Arab Academy for Science, Technology and Maritime Transport. ELECTRICAL AND CONTROL ENGINEERING B. Sc. Program

Transcription

1 COLLEGE OF ENGINEER I NG AND TECHNOLOGY Arab Academy for Science, Technology and Maritime Transport ELECTRICAL AND CONTROL ENGINEERING B. Sc. Program Status Report: Volume II December 2009

2 B. S C. P R O G R A M S T A T U S R E PO R T Electrical and Control Engineering Prepared by Departmental Committee and Coordinated by Prof. Dr. Hussein El Desouki Head of Department Department of Electrical and Control Engineering D E C E M B E R 2009

3 DEPAR TMENT VISION/MI SSION STATEMENTS Vision The vision of the B. Sc. electrical and control engineering program is to provide a high quality electrical and control engineering education leading to graduate engineers capable of performing planning, design, installation, operation, control, and maintenance of modern large electrical power systems and high advanced control applications. Mission The mission of the electrical and control program can be summarized in the following points: To provide high quality education in electrical and control engineering with continuously pursuing the best teaching methods, facilities and advanced technologies. To advance electrical engineering science and technology by combining basic knowledge with innovative applications of engineering. To prepare graduates who are able to work efficiently, accurately in the field of electrical and control engineering. To produce future leaders for electrical industries, academia, governmental organizations and society whose vision is based on fundamental knowledge, analytical methods, engineering, technical skills, creativity, perspective and ethics. To provide and support electrical and control engineering research leading to expansion of knowledge to ensure high quality education. To contribute actively in nation's pursuit towards a diverse and sustainable economy by fostering and opening technology transfer channels. To provide technical expertise and training to industrial and governmental firms. DEPAR TMENT OBJECTIVE S The first objective is to impart to students the type of technical and engineering knowledge which reflects the immediate technological needs and practical 'skills required to produce power and control engineers who are capable of making a positive contribution to their countries and their communities as soon as possible after graduation. In particular it aims at satisfying the pressing need of the national industries (both governmental and private) and National Electricity Boards in both Arab and African countries for such engineers in the area of power system planning and operation, power generation, transmission, distribution, utilization and automatic control. The second objective is to incorporate in the curricula the latest front- line topics such as reliability, neural networks, digital protection, digital control etc., together with the more conventional topics. This will enable graduates to rapidly assimilate the rapid technological advancements incorporated in modern equipment as well as the advanced analytical techniques used for design and performance analysis. The third objective is that the degree plan satisfy the requirements of the Higher Council for Universities, the IEE institute and the ABET. INDUSTRIAL AND MANAGEMENT ENGINEERING i

4 Table of Contents I N T R O D U C T I O N 1 Electrical and Automatic Control Engineering: An Overview 1 The Role of Electrical and Control Engineers 1 Career Opportunities for Electrical and Control Engineers 1 Program Aim and Objectives 2 Program Intended Learning Outcomes (ILOs) 2 P R O G R A M P L A N N I N G S H E ET 4 Curriculum 4 Course Coding 4 Degree Offered 5 Graduation Requirements 5 Electrical and Control Engineering Academic Program Sheet 8 Course Prerequisites 10 Academic Program Analysis 24 Program Analysis by Semester Offering 30 Program Analysis by Subject Field 33 Comparison with Previous Program 38 C O U R S E S S U M M A R Y D E S C R I P T I O N 39 Basic and Applied Science (BA) 39 Computer Engineering (CC) 41 Electronics Engineering (EC) 42 Electrical Engineering (EE) 42 Industrial and Management Engineering (IM) 52 Language, Humanities and Social Science (LH) 53 Mechanical Engineering (ME) 54 Non-Engineering (NE) 55 C O U R S E F I L E S U M M A R Y 56 Basic and Applied Science Courses BA 57 Computer Engineering Courses CC 79 Electronics Engineering Courses EC 89 Electrical and Control Engineering Courses EE 93 Electrical machines Courses Group 129 Electrical Circuits Courses Group 151 Electrical Power Courses Group 165 Industrial and Management Engineering Courses IM 193 Language, Humanities, & Social Science Courses LH 201 Mechanical Engineering Courses ME 207 Non Engineering Courses NE 215 T E A C H I N G F A C U L T Y L I S T Full Time Staff 221 Assistants 228 D E P A R T M E N T F A C I L I T I E S Experimental Facilities Supporting the Program 229 Electrical Machines Laboratory 31 Electrical Circuits Laboratory 33 Digital Automatic Control Laboratory 234 Analogue Automatic Control Laboratory 235 Electrical Drives Laboratory 236 Automation Laboratory 237 Physics I Laboratory 238 Physics II Laboratory 239 Computer Laboratories I 240 Computer Laboratories II 241 Computer Laboratories III 242 Chemistry Laboratory 243 Testing of Materials Laboratory 244 Engineering Workshop 245 Microprocessor Laboratory 246 Digital Circuits Laboratory 247 INDUSTRIAL AND MANAGEMENT ENGINEERING ii

5 Chapter 1 Introduction Program overview, activities and job opportunities, and program objectives Electrical and Automatic Control Engineering: An Overview Electrical and Automatic Control Engineering is an important field of engineering dealing with the study of operation, design and control of power systems, drives and control systems. By covering a range of topics such as power, electronics, control systems and signal processing specific objectives can be achieved. It is well Known that the degree of development of a nation is measured by its per capital consumption of electrical energy i.e. electrical energy utilization. The generation of electricity, its transmission and its distribution are thus of primary concern to all developing and rapidly industrializing countries. Since it is estimated that some 80% of generated power is used to drive motors, machines, electrical drives and power electronics (form a very important part of electrical power engineering). The Role of Electrical and Control Engineers With electrification projects forging ahead in developing countries and peak demand forecast doubling every ten years, there is a pressing need for expert generation, transmission and distribution engineers. Also under study by Arab and African countries are projects for the formation of super grids linking all nations from Iraq in the east to Morocco in the west and from North Africa across the continent to South Africa across with eventual interconnection with Europe. The scope of electrical power engineering is thus very wide indeed and power engineers are required to be knowledgeable in both conventional and frontline topics. Automatic control systems are not only responsible for the modern way of life; they have indeed revolutionized all aspects of both civil and military life. Its industrial applications have speeded up the production and improved the quality of a very large number of manufactured goods. In power systems the wide use of automatic control systems has added to the reliability, stability and economy of generation, transmission and distribution systems. Career Opportunities for Electrical and Control Engineers Quick survey of engineering job vacancies at the daily newspaper reveals that Electrical and Control Engineering would collect almost 35% of the total engineering opportunities available. In fact ELECTRICAL AND CONTROL ENGINEERING 1

