Mechanical Power Engineering Program - Energy Engineering ع

Mechanical Power Engineering Program

Departmental standards for special competencies:

A Mechanical Engineering graduate must be able to do the following:

1- Modelling, analyzing, and designing physical systems related to the specialization using thermodynamics, heat transfer, fluid mechanics, solid mechanics, material properties and operation, measurements, devices, theories, and control systems, mechanical design and analysis, dynamics, and vibrations.

B2: Use both old and new computer-based methodologies to design machine parts and mechanical systems.

B3: Choose the mechanical equipment that will provide the desired performance.

B4: Adherence to national and international standards and specifications in the design, construction, operation, testing, and maintenance of mechanical equipment and systems.

A mechanical engineering graduate must be able to do the following:

1: A description of the performance parameters of energy-producing and energy-consuming equipment.

2: Calculating the heating or cooling rates of engineering operations.

3: Understand the primary sources of energy loss in engines, turbines, compressors, and pumps.

4: Examination of the many sources of energy loss in industrial activity.

5: Determine the functional relationships of machine components to control energy output.

6: Select the proper capacity for motors or pumps used in industry or at home.

7: Selecting the best operating conditions for heat and mass transfer equipment to maximize efficiency.

8: Choosing proper dimensions to ensure compatibility between engine and power plant components

9: Simulating the flow field and predicting the thermal structures of mechanical power systems using computational approaches.

10: As mentioned below, demonstrate other competencies relating to the topic of specialization in mechanical power engineering:

1. In the field of power generation, selecting and connecting various systems that supply energy for industrial and home usage.

2: In the subject of energy and sustainability, managing energy supplies and improving energy conversion efficiency.

Process and equipment design analysis, design, integration, and operation of diverse energy subsystems.

4: Customizing the right system to meet the desired function in environmental, service, and system safety. Industrial.

5: Operating and maintaining nuclear power plant thermal and hydraulic systems.

Industrial processes for production and services.

Petrochemicals and power plants.

management of all production and service industries.

infrastructure for aviation, shipping, power generation, and auto

air conditioning and refrigeration.

both environmental protection and safety.

-Scientific Research