•  info@phi.edu.eg
  •   388784 09-10-11
  •   Fardos City (Gate 1) - 6 October - Giza.

Electrical Power Engineering And Control



Department Intro

Vision

The Electrical power and control engineering department hopes to be able to introduce a featured academic program which can compete locally and internationally and keep up with the latest progress and utilization of modern technology in the field of electrical power and control engineering.

Mission

The electrical power and control engineering program commits to graduate scientifically and technically featured engineers who are qualified with leadership and innovation skills to keep up with the industrial modern technology and face the challenges relevant to electrical power engineering provided with knowledge and continuous learning to be able to continue post graduate programs. Also the program commits to the continuous development of electrical power and control specializations according to the TQM standards.

Objectives of electrical power and control department

The program aims at graduating an engineer who is able to deal with advanced engineering applications through multidisciplinary knowledge and sciences in the electrical power and control department.
Graduating an engineer who can deal with technical problems professionally and write algorithms to achieve optimal solutions within minimum time duration, and then analyze the reasons of the problem in order to avoid its reoccurrence.
The objectives will agree with the National Academic Reference Standards (NARS), these objectives state that the graduate will be able to:
- Apply mathematical, scientific and engineering knowledge and concepts to solve engineering problems.
- Design a system/an element/or a process to meet specific requirements within realistic constraints
- Design and conduct experiments, also analyze and interpret data
- Identify, formulate and solve Basicengineering problems
- Use techniques, skills and appropriate engineering tools necessary for engineering practice to manage engineering projects
- Work effectively within a multidisciplinary team.
- Communicate effectively
- Consider the impact of engineering solutions on society and environment
- Be aware of contemporary engineering topics
- Know the professional and ethical responsibilities.
- Practice lifelong self learning
- Optimal design of generation, transmission, control and utilization of power systems
- Design and develop huge motors, generators, transmission lines and distribution networks
- Plan and manage engineering activities during the stages of generation, transmission and control of electrical power
- Prepare and review simple schematic diagrams, data and specifications of power systems (generation, distribution and control)
- Review the design and check the power generation and power distribution systems
- Review supplier specifications and decide its compatibility with the standard specifications
- Collect data and perform load forecasting
- Design low voltage power systems

Learning Outcomes

Knowledge

With the successful completion of the study in the electrical engineering program, the student acquires knowledge and concepts in:
1- Mathematical and scientific knowledge, concepts and theories appropriate for specialization
2- The foundations of information and communication technology.
3- Characteristics of engineering materials related to the field of electrical engineering.
4- The foundations of linking electrical circuits, laws and systems related to the electricity system.
5- Methodologies for solving engineering problems and collecting and interpreting information.
6- Quality assurance systems, codes and standards for electrical practices, health and safety requirements, and environmental issues.
7- Business administration and principles related to electrical engineering
8- Current electrical engineering techniques
9- Humanitarian and ethical issues.
10- Technical English Language and Report Writing.
11- Ethics of professional practice and the impact of electrical engineering solutions on society, environment and industry.
12- Contemporary Issues in Electrical Engineering.
13- Basics of electrical principles, preparing and providing electrical solutions in a variety of contexts, And scales, and various degrees of difficulty.
14- Principles of electricity technology, electrical and electronic circuits, and electrical installations in buildings and industry.
15- Basics of controlling and linking industrial systems, operating costs, and preparing specifications for electrical equipment.
16- Theories and legislations governing electric energy.
17- Industrial control processes and systems and their importance in modern technology, in line with the increasing progress in this field.
18- The importance of rationalizing electrical energy and searching for alternative means of new and renewable energy.
19- Principles and theories of electrical circuits and related fields.
20- Simulation of electrical power systems and computer aided design.
21- The role of the electrical engineering profession in relation to industry requirements such as production, transmission, distribution and control

Mental skills

With the successful completion of the study in the electrical engineering program, the student will be able to:
1- Choose the appropriate mathematics and computational methods for modeling and analyzing problems.
2- Choose the appropriate solutions to engineering problems based on analytical thinking.
3- Think creatively and creatively to solve industrial problems.
4- Collect, exchange and evaluate different ideas, opinions and knowledge from a range of sources.
5- Evaluate the characteristics and performance of systems, components, and processes.
6- It investigates the failure of components, systems and processes.
7- It solves engineering problems on the basis of limited and possibly contradictory information.
8- Selects and evaluates appropriate ICT tools for a variety of engineering problems.
9 - Judges engineering decisions taking into consideration balanced costs, advantages, safety considerations, quality and environmental impact considerations.
10- Ensures the economic, social, environmental and risk management dimensions in the industry
11- Analyze the results from numerical models and evaluate their limits.
12- It sets an organized and structured approach to dealing with new and advanced technology.
13- Defining and describing (the engineering problem to control solving the electrical problems and machines).
14. Analyze design problems, translate numerical data, and select and check components, equipment, power systems and machines.
15- Assembling electrical, electronic and mechanical components with power transformers, actuators and controllers using computer systems.
16- Performance analysis for generation, control and distribution of electrical power systems.

