Event Details
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As part of energy conservation, heat recovery and reuse are common practices in the industrial sector. The heat recovery needs to be carried out after a thorough analysis of the waste heat streams. For carrying out or getting involved with such waste heat recovery analysis, a good understanding of the fundamental concepts of heat transfer is very important. Therefore, it is very much imperative to review and refresh the heat transfer concepts in a practical engineering perspective. This two-day course aims to help the industrial professionals to achieve a review of the important heat transfer concepts that will help to sharpen their analytical skill for their day-to-day engineering practice.
Upon completion of this course, the participants should be able to develop good understanding of:
(i) Basic heat transfer concepts
(ii) Heat exchanger analysis
(iii) Commonly used heat exchangers in industrial sectors
(iv) Factors affecting the selection of the industrial heat recovery devices
(v) Energy savings and economic analysis of heat transfer applications
Course Syllabus
- Three Modes of heat transfer
- Conduction heat transfer
- Fourier's law of thermal conduction
- Convection heat transfer
- Newtons law of cooling
- Radiation heat transfer
- Stefan Boltzmann equation for radiation heat transfer
- Thermal resistance
- Convective heat transfer coefficient
- Overall heat transfer coefficient for plane composite walls
- Heat transfer in cylindrical coordinates
- Overall heat transfer coefficient for pipes and tubes
- Dimensionless Numbers
- Waste heat recovery concept
- Commonly used waste heat recovery devices in the industry
- Heat exchangers
- Types of heat exchangers
- LMTD method for heat exchanger analysis
- NTU – Effectiveness method for heat exchanger analysis
- Fouling of heat exchangers