6 Electrical and Control Engineering department main objectives are to introduce a qualified engineer to serve in the field of: Generation, transmission, distribution and utilization of electrical power for public and private sectors to secure both continuous and emergency demands. Electrical power feeding for civil and military marine and aviation utilities. Electrical works in construction engineering. Renewable stand-alone generation systems for isolated communities. Automated industrial systems where computer controlled systems are applied such as paper industry, steel production and fabrication industries, chemicals, petrochemicals & medicine production industries, spinning & weaving, food production industries.etc. Traction and lifting utilities. Electrical drives for all aspects of industry. Program Aim and Objectives Impart to students the type of technical and engineering knowledge which reflects the immediate technological needs and practical skills required to produce power and control engineering who are capable of making a positive contribution to their countries and their communities as soon as possible after graduation. Satisfy the pressing need of the national industries (both governmental and private) and National Electricity Boards in both Arab and African countries for such engineers in the area of power system planning and operation, power generation, transmission, distribution, utilization and automatic control. Incorporate in the curricula the latest front- line topics such as reliability, neural networks, digital protection, digital control etc., together with the more conventional topics. This will enable graduates to rapidly assimilate the rapid technological advancements incorporated in modern equipment as well as the advanced analytical techniques used for design and performance analysis. The responsibility of achieving this objective is carried out by electrical engineering staff experienced in the management of engineering and technical activities. Program Intended Learning Outcomes (ILOs) Knowledge and Understanding On successful completion of the electrical engineering (EE) program of study, the graduate should be able to demonstrate knowledge and understanding of: Construction, design and theory of operation of electrical machinery and electronics. Design and analysis of power system generation, transmission and distribution. Analysis, design and implementation of various methods of control using analogue and digital control systems. Construction, design and implementation of computerized control system using various digital controllers Applying power and control theories accompanied with digital signal processing in electrical drives systems for commercial and industrial automated systems applications. ELECTRICAL AND CONTROL ENGINEERING 2

7 Intellectual Skills On completion of the electrical engineering (EE) program of study, students should be able to: Select and apply appropriate computer based methods, mathematical and scientific principles for analysing of control systems. Solve a wide range of problems related to the analysis, design, and construction of electrical machines, control systems and power systems Ability to design automation systems for industrial applications Practical and Professional Skills On completion of the electrical engineering (EE) program of study, students should be able to: Plan and undertake a major individual project. Prepare and deliver coherent and structured verbal and written technical reports. Give technical presentations suitable for the time, place and audience. Use the scientific literature effectively and make discriminating use of Web resources. Use appropriate computer-based support tools for problem-solving and analysis of results. Apply the acquired skills in a commercial or industrial environment. Display an integrated approach to the deployment of communication skills. Use IT skills and display mature computer literacy. Work effectively with and for others. Display personal responsibility by working to multiple deadlines in complex activities. Demonstrate significantly enhanced group working abilities. Further develop career plans and personal objectives. ELECTRICAL AND CONTROL ENGINEERING 3

8 Chapter 2 Program Planning Sheet New program structure including the suggested new course titles and codes and comparison between this program and the previous one Curriculum The program curriculum provides great flexibility in course selection and offers a broad scientific and engineering base by containing a sequence of courses in mathematics, physics, chemistry, computer and the engineering sciences. These courses are accompanied by electrical engineering courses covering the areas of electrical measurements and instrumentation, control systems, power systems, power electronics, microprocessor based control, electrical machines, electrical drives and automated industrial systems. Course Coding Numbering System The course code consists of five alphanumeric digits (MN XYZ), as follows: The MN digits: Represent the abbreviations of the subject field. The X digit: Represents the course level or the year at which the course is offered in the plan of study. The Y digit: Represents the course group. The Z digit: Represents the course sequence number within the group. Abbreviations of Subject Fields The following abbreviations of subject fields are used in the degree offered and graduation requirements and course summary description sections of this report; and are listed below in an alphabetical order: BA Basic and Applied Science. CC Computer Engineering. EE Electrical Engineering. LH Language, Humanities and Social Science. IM Industrial and Systems Engineering. ME Mechanical Engineering. NE Non-Engineering Courses. ELECTRICAL AND CONTROL ENGINEERING 4

9 Subject Field Semester Course Code B. S C. P R O G R A M S T A T U S R E P O R T Electrical and Control Engineering Subject Field Groups The Electrical and Control Engineering (EE) subject field offers courses in the following four groups: Automatic Control Group (EE X1X) Electrical Machines Group (EE X2X) Electrical Circuits Group (EE X3X) Electrical Power Group (EE X4X) Degree Offered The program offers the degree of Bachelor of Science (B. Sc.) in Industrial and Systems Engineering. The candidate for the (B. Sc.) degree is required to pursue scholastic quality and complete a plan of study prepared with his academic advisor and approved by the Industrial and Systems Engineering Department Council. The number of credit hours required for graduation is 180 (cr. hr.) spreading over 10 academic semesters. The program contains a sequence of courses that are designed according to the National Academic Reference Standards (NARS) for electrical engineering. Graduation Requirements College Requirements A total of 51 credit hours are required by the college as per the following table: Course Title Cr. Hr. Prerequisite Compulsory Courses A total of 48 Cr. Hr. of the following compulsory courses 1 BA 113 Physics (1) 3 None 2 BA 114 Physics (2) 3 BA BA 118 Chemistry 2 None 1 BA 123 Mathematics (1) 3 None BA 2 BA 124 Mathematics (2) 3 BA BA 223 Mathematics (3) 3 BA BA 224 Mathematics (4) 3 BA BA 141 Engineering Mechanics (1) 3 None 2 BA 142 Engineering Mechanics (2) 3 BA 141 CC 1 CC 111 Introduction to computer 3 None 2 CC 112 Structured Programming 3 CC IM 111 Industrial Relations 2 None IM 2 IM 112 Manufacturing Technology 2 None 3 IM 423 Operations Research 3 None 1 LH 131 English for Special Purposes (1) 2 None LH 2 LH 132 English for Special Purposes (2) 2 LH LH 231 Technical Report Writing 3 LH 132 ME 1 ME 151 Eng. Drawing and Projection 2 None NE 4 NE 264 Scientific Thinking 3 None 5 NE 364 Engineering Economy 3 54 Cr. Hr. ELECTRICAL AND CONTROL ENGINEERING 5