Professional and practical skills

With the successful completion of the study in the electrical engineering program, the student will be able to:
1- Apply knowledge of mathematics, science, information technology, and electrolysis in the context of engineering practice and engineering problem solving.
2- It integrates engineering knowledge and gives suggestions to improve the efficiency and performance of the electric power system.
3- Create, develop and create an element or system, and implement specialized engineering designs.
4- uses computers and various technologies, measurement tools, workshops and tested equipment to design experiments, collect, analyze and interpret results.
5- Uses a wide range of analytical tools, techniques, equipment, related software packages and required software development.
6- applies numerical modeling methods to engineering problems.
7- implements safety systems at work and monitors appropriate steps for managing risks.
8- practices basic skills for organizing and project management.
9- It applies quality assurance procedures and follows the rules and standards.
10- Shares knowledge and skills with the engineering and industrial community.
11- Prepares and displays technical reports.
12- Produces and displays projects in the electric power system using an appropriate set of media and software.
13- It produces executive circuits in various fields of electric power, from industrial equipment, devices and systems using computers.
14- Design and conduct experiments, as well as analyze and improve the follow-up of experiments related to electrical power and machine systems.
15- Testing and inspection of components, equipment, power systems and machines.
16- Assembling electrical, electronic and mechanical components with power transformers, actuators and controllers using computer systems.
17- Characterization and division of manufacturing components and equipment related to electrical power systems and machines.
18- Classification of modern technologies, engineering skills and tools in the field of electric power systems and machines.

General Skills

With the successful completion of the study in the electrical engineering program, the student will be able to:
1- Collaborate effectively within a multidisciplinary team.
2- It works in a stressful environment and within restrictions.
3- It communicates effectively.
4- Show efficiency in information technology capabilities
5- Leads and motivates individuals.
6- Effectively manages tasks, time and resources.
7- Looking for information and practicing self-learning for life.
8- Acquire entrepreneurial skills
9- Refer to the relevant literature

Academic Courses List For Credit Hours System

Credit Hours Courses List

Level Four
# Code Course Term Lecture exercises Contact hours Units Class Work Practical Exam
1 ELP 310 Power Electronics 1 2 3 5 3 30 10 60
2 ELP 311 Automatic Control Systems (1) 1 2 3 5 3 30 10 60
3 ELP313 Electrical Machines (2 ) 1 2 3 5 3 30 10 60
4 ELP 314 High Voltage Engineering 1 2 1 3 2 30 10 60
5 ELP 315 Project Management 1 2 0 2 2 40 0 60
6 ELP 330 Electrical Power Quality 1 3 40 0 60
7 ELP 331 High Voltage Technology 1 3 30 10 60
8 ELP 320 Industrial Control Systems 2 2 1 3 2 30 10 60
9 ELP 321 Renewable Energy 2 2 2 4 3 40 0 60
10 ELP 322 Electric Power Systems 2 2 1 3 2 30 10 60
11 ELP 323 Linear Systems and Control ( 2 ) 2 2 3 5 3 30 10 60
12 ELP 325 Standard Specifications 2 2 1 3 2 40 10 60
13 ELP 332 Advanced Power Electronics 2 3 30 10 60
14 ELP 333 Digital Protection 2 3 30 10 60
15 ELP 334 Power Systems Control 2 3 40 0 60
16 ELP 335 Electric Dirve Systems 2 3 30 10 60
17 ELP 336 Electrical Machines ( 3 ) 2 3 30 10 60

Level Five
# Code Course Term Lecture exercises Contact hours Units Class Work Practical Exam
1 ELP 410 Power system Analysis 1 2 3 5 3 40 0 60
2 ELP 411 Protection Systems and Switchgear 1 2 3 5 3 30 10 60
3 ELP 412 Digital Control Systems 1 2 3 5 3 30 10 60
4 ELP 413 Electric Drives 1 2 1 3 2 30 10 60
5 ELP 414 Graduation Project* 1 0 4 4 2 0 0 100
6 ELP 440 Power Systems Reliability 1 3 30 10 60
7 ELP 441 Automated Industrial Systems 1 3 30 10 60
8 ELP 442 Microprocessor And PlC 1 3 30 10 60
9 3* Military education 2 0 30 10 60
10 HUM 425 Presentation Skills 2 2 1 3 2 40 0 60
11 ELP 414 Graduation Project* 2 0 4 4 2 0 0 100
12 ELP 420 Computer Basee Control 2 2 3 5 3 30 10 60
13 ELP 421 Electric Energy Utilization 2 2 3 5 3 40 10 60
14 ELP 422 Computer Applications in Power Systems 2 2 3 5 3 30 10 60
15 ELP 443 Control Application In Power Systems 2 3 30 10 60
16 ELP 444 Power Systems Plainning 2 3 40 0 60
17 ELP 445 Modern Control Systems 2 3 30 10 60
18 ELP 446 Special Electrical Machines 2 3 30 10 60

