Handbook of Multiphase Flow Science and Technology, 1st ed. 2023

Fundamental Theory of Multiphase Flows.- Basic Theory and Conceptual Framework of Multiphase Flows.- Turbulence in Multiphase Flows.- Review of Subcooled Boiling Flow Models.- -Multiphase Flow Measurements using PIV and LIF.- Theoretical/Computational Multiphase Flows.- -Recent Advances in Modelling Gas-Liquid Flows.- Euler-Euler-Modelling of Poly-dispersed Bubbly Flows.- Euler-Euler-Modelling of Segregated Flows and Flows with Transitions Between Different Flow Morphologies.- Recent Advances in Modelling Subcooled Boiling Flows.- Computational Simulations of Microbubbles.- Recent Advances in Modelling Gas-Particle Flows.- Numerical Modelling of Pulverised Coal Combustion.- Challenges in Modelling Sprays in Internal Combustion Engine.- Recent Advances in DEM Modelling.- Experimental Multiphase Flows.- Flooding Phenomenon of Cyrogenic Liquids.- Cavitating Flow of Cyrogenic Fluids.- Imaging Measuring Techniques.- TOPFLOW-Experiments in Vertical Pipes.- Applications of Multiphase Flows.- Multiphase Flows in Biomedical Applications.- Flow Boiling Enhancement via Cross-Sectional Expansion.- Slug Flow Heat Transfer in Microchannels.- Nanoparticle/Liquid Flow Applications.- Multiphase Flows in Pharmaceutical Applications.

Dr Guan Heng received his Ph.D. in 1993 from UNSW Sydney. He is a renowned expert in multiphase flows and has published a book titled Computational Techniques for Multi-Phase Flows: Basics and Applications, which has been widely read and cited extensively. He has also published other notable works including the highly cited book titled Computational Fluid Dynamics: A Practical Approach. In recognition of his pioneering development and application of innovative computational models across a diverse range of engineering fields, he is currently the Directors of two major centres in Australia fire safety engineering landscape: Australian Research Council Training Centre for Fire Retardant Materials and Safety Technologies and Australian Research Council Research Hub for Fire Resilience Infrastructure, Assets and Safety Advancements. He manages significant industry focused fire research projects including the development of carbon materials, green and durable polymer composites, next generation fire suppression technologies, rapid responsive sensors and early detection systems, and new flammability tests for compliance with fire safety regulatory standards. He has received two significant awards: Brennan Medal for the best book publication from the Institute of Chemical Engineers (IChemE) Award in 2009 and NASA Award on novel research work in solidification in microgravity environment in 1992.