目标与范围

Computational Thermal Sciences is an international journal designed to provide a forum for the exposure and exchange of ideas, methods and results in computational heat and mass transfer, thermodynamics and fluid mechanics. Topics covered include but are not limited to: novel computational methods for direct and inverse problems, verification and validation, the laws of thermodynamics, thermal properties of substances, applied mathematical modeling, phase-change, single and multiphase flows, energy storage, biology, medicine, industrial apparatuses, heat engines, thermodynamic cycles, combustion, aerospace, environment, sustainability, thermal management, micro and nanoscale processes and ultra-fast heat transfer.

Papers on all aspects − both fundamental and applied − will be welcome: on the one hand the development of new mathematical methods and computational algorithms, artificial intelligence, machine learning and deep learning, and on the application of new or existing methods to the solution of practical problems in thermal sciences. Reports of experimental studies undertaken in conjunction with computational works are encouraged. In addition, review papers on relevant topics related to the journal scope are invited. The assessment of the accuracy of computational solutions through verification (examining and limiting errors associated with discretization and with the computational solution methods adopted) and validation (quantification of discrepancies between computational and experimental results) are essential parts of any computational study, and authors are expected to examine these aspects. Manuscripts not considering standard solution and code verification procedures, or with simple applications of commercial/freeware codes, will not be accepted.

Correspondence will be welcome on any aspect of the papers published.

Open Access Articles

REMARKS ON THE PHYSICAL BASIS FOR THE CONSTRUCTION OF DIFFUSION FLUX TERMS IN FINITE-VOLUME EQUATIONS Steven B. Beale, M. R. Malin, H. Marschall AN IMPROVED SOLUTION FOR SHIELDING OF THERMAL RADIATION FROM FIRES USING MIST CURTAINS OF PURE WATER OR SEAWATER Leonid A. Dombrovsky, Siaka Dembele 显示所有

即将发表的文章

A Commemorative Volume in Memory of Darrell Pepper David Carrington, Yogesh Jaluria, Akshai Runchal In Memoriam: Professor Darrell W. Pepper – A Tribute to an Exceptional Engineering Educator and Researcher Akshai K. Runchal, David Carrington, SA Sherif, Wilson K. S. Chiu, Jon P. Longtin, Francine Battaglia, Yongxin Tao, Yogesh Jaluria, Michael W. Plesniak, James F. Klausner, Vish Prasad, Alain J. Kassab, John R. Lloyd, Yelena Shafeyeva, Wayne Strasser, Lorenzo Cremaschi, Tom Shih, Tarek Abdel-Salam, Ryoichi S. Amano, Ashwani K. Gupta, Nesrin Ozalp, Ting Wang, Kevin R. Anderson, Suresh Aggarwal, Sumanta Acharya, Farzad Mashayek, Efstathios E. Michaelides, Bhupendra Khandelwal, Xiuling Wang, Shima Hajimirza, Kevin Dowding, Sandip Mazumder, Eduardo Divo, Rod Douglass, Roy E. Hogan, Glen Hansen, Steven Beale, Perumal Nithiarasu, Surya Pratap Vanka, Renato M. Cotta, John A. Reizes, Victoria Timchenko, Ashoke De, Keith A Woodbury, John Tencer, Aaron P. Wemhoff, G.F. ‘Jerry’ Jones, Leitao Chen, Timothy S. Fisher, Sandra K. S. Boetcher, Patrick H. Oosthuizen, Hamidreza Najafi, Brent W. Webb, Satwindar S. Sadhal, Amanie Abdelmessih 显示所有

归档文章

NUMERICAL STUDY ON MIXED CONVECTION IN A POWER-LAW FLUID SATURATED POROUS MEDIUM WITH VARIABLE PROPERTIES AND THERMOPHORESIS EFFECTS VIA LIE SCALING GROUP TRANSFORMATIONS Janapatla Pranitha, G. Venkata Suman, Darbhasayanam Srinivasacharya NUMERICAL SIMULATION OF THREE-DIMENSIONAL CIRCULAR FREE TURBULENT JET FLOW USING DIFFERENT REYNOLDS AVERAGE NAVIER-STOKES TURBULENCE MODELS Nilesh Kumar Sharma, Satish Kumar Dewangan, Pankaj Kumar Gupta 显示所有