10 Subject Field Semester Course Code B. S C. P R O G R A M S T A T U S R E P O R T Department Requirements A total of 129 credit hours are required by the department, which are distributed as follows: 102 credit hours of compulsory courses. A minimum of 27 credit hours of department restricted electives that are selected from the three main course groups as follows: Seven courses equivalent to 21credits from Group A & Group B. Two courses equivalent to 6 credits from Group C. Course Title Cr. Hr. Prerequisite Compulsory Courses A total of 96 Cr. Hr. of the following compulsory courses BA 5 BA 323 Mathematics (5) 3 BA BA 327 Probability & Numerical Methods 3 None 3 CC 213 Programming Applications 3 CC 112 CC 3 CC 216 Digital Logic Design 3 CC CC 411 Introduction to Microprocessors 3 CC 216 EC 4 EC 238 Electronics (1) 3 EE EC 339 Electronics (2) 3 EC EE 231 Electrical Circuits (1) 3 BA EE 232 Electrical Circuits (2) 3 EE EE 211 Electrical Meas. & Instrumentation (1) 3 EE EE 312 Electrical Meas. & Instrumentation (2) 3 EE EE 321 Electrical Machines (1) 3 EE EE 341 Introduction to Power Engineering 3 EE EE 332 Network Analysis 3 EE EE 311 Fundamentals of Control Engineering 3 BA EE 331 Electrical and Magnetic Fields (1) 3 BA EE 322 Electrical Machines (2) 3 EE EE 342 Power Systems (1) 3 EE 341 EE 6 EE 421 Power Electronics (1) 3 EC EE 333 Electrical and Magnetic Fields (2) 3 EE EE 422 Electrical Machines (3) 3 EE EE 423 Power electronics (2) 3 EE EE 411 Control Systems (1) 3 EE EE 441 Power Systems (2) 3 EE EE 412 Control Systems (2) 3 EE EE 413 Microprocessor Based Process Control 3 CC EE 424 Electrical Drives (1) 3 EE EE 442 Power Systems Protection (1) 3 EE EE 501 Project (1) 3 S.S.* 10 EE 503 Project (2) 6 EE ME 234 Thermo-fluids 3 None ME 3 ME 274 Materials Science 3 BA 114:BA ME 520 Power Plant Technology 3 ME 234 ELECTRICAL AND CONTROL ENGINEERING 6

11 Group C Group B Group A Subject Field Semester Course Code B. S C. P R O G R A M S T A T U S R E P O R T Course Title Cr. Hr. Prerequisite Department Restricted Electives At least nine courses (27 Cr. Hr.) from the following list of the college electives 9-10 EE 511 Discrete Control Systems 3 EE EE 512 Automated Industrial Systems (1) 3 EE 411 OR EE EE 513 Control Applications in Power Eng. 3 EE EE 514 Robotics 3 CC 411 & EE EE 515 Computer Control of Dynamic Systems 3 EE 411 OR EE EE 516 Modern Control Systems 3 EE 412 OR EE EE 517 Optimal & Adaptive Control 3 EE EE 518 Automated Industrial Systems (2) 3 EE EE 521 Special Electrical Machines 3 EE EE 522 Electrical Drives (2) 3 EE EE 541 Power System Protection (2) 3 EE EE 542 Electrical Power Stations 3 EE EE 543 Electrical Power Distribution 3 EE EE 544 Power Systems (3) 3 EE EE 545 High Voltage Engineering 3 EE EE 546 Electrical Engineering Material 3 EE EE 547 Utilization of Electrical Energy 3 EE EE 548 Electromechanical Systems for Commercial Installation 3 EE NE 467 Management of Energy Resources 3 None 9-10 IM 423 Operation Research 3 90 Cr Hr 9-10 IM 535 International Operations Management Cr Hr ELECTRICAL AND CONTROL ENGINEERING 7

