannels. In Microchannel Phase Change Transport Phenomena. (pp. 91-140). Elsevier:
Cheng, L. (2016). Flow boiling heat transfer and critical heat flux phenomena of nanofluids in microscale channels. In Development of 香蕉视频 in Microscale and Nanoscale Thermal and Fluid Sciences. (pp. 175-190).
Cheng, L. (2016). Evaluation of correlations for supercritical CO2 cooling convective heat transfer and pressure drop in macro- and micro-scale tubes. In Development of 香蕉视频 in Microscale and Nanoscale Thermal and Fluid Sciences. (pp. 93-106).
Liu, L., & Cheng, L. (2016). Effect of a polymeric additive on non-boiling heat transfer and pressure drop of upward gas-liquid two phase flow in a vertical smooth tube. In Development of 香蕉视频 in Microscale and Nanoscale Thermal and Fluid Sciences. (pp. 209-232).
(2015). 鈼 Modeling Convection in Nanofluids: From Clear Fluids to Porous Media. In Heat Transfer Enhancement with Nanofluids. (pp. 339-354). CRC Press:
Cheng, L. (2014). Boiling heat transfer and critical heat flux phenomena of nanofluids. In Nanoscale Flow: Advances, Modeling, and Applications. (pp. 1-30).
Cheng, L. (2013). Microscale and nanoscale thermal and fluid transport phenomena: Rapidly developing research fields. In Fluid Transport: Theory, Dynamics and Applications. (pp. 237-240).
Cheng, L., Liu, L., & Mewes, D. (2012). Drag Reduction with Surfactants and Polymeric Additives in Multiphase Flow. In Advances in Multiphase Flow and Heat Transfer. (pp. 149-174). BENTHAM SCIENCE PUBLISHERS:
Cheng, L., & Mewes, D. (2012). Preface. In Advances in Multiphase Flow and Heat Transfer (Volume 3). (pp. i-iv). BENTHAM SCIENCE PUBLISHERS:
Cheng, L., & Zou, H. (2012). Evaluation of flow boiling heat transfer correlations with experimental data of R134a, R22, R410a and R245fa in microscale channels. In Frontier 香蕉视频 in Microscale and Nanoscale Thermal and Fluid Sciences. (pp. 363-380).
Cheng, L. (2012). Microscale and nanoscale thermal and fluid transport phenomena: Rapidly developing research fields. In Frontier 香蕉视频 in Microscale and Nanoscale Thermal and Fluid Sciences. (pp. 1-3).
Cheng, L. (2011). Microscale and nanoscale thermal and fluid transport phenomena: Rapidly developing research fields. In Fluid Transport: Theory, Dynamics and Applications. (pp. 237-240).
Cheng, L. (2009). Single-phase incompressible fluid flow in mini- and micro-channels. In Fluid Mechanics and Pipe Flow: Turbulence, Simulation and Dynamics. (pp. 343-363).
Cheng, L., & Thome, J.R. (2009). Two phase flow and heat transfer of sub- and super-critical CO2 in macro- and micro-channels. In Multiphase Flow 香蕉视频. (pp. 543-620).
Books
Cheng, L. (2016). Development of research in microscale and nanoscale thermal and fluid sciences.
Cheng, L. (2016). Preface.
Cheng, L. (2016). Preface.
Cheng, L. (2015). Preface.
Cheng, L. (2015). Progress in Microscale and Nanoscale Thermal and Fluid Sciences.
Cheng, L., & Mewes, D. (Eds.). (2012). Advances in Multiphase Flow and Heat Transfer (Volume 3). BENTHAM SCIENCE PUBLISHERS.
Cheng, L., & Mewes, D. (Eds.). (2012). Advances in Multiphase Flow and Heat Transfer (Volume 1). BENTHAM SCIENCE PUBLISHERS.
Cheng, L., & Mewes, D. (Eds.). (2012). Advances in Multiphase Flow and Heat Transfer (Volume 2). BENTHAM SCIENCE PUBLISHERS.
Cheng, L., & Mewes, D. (2012). Preface. BENTHAM SCIENCE PUBLISHERS.
Cheng, L. (2012). Frontier research in microscale and nanoscale thermal and fluid sciences.
Cheng, L. (2012). Preface.
Cheng, L., & Mewes, D. (2012). Preface.
Cheng, L., & Mewes, D. (2012). Preface.
Cheng, L., & Mewes, D. (2009). Preface. BENTHAM SCIENCE PUBLISHERS.
Other activities
Founder and Editor-in-Chief, International Journal of Microscale and Nanoscale Thermal & Fluid Transport Phenomena (2010-2014)
Member of the Editorial Advisory Board of The Open Thermodynamics Journal
Member of the Editorial Board of Journal of Petroleum Engineering
Guest Editor of the Special Issue of Heat Transfer Engineering in 2013
Member of the Editorial Board (Review editor) of Frontier in Bioenergy and Biofuel
Member of the Editorial Board of The Scientific World Journal
Member of the Editorial Board of Engineering Science Letters