Computational Fluid Dynamics (CFD) Simulation to Evaluate Heat Exchanger Performance
WHEN
25 OCTOBER 2021
WHERE
MS TEAMS
(Online)
TIME
9.00AM - 5.00PM
RM 620 FOR PROFESSIONALS
10% Discount for Early Bird (until 25 September 2021) / Group / Students
CONTENT SUMMARY
INTRODUCTION
Computational fluid dynamics (CFD) is the science of predicting fluid flow, heat transfer, mass transfer, chemical reactions, and related phenomena by solving the mathematical equations which govern these processes using numerical processes.. The use of CFD in industrial processes has exponentially increased recently driven by the advancement in computational power and the need for quick process design and evaluation. It can be used to evaluate and improve the performance of process equipment without interrupting the equipment operation. The critical issue with application of CFD is the accuracy of the model and the required computational resources. Hence, proper model development is crucial. This course is specifically tailored to help anyone who has little to no knowledge on CFD to venture the use of it for evaluation of heat exchanger performance. Participant will be guided through the basic concept of CFD, how to translate physical phenomena into CFD model, and how to post-process, analyze and present CFD results. A step by step tutorial will be given to help participant on the process. A case studies will be given to represent the real heat exchanger performance evaluation.
OBJECTIVES
Upon completion of this course, participants will be able to:
WHO SHOULD ATTEND?
Dr Jundika Candra Kurnia (UTP)
Dr Jundika has 10 years of research and development experience in the field of heat transfer enhancement and energy system. He has been extensively using computational fluid dynamics in his projects. He is Chartered Engineer with Institution of Mechanical Engineers, Senior Professional Engineer with Institution of Engineers Indonesia and Professional Technologist with Malaysia Board of Technologist.
Computational fluid dynamics (CFD) is the science of predicting fluid flow, heat transfer, mass transfer, chemical reactions, and related phenomena by solving the mathematical equations which govern these processes using numerical processes.. The use of CFD in industrial processes has exponentially increased recently driven by the advancement in computational power and the need for quick process design and evaluation. It can be used to evaluate and improve the performance of process equipment without interrupting the equipment operation. The critical issue with application of CFD is the accuracy of the model and the required computational resources. Hence, proper model development is crucial. This course is specifically tailored to help anyone who has little to no knowledge on CFD to venture the use of it for evaluation of heat exchanger performance. Participant will be guided through the basic concept of CFD, how to translate physical phenomena into CFD model, and how to post-process, analyze and present CFD results. A step by step tutorial will be given to help participant on the process. A case studies will be given to represent the real heat exchanger performance evaluation.
*fee quoted does not include SST, GST/VAT or withholding tax (if applicable)
*fee quoted does not include SST, GST/VAT or withholding tax (if applicable)
Centre for Advanced & Professional Education (CAPE)
Level 16, Menara 2,
Menara Kembar Bank Rakyat,
50470, Jalan Travers,
Kuala Lumpur.
+605 - 368 7558 /
+605 - 368 8485
cape@utp.edu.my