Academic Courses For Terms

Courses List

Prepration Year
# Code Course Term Class Work Practical Editorial Degree م ت ع/ش مج exam Duration optional
1 BAS 011 Mathematics (1) 1 50 0 75 125 2 2 - 4 3 لا
2 BAS 012 Physics (1) 1 50 20 80 150 2 1 2 5 3 لا
3 BAS 013 Mechanics (1) 1 50 0 75 125 2 1 1 4 3 لا
4 BAS 014 Industrial Chemistry 1 40 10 75 125 2 1 1 4 3 لا
5 HUM 016 Technical English 1 20 0 30 50 2 - - 2 2 لا
6 HUM 017 History of Engineering & Technology 1 20 0 30 50 2 - - 2 2 لا
7 MCH 015 Engineering Drawing & Projection (1) 1 60 0 65 125 1 3 - 4 3 لا
8 BAS 021 Mathematics (2) 2 50 0 75 125 2 2 - 4 3 لا
9 BAS 023 Mechanics (2) 2 50 0 75 125 2 1 1 4 3 لا
10 BAS 022 Physics (2) 2 50 20 80 150 2 1 2 5 3 لا
11 CMP 024 Fundamentals of Programming 2 50 0 50 100 2 - 2 4 3 لا
12 MCH 025 Engineering Drawing & Projection (2) 2 60 0 65 125 1 3 - 4 3 لا
13 MCH 026 Production Technology & Workshop 2 50 25 50 125 2 1 2 5 3 لا

Level One
# Code Course Term Class Work Practical Editorial Degree م ت ع/ش مج exam Duration optional
1 ELC 115 Advanced programming (1) 1 30 20 75 125 2 - 2 4 3 لا
2 BAS 111 Mathematics( 3) 1 50 0 75 125 2 2 - 4 3 لا
3 BAS 112 Physics( 3) 1 40 10 75 125 2 2 1 5 3 لا
4 ELP 113 Electrical Circuits (1) 1 40 20 90 150 2 2 1 5 3 لا
5 ELP 114 Electromagnetic fields 1 40 10 75 125 2 2 1 5 3 لا
6 MCH 116 Engineering Materials 1 30 10 60 100 2 2 1 5 3 لا
7 ELC 123 Electronics(1) 2 40 10 75 125 2 2 1 5 3 لا
8 BAS 121 Mathematics (4) 2 50 0 75 125 2 2 - 4 3 لا
9 ELC 124 Logic Circuits 2 40 10 75 125 2 2 1 5 3 لا
10 ELP 121 Electrical circuits (2) 2 40 20 90 150 2 2 1 5 3 لا
11 ELP 125 Electrical measurements (1) 2 40 10 75 125 2 2 1 5 3 لا
12 MCH 126 Thermodynamics& Fluids 2 30 10 60 100 2 1 1 4 2 لا

Level Two
# Code Course Term Class Work Practical Editorial Degree م ت ع/ش مج exam Duration optional
1 BAS 211 Mathematics (5) 1 50 0 75 125 2 2 - 4 3 لا
2 ELC 213 Electronics (2) 1 40 10 75 125 2 2 1 5 3 لا
3 ELC 216 Microprocessor and microcontrollers 1 40 10 75 125 2 2 1 5 3 لا
4 ELP 212 Energy conversion 1 40 10 75 125 2 1 1 4 2 لا
5 ELP 214 Electric Circuit Analysis 1 30 10 60 100 2 2 - 4 2 لا
6 ELP 215 Electric Power Engineering 1 40 20 90 150 2 2 1 5 3 لا
7 3 Training(1) 2 25 25 0 50 لا
8 ELC 222 Advanced Programming (2) 2 30 20 75 125 2 - 2 4 3 لا
9 ELC 224 Signal Analysis 2 30 10 60 100 2 2 - 4 2 لا
10 HUM 226 Engineering Standards &Safety 2 30 10 60 100 2 1 1 4 2 لا
11 ELP 221 Electric machines( 1) 2 40 20 90 150 2 2 1 5 3 لا
12 ELP 222 Electrical measurements (2) 2 40 10 75 125 2 2 1 5 3 لا
13 ELP 223 Electrical technology 2 30 10 60 100 2 2 1 5 2 لا

