Topics covered include, but are not limited to:

• Turbulence in fluids

• Turbulence in plasmas

• Fluid dynamics

• Plasma physics

Guest Editors

Chunxiao Xu, Tsinghua University

Paul Terry, University of Wisconsin

Topics covered include, but are not limited to:

• Scaling of hydrodynamic cavitation

• Scaling-up acoustic cavitation

• Preventing and dealing with cavitation erosion in applications

• The cause of cavitation erosion

• Utilizing cavitation for liquid processing

• The origin of cavitation and the cavitation nucleus

• Conversion of liquid energy into light and sound emission

• Heat and mass transfer in cavitation

• Utilizing cavitation to amplify pressures

• Cavitation in constrained environments

• Cavitation in elastic solids, tissue and bodily liquids

• Bubble dynamics in plants

• Cavitation and atomization of liquids

• Utilizing cavitation for applications

• Flow physics in performance deterioration of mechanical devices/systems

• Dynamic characteristics and flow instabilities in mechanical devices/systems related to cavitation

• Prediction of cavitation noises

• Advancement of numerical simulation and/or experimental methods to help answer the above questions.

Guest Editors

Boo Cheong Khoo, National University of Singapore

A. Jeffrey Giacomin, Queens University, Canada

Savvas G. Hatzikiriakos, University of British Columbia

Kathleen A. Feigl, Michigan Technological University

Nhan Phan-Thien, National University of Singapore

Building a clean, low-carbon and efficient energy system is the essential basis for sustainable development. Multiphase flow is a basic science to study multiphase fluid flow, heat and mass transfer, combustion, chemical reaction, etc., in which two or more phases, states, and components coexist. Multiphase flow has been encountered in various energy fields, such as fossil energy, renewable energy, and power engineering. This special issue is devoted to report the most up-to-date progress of multiphase flow in energy studies and application for the conference MTCUE-2022.

Topics covered include, but are not limited to:

• Multiphase flows

• Fluid flows

• Fluid flow properties

• Heat transfer

• Mass transfer

• Renewable energy

• Power engineering

Guest Editors

Fei Xu, Ansys Inc, USA

Hui Jin, Xi’an Jiaotong University, China

Qingang Xiong, South China University of Technology, China

Litao Zhu, University of British Columbia, Canada

Topics covered include, but are not limited to:

• Scaling of hydrodynamic cavitation

• Scaling-up acoustic cavitation

• Preventing and dealing with cavitation erosion in applications

• The cause of cavitation erosion

• Utilizing cavitation for liquid processing

• The origin of cavitation and the cavitation nucleus

• Conversion of liquid energy into light and sound emission

• Heat and mass transfer in cavitation

• Utilizing cavitation to amplify pressures

• Cavitation in constrained environments

• Cavitation in elastic solids, tissue and bodily liquids

• Bubble dynamics in plants

• Cavitation and atomization of liquids

• Utilizing cavitation for applications

• Flow physics in performance deterioration of mechanical devices/systems

• Dynamic characteristics and flow instabilities in mechanical devices/systems related to cavitation

• Prediction of cavitation noises

• Advancement of numerical simulation and/or experimental methods to help answer the above questions.

Guest Editors

Boo Cheong Khoo, National University of Singapore

A. Jeffrey Giacomin, Queens University, Canada

Savvas G. Hatzikiriakos, University of British Columbia

Kathleen A. Feigl, Michigan Technological University

Nhan Phan-Thien, National University of Singapore