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Course No
رقم المساق
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Course Name
اسم المساق
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Credit hours
الساعات المعتمدة
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Course Description
وصف المساق
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| 2039 |
Electrical Machines II Lab |
1 |
This course aims to identify the types of AC and DC electrical machines and how to draw its mechanical properties. Synchronous motors and generators are identified and how its work, and its electrical properties. |
| 2052 |
Power Electronics Lab. |
1 |
Experiments on power transistors, and on the four main converters: rectifiers, inverters, ac voltage controllers, and dc choppers and the industrial applications of these converters.
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| 2064 |
Electronics II Lab |
1 |
Introducing the student to the practical applications of diodes, such as conversion circuits from alternating voltage to continuous voltage and transistor applications related to electronic circuits of amplifiers and oscillators of various types, and qualifying him with mathematical methods for analyzing electronic circuits, especially amplifiers, through the representation of electronic devices Circuit models for different frequencies. |
| 2366 |
Electrical Machines and Transformers |
3 |
This course aims to identify continuous electrical machines (motors and generators), characteristics , methods of speed controlling and external potential difference, identify alternating current machines (motors and generators), practical examples of them, and study electrical transformers used in electrical distribution systems. |
| 2433 |
Power Electronics |
2 |
Introduction to power electronics elements; power diodes, thyristors, triacs, diacs, and power transistors.studying the four main converters: rectifiers, inverters, ac voltage controllers, and dc choppers and the industrial applications of these converters.
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| 3705 |
Introduction in renewable energy |
3 |
This course aims to introduce the student to the types of renewable energy such as wind energy, solar energy, geothermal energy, gas extraction from farm waste, water energy, wave energy, tidal energy, etc., in addition to energy storage techniques . |
| 3706 |
Electrical measurements and sensors |
2 |
The global system of units of measurement, measurement errors, voltage and current transformers, wattmeters, power meters, constant and variable bridges current , the osilloscope and its applications, signal generators, solar radiation measuring devices, internal lighting intensity measuring devices, Devices measuring wind speed and direction. |
| 3707 |
Electrical measurements and sensors lab |
1 |
Familiarizing the student with electrical measurement errors, measuring different electrical quantities (volts, current, resistance, capacity), as well as measuring the power factor and ways to improve it from a practical point of view, measuring the electrical quantity (energy drawn) using electric meters - Measurement of resistances and impedances in direct and alternating bridges current , measurement of indoor lighting intensity, measurement of wind speed and direction, measurements of solar radiation. |
| 3708 |
Occupational safety, health & the environment |
1 |
The course aims to introduce students to the concept of professional ethics, within the framework of realizing legal and ethical responsibilities in professional work, the principles of public safety and the importance of adhering to them. The personal characteristics, capabilities and technical skills that must be available in the employee, the importance of maintaining the confidentiality of private information, how to deal with work pressures and emergencies situation. |
| 3709 |
Photovoltaic systems technology |
3 |
This course aims to introduce the student to the current technology and systems for using solar energy to generate electricity through photovoltaic cells of various types and using the sun to heat water through solar collectors and how to properly design and install these systems, in addition to designing a solar energy system (on grid, off grid). |
| 3710 |
Photovoltaic systems lab |
1 |
This course aims to study the electrical characteristics of the solar cell (drawing the relationship of current and voltage), as well as the effect of shade on the work and efficiency of solar cells, the effect of heat and wind speed on it, examining the power output from it, as well as the method of fixing the metal structures of the cells, then the method of connecting solar cells with inverters, batteries and controllers according to the attached diagram From the company, the laboratory also deals with identifying some malfunctions and the possibility of repairing them, as well as making the appropriate grounding for metal structures, and the method of examining and charging batteries. |
| 3711 |
Electrical protection systems |
2 |
Introducing the student to the dangers of electricity, ways to prevent it, and the use of various preventive systems and means to protect against electric shock. Learn about electrical circuit controls and ways to connect them. |
| 3712 |
Electrical protection systems lab |
1 |
The student conducts various practical experiments that simulate electric shock and means of prevention, and the use of various preventive means such as circuit breakers, electrical isolation, and the use of electrical isolation devices and isolation transformers.
Applications on aggregate current transformers and their principle of operation. Conducting experiments on different grounding systems and identifying the characteristics of each type. Using insulation monitoring devices. Measurement of contact voltage, step voltage and resistance of ground electrons. Measure the resistivity of the soil. Conducting experiments on the connections of electrical circuit control elements for solar energy systems. |
| 3713 |
Low voltage installations |
2 |
This course aims to introduce students to the basics of designing and extending main and sub-variable current circuits in domestic and commercial buildings, calculating loads, lighting, and installing electrical panels, in addition to identifying the basics of extending direct current circuits. |
| 3714 |
Electrical Drawings |
2 |
This course aims to introduce students to simulation programs used in electrical systems, whether in transmission and distribution systems of electric energy or in solar energy systems such as ETAP, PVSYST. |
| 3715 |
High voltage installations |
2 |
Familiarize students with the components of electric power transmission and distribution systems and focus on medium voltage systems with their components and parts. |
| 3716 |
Energy efficiency and auditting |
2 |
Introducing the student to the concept and importance of energy conservation, administrative and educational procedures related to it and raising the efficiency of the use of devices, improving the power factor in transmission and distribution networks, the use and impact of harmonics and the quality of nutrition on the rationalization of energy consumption, the impact of improving the quality of energy on devices and equipment, energy demand management / load management Electricity, technical and commercial electrical losses, its causes and ways to reduce it, rationalization of consumption in lighting (high-efficiency lighting), the use of energy-saving devices, thermal insulation and its impact on rationalization of consumption and rationalization of consumption in air conditioning and refrigeration systems. |
| 3717 |
Electrical grids workshop |
2 |
A practical course aimed at providing students with the knowledge and skills necessary to operate and maintain electrical power distribution systems. And how to distribute electrical energy through power distribution and transmission networks, and how to identify potential problems and fix them in the event of a malfunction in these networks. And how to use the tools and techniques necessary to measure and analyze electrical data, such as ohmmeters, electric generators and electronic regulators, and how to operate the various electrical devices used. |
| 3718 |
Supportive electrical systems |
2 |
Classification of energy, its sources and exploitation. Basic principles for the most important types of batteries used in renewable energy systems. Indications for the use of batteries in solar and wind energy systems. Systems for the direct conversion of energy into electricity (electrical, thermal, photovoltaic, and fuel cells). Designing electrical energy storage systems. Design of backup power systems connected to the network |
| 3719 |
Future trends in sustainable systems |
2 |
the course focuses on analyzing the current electrical systems and their various sustainability challenges, as well as developing the necessary solutions and technologies to achieve sustainability in these systems.The course covers several topics and challenges related to sustainability in electrical systems, including understanding the basic concepts of sustainable development in electrical systems, such as improving energy efficiency and promoting the use of renewable energy.It also addresses the challenges of transitioning to renewable energy in electrical systems, such as the weakness of electrochemical storage and changes in transmission networks.
The course also explores available solutions to achieve sustainability in electrical systems, such as energy storage technologies, load control technologies, and demand management. It studies policies and frameworks that can be used to achieve sustainability in electrical systems, such as government policies to encourage the use of renewable energy and reduce carbon emissions. |