12 Academic Program Sheet Year 1 Semester 1 Semester 2 LH 131 English for Special Purposes (1) LH 132 English for Special Purposes (2) BA 123 Mathematics (1) BA 124 Mathematics (2) BA 113 Physics (1) BA 114 Physics (2) CC 111 Introduction to Computers CC 112 Structured Programming ME 151 Eng. Drawing & Projection IM 112 Manufacturing Technology BA 141 Engineering Mechanics (1) BA 142 Engineering Mechanics (2) IM 111 Industrial Relations BA 118 Chemistry Year 2 Semester 3 Semester 4 LH 231 Technical Report Writing BA 224 Mathematics (4) CC 216 Digital Logic Design ME 234 Thermo-fluids BA 223 Mathematics (3) EE 232 Electrical Circuits (2) ME 274 Material Science EC 238 Electronics (1) CC 213 Programming Applications EE 211 Electrical Measurements & Inst. (1) EE 231 Electrical Circuits (1) NE 264 Scientific Thinking Year 3 Semester 5 Semester 6 BA 323 Mathematics (5) BA 327 Probability & Numerical Mathematics EC 339 Electronics (2) EE 311 Fundamentals of Control Engineering EE 312 Electrical Measurements & Inst. (2) EE 331 Electrical and Magnetic Fields (1) EE 321 Electrical Machines (1) EE 322 Electrical Machines (2) EE 341 Introduction to Power Engineering EE 342 Power Systems (1) EE 332 Network Analysis EE 421 Power Electronics (1) Year 4 Semester 7 Semester 8 CC 411 Introduction to Microprocessors ME 520 Power Plant Technology EE 333 Electrical and Magnetic Fields (2) NE 364 Engineering Economy EE 422 Electrical Machines (3) EE 412 Control Systems (2) EE 423 Power Electronics (2) EE 413 Microprocessor Based Process Control EE 411 Control Systems (1) EE 424 Electrical Drives (1) EE 441 Power Systems (2) EE 442 Power Systems Protection (1) IM 400 Year 5 Practical Training Semester 9 Semester 10 EE501 Project (1) EE501 Project (1) EE XXX Department Restricted Elective Group A EE XXX Department Restricted Elective Group A/B EE XXX Department Restricted Elective Group A EE XXX Department Restricted Elective Group A/B EE XXX Department Restricted Elective Group B EE XXX Department Restricted Elective Group A/B EE XXX Department Restricted Elective Group B EE XXX Department Restricted Elective Group C EE XXX Department Restricted Elective Group C ELECTRICAL AND CONTROL ENGINEERING 8

13 College Electives NE 161 NE 262 NE 263 NE 266 NE 264 NE 465 History of Science and Technology Business Ethics Managerial Communications Creativity and Innovation Scientific Thinking Aesthetics Education and Art Appreciation NE 466 Environmental Science and Technology Department Restricted Electives Group A EE 511 Discrete Control Systems EE 512 Automated Industrial Systems 1 EE 513 EE 514 EE 515 EE 516 EE 517 Control Applications in Power Engineering Robotics Computer Control of Dynamic Systems Modern Control Systems Optimal & Adaptive Control EE 518 Automated Industrial Systems 2 Group B EE 521 Special Electrical Machines EE 522 Electrical Drives 2 EE 541 Power System Protection 2 EE 542 EE 543 Electrical Power Stations Electrical Power Distribution EE 544 Power Systems 3 EE 545 EE 546 EE 547 EE 548 Group C NE 467 IM 423 IM 535 High Voltage Engineering Electrical Engineering Material Utilization of Electrical Energy Electromechanical Systems for Commercial Installation Management of Energy Resources Operation Research International Operations Management ELECTRICAL AND CONTROL ENGINEERING 9

14 YEAR 2 YEAR 1 B. S C. P R O G R A M S T A T U S R E P O R T Course Prerequisites Prerequisites List Core Courses Course Prerequisite SEMESTER 1 BA 113 Physics 1 None BA 123 Mathematics 1 None BA 141 Engineering Mechanics 1 None CC 111 Introduction to computer None IM 111 Industrial Relations None LH 131 English for Special Purposes 1 None BA 118 Chemistry None SEMESTER 2 BA 114 Physics 2 BA 113 Physics 1 ME 151 Eng. Drawing & Projection None BA 124 Mathematics 2 BA 123 Mathematics 1 BA 142 Engineering Mechanics 2 BA 141 Engineering Mechanics 1 CC 112 Structured Programming CC 111 Introduction to computer IM 112 Manufacturing Technology None LH 132 English for Special Purposes 2 LH 131 English for Special Purposes 1 SEMESTER 3 BA 223 Mathematics 3 BA 124 Mathematics 2 CC 216 Digital Logic Design CC 111 Introduction to computer LH 231 Technical Report Writing LH 132 English for Special Purposes 2 ME 274 Materials Science BA 114 BA 142 Physics 2 Engineering Mechanics 2 CC 213 Programming Applications CC 112 Structured Programming EE 231 Electrical Circuits 1 BA 124 Mathematics 2 SEMESTER 4 BA 224 Mathematics 4 BA 223 Mathematics 3 ME 234 Thermo-fluids None EE 232 Electrical Circuits 2 EE 231 Electrical Circuits 1 EC 238 Electronics 1 EE 231 Electrical Circuits 1 EE 211 Electrical Measurements & Instrumentation 1 NE 264 Scientific Thinking None EE 231 Electrical Circuits 1 ELECTRICAL AND CONTROL ENGINEERING 10

15 YEAR 4 YEAR 3 B. S C. P R O G R A M S T A T U S R E P O R T Course Prerequisite SEMESTER 5 BA 323 Mathematics 5 BA 224 Mathematics 4 EC 339 Electronics 2 EC 238 Electronics 1 EE 312 Electrical Measurements & Instrumentation 2 EE 211 Electrical Measurements & Instrumentation 1 EE 321 Electrical Machines 1 EE 232 Electrical Circuits 2 EE 341 Introduction to Power Engineering EE 232 Electrical Circuits 2 EE 332 Network Analysis EE 232 Electrical Circuits 2 SEMESTER 6 BA 327 Statistics & Numerical Mathematics None EE 311 Fundamentals of Control Engineering BA 224 Mathematics 4 EE 331 Electrical and Magnetic Fields 1 BA 223 Mathematics 4 EE 322 Electrical Machines 2 EE 321 Electrical Machines 1 EE 342 Power systems 1 EE 341 Introduction to Power Engineering EE 421 Power Electronics 1 EC 339 Electronics 2 SEMESTER 7 CC 411 Introduction to Microprocessors CC 216 Digital Logic Design EE 333 Electrical and Magnetic Fields 2 EE 331 Electrical and Magnetic Fields 1 EE 422 Electrical Machines 3 EE 322 Electrical Machines 2 EE 423 Power Electronics 2 EE 421 Power Electronics 1 EE 411 Control Systems 1 EE 311 Fundamentals of Control Engineering EE 441 Power Systems 2 EE 342 Power Systems 1 SEMESTER 8 IM 400 Practical Training ME 520 Power Plant Technology ME 234 Thermo-fluids NE 364 Engineering Economy None EE 412 Control Systems 2 EE 411 Control Systems 1 EE 413 Microprocessor Based Process Control CC 411 Introduction to Microprocessors EE 424 Electrical Drives 1 EE 422 Electrical Machines 3 EE 442 Power Systems Protection 1 EE 342 Power Systems 1 ELECTRICAL AND CONTROL ENGINEERING 11

