Advanced Thermodynamics and Heat Transfer in Mechanical Engineering
The course on Advanced Thermodynamics and Heat Transfer in Mechanical …
What you'll learn
Learn about thermodynamic properties of substances, equations of state, and their applications in engineering calculations.
Understand the principles of heat transfer, including conduction, convection, and radiation, and how they apply to different engineering scenarios.
Study heat exchangers and their design for efficient heat transfer in engineering systems.
Explore the concept of mass transfer and its applications in chemical engineering and other fields.
Gain knowledge of advanced heat transfer techniques, such as heat pipes and heat transfer enhancement methods.
Study real-world applications of thermodynamics and heat transfer in various engineering systems, including renewable energy technologies and environmental engineering.
Work on practical projects and case studies to apply advanced thermodynamics and heat transfer principles in mechanical engineering.
Robotics and Automation in Mechanical Engineering
The course on Robotics and Automation in Mechanical Engineering provides …
What you'll learn
Learn about robot kinematics and dynamics, including forward and inverse kinematics, to understand how robots move and interact with their environment.
Understand the principles of robot programming, including both manual programming and computer-aided programming methods.
Study different types of industrial robots and their applications in manufacturing, assembly, and material handling processes.
Explore the concept of robotic vision and perception, including image processing and object recognition, for robot guidance and inspection tasks.
Gain knowledge of robot control systems and the use of feedback control to achieve precise and accurate robot movements.
Renewable Energy Technologies in Mechanical Engineering
The course on Renewable Energy Technologies in Mechanical Engineering provides …
What you'll learn
Gain knowledge of biomass energy conversion processes, such as biofuels production and biogas generation.
Learn about the integration of renewable energy systems into the electrical grid and the challenges associated with their intermittent nature.
Understand the environmental and sustainability aspects of renewable energy technologies and their role in mitigating climate change.
Explore the economic and policy considerations related to the adoption and implementation of renewable energy technologies.
Work on practical projects and case studies to apply renewable energy technologies in mechanical engineering.
