Course Overview:
The “Thermodynamics in Industrial Applications” course provides a comprehensive understanding of fundamental thermodynamic principles and their practical applications in the industrial sector. The course aims to enhance participants’ abilities to analyze thermal systems and apply thermodynamic concepts to improve efficiency and reduce energy consumption in industrial processes.
Course Objectives:
- Understand the basic principles of thermodynamics and their application in industry.
- Learn the laws of thermodynamics and how to use them in process design and optimization.
- Develop skills in analyzing thermal systems and evaluating performance.
- Solve problems related to energy efficiency and thermal resource management.
- Gain the ability to make technical decisions that improve thermal efficiency and lower operational costs.
Course Content:
- Introduction to Thermodynamics: Basic principles, units, and key concepts.
- Fundamental Laws of Thermodynamics: First, second, and third laws and their industrial applications.
- Thermal Systems and Cycles: Analysis of closed and open systems.
- Energy Analysis and Process Efficiency: Methods for improving efficiency and using renewable energy.
- Practical Applications: Thermodynamics in heat exchanger design, renewable thermal systems, and other industrial applications.
- Advanced Techniques for Thermal Performance Improvement: Strategies for heat recovery and energy reuse.
Target Audience:
This course is designed for engineers, technical supervisors, maintenance professionals, and those working in thermal and energy-related industries, as well as mechanical and chemical engineers who wish to deepen their understanding of thermodynamics in industrial applications.