16 YEAR 5 B. S C. P R O G R A M S T A T U S R E P O R T Course Prerequisite SEMESTER 9 EE 501 Senior Project I Senior Standing 2 Courses from Group A 2 Courses form Group B 1 Course from Group C SEMESTER 10 EE 503 Senior Project II EE 501 Senior Project I 3 Courses from Group A & B 1 Course from Group C Department Restricted Electives Group A EE 511 Discrete Control Systems EE 412 Control Systems 2 EE 512 Automated Industrial Systems (1) EE 513 EE 514 EE 515 EE 516 Control Applications in Power Engineering Robotics Computer Control of Dynamic Systems Modern Control Systems EE 412 EE 418 Control Systems 2 OR Automatic Control Systems EE 412 Control Systems 2 CC 411 EE 412 EE 411 EE 418 EE 412 EE 418 Introduction to Microprocessors Control Systems II Control Systems 1 OR Automatic Control Systems Control Systems 2 OR Automatic Control Systems EE 517 Optimal & Adaptive Control EE 412 Control Systems 2 EE 518 Automated Industrial Systems (2) EE 412 Control Systems 2 Group B EE 521 Special Electrical Machines EE 422 Electrical Machines 3 EE 522 Electrical Drives (2) EE 424 Electrical Drives 1 EE 541 Power System Protection (2) EE 442 Power Systems Protection 1 EE 542 Electrical Power Stations EE 442 Power System Protection 1 EE 543 Electrical Power Distribution EE 442 Power System Protection 1 EE 544 Power Systems (3) EE 441 Power Systems 2 EE 545 High Voltage Engineering EE 442 Power System Protection 1 EE 546 Electrical Engineering Material EE 442 Power System Protection 1 EE 547 Utilization of Electrical Energy EE 442 Power System Protection 1 EE 548 Electromechanical Systems for Commercial Installation EE 442 Power System Protection 1 ELECTRICAL AND CONTROL ENGINEERING 12

17 Course Prerequisite Group C NE467 Management of Energy Resources None IM423 Operational Research 90 Cr Hr IM535 International Operations Management 126 Cr Hr The course prerequisites that are listed in the tables above are illustrated through a number of flowcharts that are to be used by advisors to guide the students through their program of study. These flowcharts are organized as follows: Figure 1 to Figure 3 show the courses and their relationship to each other (prerequisites) offered in the five years of study. Figure 4 shows the elective courses and their relationship to each other (prerequisites). Figure 5 to 8 show the courses within each course group and their relationship to each other (prerequisites) offered in the five years of study. ELECTRICAL AND CONTROL ENGINEERING 13

18 Saturday, November 21, 2009 Electrical and Control Engineering Advising Flowchart Y e a r S 1 CC 111 Introduction to Computer IM 111 Industrial Relations BA 123 Math I BA 113 Physics I BA 141 Engineering Mechanics I LH 131 ESP I ME 151 Eng. Drawing & Projection 1 S 2 CC 112 Structured Programming IM 112 Manufacturing Technology BA 124 Math II BA 114 Physics II BA 142 Engineering Mechanics II LH 132 ESP II BA 118 Chemistry Y e a r S 3 CC 213 Programming Applications CC 216 Digital Logic Design BA 223 Math III EE 231 Electrical Circuits I ME 274 Materials Science LH 231 Technical Report Writing 2 S 4 NE 264 Scientific Thinking EE 211 Electrical Measurements & Instrumentation I BA 224 Math IV EE 232 Electrical Circuits II EC 238 Electronics I ME 234 Thermo-fluids Page 1 Figure 1: Course prerequisites - Years 1 and 2 ELECTRICAL AND CONTROL ENGINEERING 16

19 Saturday, November 21, 2009 Electrical and Control Engineering Advising Flowchart CC 216 BA 224 EE 211 EC 238 EE 232 ME 234 Y e a r S 5 BA 323 Math V EE 312 Electrical Measurements & Instrumentation II EC 339 Electronics II EE 332 Network Analysis EE 321 Electrical Machines I EE 341 Introduction to Power Engineering 3 S 6 BA 327 Statistics & Numerical Methods EE 311 Fundamental of Control Engineering EE 331 Electrical & Magnetic Fields I EE 421 Power Electronics I EE 322 Electrical Machines II EE 342 Power Systems I Y e a r S 7 CC 411 Introduction to Microprocessors EE 411 Control Systems I EE 333 Electrical & Magnetic Fields II 54 Crd Hrs EE 423 Power Electronics II EE 422 Electrical Machines III EE 441 Power Systems II 4 S 8 EE 413 Microprocessor Based Process Control EE 412 Control Systems II NE 364 Engineering Economy ME 520 Power Plant Technology EE 424 Electrical Drives I EE 442 Power Systems Protection I Page 1 Figure 2: Course prerequisites - Years 3 and 4 ELECTRICAL AND CONTROL ENGINEERING 17

20 Saturday, November 21, 2009 Electrical and Control Engineering Advising Flowchart S.S.* Y e a r S 9 EE 501 Project 1 EE XXX Department Restricted Elective EE XXX Department Restricted Elective EE XXX Department Restricted Elective EE XXX Department Restricted Elective 126 Crd Hrs NE467 Department Restricted Elective 5 S 10 EE 503 Project 2 EE XXX Department Restricted Elective EE XXX Department Restricted Elective EE XXX Department Restricted Elective IM535 *Senior Standing (Semesters 9 and 10 only). Page 1 Figure 3: Course prerequisites - Year 5. ELECTRICAL AND CONTROL ENGINEERING 18