الفرقة الثالثة
# Code Course Term Class Work Practical Editorial Degree م ت ع/ش مج exam Duration optional
1 ELC317 Electrical Communications 1 30 10 60 100 نعم
2 HUM 315 Technical Writing &Communication Skills 1 30 10 60 100 2 1 1 4 2 لا
3 ELP 311 Electrical machines(2) 1 40 20 90 150 2 2 1 5 3 لا
4 ELP 312 High voltage Engineering 1 40 20 90 150 2 2 1 5 3 لا
5 ELP 313 Power electronics 1 40 10 75 125 2 2 1 5 3 لا
6 ELP 314 Automatic control Systems (1) 1 40 10 75 125 2 2 1 5 3 لا
7 ELP 315 Electrical power quality 1 30 10 60 100 نعم
8 ELP 316 Power systems reliability 1 30 10 60 100 نعم
9 33 Training(2) 2 25 25 0 50 لا
10 ELP 321 Industrial control Systems 2 30 10 60 100 2 1 1 4 2 لا
11 ELP 322 Renewable energy 2 40 10 75 125 2 2 1 5 2 لا
12 ELP 323 Electric power Systems 2 40 10 75 125 2 2 1 5 3 لا
13 ELP 324 Automatic control systems (2) 2 40 10 75 125 2 2 1 5 3 لا
14 ELP 325 Protection Systems and switchgear 2 40 10 75 125 2 2 1 5 3 لا
15 ELP 326 High voltage technology 2 30 10 60 100 نعم
16 ELP 327 Advanced Power electronics 2 30 10 60 100 نعم
17 ELP328 Electric drive systems 2 30 10 60 100 نعم

Level Four
# Code Course Term Class Work Practical Editorial Degree م ت ع/ش مج exam Duration optional
1 ELC 417 Communications &Data transfer in power systems 1 30 10 60 100 نعم
2 HUM-416 Engineering Ethics &Regulations 1 30 0 70 100 2 1 - 3 2 لا
3 ELP 411 Power system analysis 1 40 10 75 125 2 1 1 4 3 لا
4 ELP 412 Digital control Systems 1 30 10 60 100 2 2 - 4 3 لا
5 ELP 413 Electric drives 1 40 10 75 125 2 1 1 4 3 لا
6 ELP 414 Power system control 1 30 10 60 100 2 1 1 4 3 لا
7 ELP 415 Graduation project* 1 100 0 0 100 - - 4 4 - لا
8 ELP 416 Programmable Logic Controllers 1 30 10 60 100 نعم
9 ELP 417 Automated Industrial Systems 1 30 10 60 100 نعم
10 ELP 418 Industrial process control 1 30 10 60 100 نعم
11 HUM 424 Engineering Economy and Management 2 30 0 70 100 2 2 - 4 2 لا
12 ELP 425 Graduation project** 2 100 100 0 200 - - 4 4 - لا
13 ELP 421 Computer Control Systems 2 30 10 60 100 2 1 1 4 2 لا
14 ELP 422 Electric energy utilizations 2 40 10 75 125 2 2 1 5 3 لا
15 ELP 423 Computer applications in power systems 2 40 10 75 125 2 1 1 4 2 لا
16 ELP 424 Power systems planning 2 30 10 60 100 نعم
17 ELP 425 Special Electrical machines 2 30 10 60 100 نعم
18 ELP 426 Control Application in Power systems 2 30 10 60 100 نعم
19 ELP 427 Modern Control systems 2 30 10 60 100 نعم

The most important distinctive features of the program are as follows:

Distinctive features of the Electrical Power and Control Engineering Department

1. An electronic library that contains relevant references to the program courses in addition to the central library of the Institute.
2. Participation of the departments of Civil Engineering, Mechatronics, and Communications and Electronics Engineering in teaching some courses of the program.
3. Job opportunities are available in the community surrounding the 6th of October city as one of the new cities including industrial and development projects areas.
4. the participation of a number of faculty members and the distinguished assistant body from the various departments of the institute People with outstanding scientific and practical experiences
5. Existence of two summer training courses for the students of the program,in institutions and companies with a good reputation in the field of electrical power and control engineering, helping to link theoretical study with practicality.
6. Studies in the Electrical Power and Control Engineering program allow students and graduates to participate in national and international competitions
7. A distinct regional and geographical location of the Institute connected to the greater Cairo region and the 6th of October city , which facilitates the attraction of number of students to this program in the provinces of Giza and Fayoum, which is an open market offering job opportunities to the graduates of the program.

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Graduation project forms