This course provides a dynamic exploration into the principles governing the transfer of thermal energy in diverse systems. It is designed to equip participants with an in-depth understanding of thermodynamics and its practical applications. By the course's conclusion, participants will have acquired a holistic comprehension of thermodynamic principles, including the definition and relevance of different power plant systems, the exploration of crucial properties influencing energy systems, and the investigation of conservation principles for both closed and open systems. With a focus on work transfer, heat transfer, and the conceptual foundations of the second law of thermodynamics, participants will establish benchmarks for thermodynamic performance, allowing them to set standards for energy systems and processes. This course caters to engineers, technicians, energy professionals, students, system designers, power plant operators, industry professionals in refrigeration and heat pumps, individuals involved in internal combustion engines, as well as energy analysts and planners. Throughout the course, participants will not only gain theoretical insights but also apply their knowledge to solve real-world problems, offering a practical and comprehensive approach to mastering the complexities of thermodynamics. Join us on this educational journey as we delve into the intricacies of energy transfer, from defining systems to exploring advanced performance methods and analysing internal combustion engine mechanics.
At the end of the ‘Overview of Thermodynamics: Transferring Energy from Here to There’ Course, participants will:
- Acquire a comprehensive understanding of thermodynamics principles and their applications in energy transfer.
- Define and distinguish between open and closed thermodynamic systems, understanding their relevance in practical scenarios.
- Explore essential thermodynamic properties crucial for analysing and predicting the behaviour of energy systems.
- Grasp the conservation principles, including energy conservation for closed systems and mass conservation for open systems.
- Investigate the mechanisms and principals involved in work transfer and heat transfer within them.
- Have the conceptual foundations of the second law of thermodynamics and its implications for practical systems.
- Establish benchmarks for thermodynamic performance, setting standards for energy systems and processes.
- Apply acquired knowledge to solve real-world problems, incorporating examples and problem-solving related to power plants.
- Engineers and Technicians: Seeking a comprehensive understanding of thermodynamics principles applicable to various systems, including open and closed systems, heat transfer, and conservation of mass.
- Energy Professionals: Interested in gaining insights into power cycles, efficiency, and waste heat recovery for practical applications in energy production.
- Students: Exploring the fundamentals and advanced concepts of thermodynamics, including ideal gas models, saturation regions, and entropy.
- Mechanical and Thermal System Designers: Wishing to enhance their knowledge of thermodynamic properties and their applications in designing efficient systems.
- Power Plant Operators: Looking to deepen their understanding of Rankine power plants, combined cycles, and methods to improve efficiency in power generation.
- Professionals in Refrigeration and Heat Pump Industries: Seeking insights into cycle analysis, refrigeration, and heat pump cycles to optimize performance.
- Energy Analysts and Planners: Wanting to set performance benchmarks, explore advanced performance methods, and understand the hardware of internal combustion engines for comprehensive energy planning.
Our courses in Kuala Lumpur take place at the following location :
- Ibis Kuala Lumpur City Centre: 132, Jalan Yap Kwan Seng, Kampung Baru, 50450 Kuala Lumpur, Wilayah Persekutuan Kuala Lumpur, Malaysia
Once you register for this course, we will subsequently send the invoice and course information, including location, trainer, and other logistics.
Pay Attention, Please! The course location is subject to availability; the course time will be precise one week before the course start date! We may change the course location if there is no availability, and we will let you know about the location change once it happens.