21 Saturday, November 21, 2009 Electrical and Control Engineering Advising Flowchart Department Restricted Electives CC 411 EE 412 EE 412 EE 424 EE 442 EE 422 NE 467 Management of Energy Resources EE 514 Robotics EE 516 Modern Control Systems EE 518 Automated Industrial Systems II EE 522 Electrical Drives II EE 542 Electrical Power Stations EE 543 Electrical Power Distribution EE 521 Special Electrical Machines 90 Crd Hrs EE 513 Control Applications in Power Engineering EE 511 Discrete Control Systems EE 515 Computer Control of Dynamic Systems EE 512 Automated Industrial Systems I EE 517 Optimal & Adaptive Control EE 441 EE 544 Power Systems III EE 545 High Voltage Engineering EE 547 Utilization of Electrical Energy EE 546 Electrical Engineering Materials EE 548 Electromechanical Systems for Commercial Installation EE 442 EE 541 Power System Protection II IM 423 Operational Research 126 Crd Hrs IM 535 International Operations Management Group A Group B Group C EE 412 *Senior Standing (Semesters 9 and 10 only). Page 1 Figure 4: Course prerequisites - Department Restricted Electives ELECTRICAL AND CONTROL ENGINEERING 19

22 Saturday, November 21, 2009 Electrical and Control Engineering Advising Flowchart Group A BA 123 Math I BA 124 Math II BA 223 Math III BA 224 Math IV EE 311 Fundamental of Control Engineering EE 411 Control Systems I EE 412 Control Systems II EE 511 Discrete Control Systems EE 513 Control Applications in Power Engineering EE 516 Modern Control Systems EE 512 Automated Industrial Systems I EE 517 Optimal & Adaptive Control EE 515 Computer Control of Dynamic Systems EE 518 Automated Industrial Systems II EE 514 Robotics CC 411 Introduction to Microprocessors CC 216 Digital Logic Design CC 111 Introduction to Computer Page 1 Figure 5: Course group prerequisites Group A. ELECTRICAL AND CONTROL ENGINEERING 20

23 Saturday, November 21, 2009 Electrical and Control Engineering Advising Flowchart Group B EE 521 Special Electrical Machines EE 321 Electrical Machines I EE 322 Electrical Machines II EE 422 Electrical Machines III EE 424 Electrical Drives I EE 522 Electrical Drives II BA 123 Math I BA 124 Math II EE 231 Electrical Circuits I EE 232 Electrical Circuits II EE 341 Introduction to Power Engineering EE 342 Power Systems I EE 442 Power Systems Protection I EE 441 Power Systems II EE 548 Electromechanical Systems for Commercial Installation EE 547 Utilization of Electrical Energy EE 545 High Voltage Engineering EE 542 Electrical Power Stations EE 546 Electrical Engineering Materials EE 543 Electrical Power Distribution EE 541 Power System Protection II EE 544 Power Systems III Page 1 Figure 6: Course group prerequisites Group B. ELECTRICAL AND CONTROL ENGINEERING 21

24 Saturday, November 21, 2009 Electrical and Control Engineering Advising Flowchart Group C 90 Cr Hr 126 Cr Hr 54 Crd Hrs IM 423 Operational Research IM 535 International Operations Management NE 467 Management of Energy Resources Page 1 Figure 8: Course group prerequisites Group C. ELECTRICAL AND CONTROL ENGINEERING 22

25 Saturday, November 21, 2009 Electrical and Control Engineering Advising Flowchart Y e a r 1 S 1 S 2 CC 111 BA 123 ME 151 IM 111 BA 141 BA 113 LH 131 CC 112 BA 124 BA 118 IM 112 BA 142 BA 114 LH 132 Y e a r 2 S 3 S 4 CC 216 EE 211 CC 213 EC 238 EE 231 BA 223 ME 274 EE 232 NE 264 BA 224 LH 231 ME 234 Y e a r 3 S 5 S 6 EE 312 EC 339 EE 321 EE 341 EE 332 BA 323 BA 327 EE 421 EE 322 EE 342 EE 331 EE 311 Y e a r S 7 CC 411 EE 423 EE 422 EE 441 EE 333 EE S 8 EE 413 NE 364 EE 424 EE 442 EE 412 ME 520 S.S.* 54 Crd Hrs Y e a r 5 S 9 S 10 EE 501 EE 503 EE XXX EE XXX EE XXX EE XXX EE XXX EE XXX EE XXX 126 Crd Hrs IM535 NE467 *Senior Standing (Semesters 9 and 10 only). Page 1 Figure 7: Prerequisite flowchart ELECTRICAL AND CONTROL ENGINEERING 23

26 Academic Program Analysis YEAR ONE Code Title SEMESTER ONE NARS Characterization for Engineering by Contact Hours Credit Prerequisites Subject Area * Lecture Tutorial Lab Hours Pre (1) Pre (2) A B C D E F G BA113 Physics None None BA118 Chemistry None None BA123 Mathematics None None BA141 Engineering Mechanics None None CC111 Introduction to Computers None None IM111 Industrial Relations None None LH131 English None None Total Total Total Code Title SEMESTER TWO NARS Characterization for Engineering by Contact Hours Credit Prerequisites Subject Area Lecture Tutorial Lab Hours Pre (1) Pre (2) A B C D E F G BA114 Physics BA113 None BA124 Mathematics BA123 None BA142 Engineering Mechanics BA141 None CC112 Structured Programming CC111 None IM112 Manufacturing Technology None None LH132 English LH131 None ME151 Engineering Drawing & Projection None None Total Total Total * A: Humanities and Social Sciences; B: Mathematics and Basic Sciences; C: Basic Engineering Sciences; D: Applied Engineering and Design; E: Computer Applications and ICT; F: Projects and Practice; G: Discretionary ELECTRICAL AND CONTROL ENGINEERING 24

27 YEAR TWO Code Title SEMESTER THREE NARS Characterization for Engineering by Contact Hours Credit Prerequisites Subject Area * Lecture Tutorial Lab Hours Pre (1) Pre (2) A B C D E F G BA223 Mathematics (3) BA124 None CC216 Digital Logic Design CC111 None CC213 Programming Application CC112 None LH231 Technical report writing LH131 None ME274 Material Science None None EE231 Electrical Circuit (1) BA124 None Total Total Total Code Title SEMESTER FOUR NARS Characterization for Engineering by Contact Hours Credit Prerequisites Subject Area Lecture Tutorial Lab Hours Pre (1) Pre (2) A B C D E F G BA224 Mathematics (4) BA223 None EE232 Electrical Circuit (2) EE231 None EC238 Electronics (1) EE231 None ME234 Thermo-Fluid BA114 None EE211 Electrical Measurements & Inst EE231 None NE264 Scientific Thinking None None Total Total Total * A: Humanities and Social Sciences; B: Mathematics and Basic Sciences; C: Basic Engineering Sciences; D: Applied Engineering and Design; E: Computer Applications and ICT; F: Projects and Practice; G: Discretionary ELECTRICAL AND CONTROL ENGINEERING 25

28 YEAR THREE Code Title SEMESTER FIVE NARS Characterization for Engineering by Contact Hours Credit Prerequisites Subject Area * Lecture Tutorial Lab Hours Pre (1) Pre (2) A B C D E F G BA323 Mathematics (5) BA224 None EC339 Electronics (2) EC238 None EE312 Electrical Measurements & Inst.(2) EE211 None EE321 Electrical Machines (1) EE232 None EE341 Introduction to Power Eng EE232 None EE332 Network Analysis EE232 None Total Total Total Code Title SEMESTER SIX NARS Characterization for Engineering by Contact Hours Credit Prerequisites Subject Area Lecture Tutorial Lab Hours Pre (1) Pre (2) A B C D E F G BA327 Statistics & Numerical Mathematics BA124 None EE311 Fundamentals of Control Engineering BA224 None EE332 Electrical and Magnetic Fields (1) BA224 None EE322 Electrical Machines (2) EE321 None EE342 Power System (1) EE341 None EE421 Power Electronics (1) EC329 None Total Total Total * A: Humanities and Social Sciences; B: Mathematics and Basic Sciences; C: Basic Engineering Sciences; D: Applied Engineering and Design; E: Computer Applications and ICT; F: Projects and Practice; G: Discretionary ELECTRICAL AND CONTROL ENGINEERING 26

29 YEAR FOUR Code Title SEMESTER SEVEN NARS Characterization for Engineering by Contact Hours Credit Prerequisites Subject Area * Lecture Tutorial Lab Hours Pre (1) Pre (2) A B C D E F G CC411 Introduction to Microprocessor CC216 None EE333 Electrical and Magnetic Fields (2) EE331 None EE422 Electrical Machines (3) EE322 None EE423 Power Electronics (2) EE421 None EE411 Control Systems (1) EE311 None EE441 Power System (2) EE342 None Total Total Total Code Title SEMESTER EIGHT NARS Characterization for Engineering by Contact Hours Credit Prerequisites Subject Area Lecture Tutorial Lab Hours Pre (1) Pre (2) A B C D E F G EE413 Microprocessor Based Process Ctrl CC411 None NE364 Engineering Economy None None EE412 Control Systems (2) EE411 None EE424 Electrical Drive (1) EE422 None EE442 Power Systems Protection (1) IM423 None ME520 Power Plant Technology ME234 None IM400 Practical Training None None Total Total Total * A: Humanities and Social Sciences; B: Mathematics and Basic Sciences; C: Basic Engineering Sciences; D: Applied Engineering and Design; E: Computer Applications and ICT; F: Projects and Practice; G: Discretionary ELECTRICAL AND CONTROL ENGINEERING 27

30 YEAR FIVE Code Title SEMESTER NINE NARS Characterization for Engineering by Contact Hours Credit Prerequisites Subject Area * Lecture Tutorial Lab Hours Pre (1) Pre (2) A B C D E F G EE501 Senior Project (1) Senior Standing EEXXX Department Restricted Elective As Designated EEXXX Department Restricted Elective As Designated EEXXX Department Restricted Elective As Designated EEXXX Department Restricted Elective As Designated NE467 Department Restricted Elective As Designated Total Total Total Code Title SEMESTER TEN NARS Characterization for Engineering by Contact Hours Credit Prerequisites Subject Area Lecture Tutorial Lab Hours Pre (1) Pre (2) A B C D E F G EE503 Senior Project (2) EE501 None EEXXX Department Restricted Elective As Designated EEXXX Department Restricted Elective As Designated EEXXX Department Restricted Elective As Designated IM535 Department Restricted Elective Cr Hr None Total Total Total * A: Humanities and Social Sciences; B: Mathematics and Basic Sciences; C: Basic Engineering Sciences; D: Applied Engineering and Design; E: Computer Applications and ICT; F: Projects and Practice; G: Discretionary ELECTRICAL AND CONTROL ENGINEERING 28

31 Program Analysis by Semester Offering Contact Hours per Week NARS Characterization for Engineering * Semester Lecture Tutorial Lab Total A B C D E F G Total Grand Total Percentage Lab Tutorial 10 Lecture Distribution of Contact Hours by Semester (Absolute) * A: Humanities and Social Sciences; B: Mathematics and Basic Sciences; C: Basic Engineering Sciences; D: Applied Engineering and Design; E: Computer Applications and ICT; F: Projects and Practice; G: Discretionary ELECTRICAL AND CONTROL ENGINEERING 30

32 100% 90% 80% 70% 60% 50% 40% 30% 20% 10% 0% Lab Tutorial Lecture Distribution of Contact Hours by Semester (Percentage) 8% 7% 6% 9% A B 24% C D E 23% F G 23% Distribution of Total Contact Hours. ELECTRICAL AND CONTROL ENGINEERING 31

33 G F E D C B A NARS Characterization by Semester (Absolute) 100% 90% 80% 70% 60% 50% 40% 30% 20% 10% 0% G F E D C B A NARS Characterization by Semester (Percentage) ELECTRICAL AND CONTROL ENGINEERING 32

34 17% 46% Lecture Tutorial Lab 37% Total Contact Hours Distribution Program Analysis by Subject Field Contact Hours per Week NARS Characterization for Engineering * Semester Lecture Tutorial Lab Total A B C D E F G Total BA CC IM EE X0X EE X1X EE X2X EE X3X EE X4X EE XXXE LH ME NE Grand Total Percentage * A: Humanities and Social Sciences; B: Mathematics and Basic Sciences; C: Basic Engineering Sciences; D: Applied Engineering and Design; E: Computer Applications and ICT; F: Projects and Practice; G: Discretionary ELECTRICAL AND CONTROL ENGINEERING 33

35 BA CC IM EE X0X EE X1X EE X2X EE X3X EE X4X EE XXXE LH ME NE Lab Tutorial Lecture Distribution of Contact Hours by Field (Absolute) 100% 90% 80% 70% 60% 50% 40% 30% 20% 10% 0% BA CC IM EE X0X EE X1X EE X2X EE X3X EE EE LH ME NE X4X XXXE Lab Tutorial Lecture Distribution of Contact Hours by Subject Field (Percentage) ELECTRICAL AND CONTROL ENGINEERING 34

36 7% 3% 12% 8% 8% 5% BA 20% CC IM EE X0X EE X1X 8% EE X2X EE X3X EE X4X 4% EE XXXE 5% LH ME 10% 10% NE Distribution of Total Contact Hours BA CC IM EE X0X EE X1X EE X2X EE X3X EE X4X 1 EE XXXE LH ME NE G F E D C B A Nars Characterization by Subject Field (Absolute) ELECTRICAL AND CONTROL ENGINEERING 35

37 100% 80% 60% 40% 20% 0% BA CC IM EE X0X EE X1X EE X2X EE X3X 2 EE X4X 3 EE XXXE LH ME NE G F E D C B A Nars Characterization by Subject Filed (Percentage) 13% 9% 2% 7% 9% 6% BA 17% CC IM EE X0X 9% EE X1X EE X2X 2% EE X3X EE X4X 6% EE XXXE LH 11% ME 9% NE Analysis of Electrical and Control Engineering total Credit hours by Subject Field (Percentage) ELECTRICAL AND CONTROL ENGINEERING 36

38 NE; 9% ME; 11% EE X0X; 9% LH; 6% EE; 2% IM; 57% EE X1X; 9% EE X2X; 13% CC; 9% EE X3X; 2% EE X4X; 7% EE XXXE; 6% BA; 17% Analysis of Electrical and Control Engineering total Credit hours (Percentage) NE; 10% ME; 10% LH; 5% EE; 4% IM; 55% EE X0X; 8% EE X1X; 8% EE X2X; 12% CC; 8% EE X3X; 3% EE X4X; 7% EE XXXE; 5% BA; 20% Analysis of Electrical and Control Engineering total Contact hours (Percentage) ELECTRICAL AND CONTROL ENGINEERING 37

39 Comparison with Previous Program Changes to Previous Program The previous Electrical and Control Engineering program has been modified to meet the requirements of the IEE professional institute (part of the British Professional Institutes) and more importantly to satisfy the requirements of the Supreme Council of Egyptian Universities. The changes in the program where mainly focused on generally increasing the percentage of design and applied engineering courses, and specifically in years 3 and 4 (semesters 5 to 8). Modification Results The results of the modifications to the program are as follows: Several course s prerequisites were modified according to department s requirements. These courses include: Course Prerequisites EE 416 CC 442 EE 418 EE328 OR EE218 EE 512 EE 411 OR EE 418 EE 515 EE 411 OR EE 418 EE 516 EE 412 OR EE 418 EE 543 EE 441 EE 545 EE 441 Course contents were modified to meet NARS specifications. Text books were updated with newer versions. Electrical drives laboratory AND Automation laboratory has been added to the list of the departments laboratories to familiarize students with the latest developments in the field of electrical drives and automation applied in industry ELECTRICAL AND CONTROL ENGINEERING 38

40 Chapter 3 Courses Summary Description Brief description of all courses including the number of credit hours and prerequisites. Basic and Applied Science (BA) BA 113 Physics (1) Cr.3. Prerequisite: None Introduction to static electricity and Coulomb s law - Introduction to static electricity and coulomb s law - Electric field. - Electric potential. Capacitors - Electric current, ohm s law resistors in series and parallel - Kirchhoff s rule - Introduction to theory of magnetism and different applications - Electromagnetic induction - Optics and waves (nature of light, properties of light waves) - Young s double slit polarization of light waves. BA 114 Physics (2) Cr.3. Prerequisite: BA113 Introduction to thermodynamics - Reversibility and reversible work - First law of thermodynamics Non-flow equation - Steady flow equation - Working Fluid (steam, perfect gas) - Reversible processes.(constant volume, constant pressure, constant temperature, adiabatic) - Reversible process ( polytropic) - Second law of thermodynamics - Heat transfer. BA Chemistry Cr.2. Prerequisite: None Electrochemical reactions and cells, volumetric analysis (practical) - Principles of corrosion, titrate technique, determinate of acidity (practical) - Metals and corrosive environments, determinate of alkalinity and chloride (practical) - Forms of corrosion uniform, galvanic and differential aeration cell, determination of hardness (practical) - Pitting, stress corrosion cracking and intergranular corrosion forms, determination of dissolved oxygen (practical) - Atmospheric and erosion corrosion, spectrophotometer analysis (practical) - Coating and inhibitors as protection methods, determination of nitrite and nitrate (practical) - Cathodic protection, determination of phosphate and silica (practical) - Classification of fuel, properties of liquid fuel, determination of some heavy metals (practical) - Combustion of fuel, determination of fluorine and chlorine (practical) - air supply and exhaust gases, determination of turbidity (practical) - Classification of lubricants advantages and disadvantages of different types, oil analysis determination of viscosity and T.B.N (practical) - Properties of lubricants and additives, determination of insoluble and saltwater (practical) - Nature of impurities in water, soft and hard water effect of using impure water on ELECTRICAL AND CONTROL ENGINEERING 39