Energy and Renewable Energy Engineering program

Program Description

The program is an interdisciplinary program that covers the energy studies from electrical and mechanical points of view. It aims to study both conventional energy and renewable sources energy. Energy’s flows, constraints, generation, transmission, distribution, consumption, and management knowledge are acquired through the period of study. Students are provided with a deep knowledge of conventional and renewable energy technologies generation and applications. Thermal power plants, machine construction, design, and stability are topics covered. Hydro, tidal, wave, wind, solar photovoltaic, solar thermal, concentrated solar power, biomass, geothermal and others are studied. Renewable energy applications are illustrated and evaluated both theoretically and economically. Power system networks (transmission and distribution) control and modelling are explained. Energy management is discussed in detail using demand side management, energy efficiency, and energy consumption and audit are explained in detail. Finally, the program encourages problem identification and solving as well as critical thinking skills. All topics under study prepare the program graduates for the national, regional and international energy job market.

Career Prospects

This program qualifies its graduates to work in electrical power engineering, mechanical power engineering, energy and renewable energy engineering fields. Graduates can join electrical sector entities such as generation (conventional and renewable), transmission, and distribution companies either public or private. Power plants, control centres, petroleum industry, factories, maintenance applications, and energy management sectors can be a target for the program’s graduates. Distribution installations, refrigeration and Air Conditioning, water desalination and distillation applications, and solar pumping fields are candidate jobs for the energy graduates.

Program Concentrations

There are two concentrations in this program:

1. Power generation:

This concentration focuses on the Power generation field taking into consideration conventional (thermal) and renewable energy (hydro, tidal, wave, wind, solar photovoltaic, concentrated solar power, biomass, geothermal …etc.), and waste conversion generating power stations. Power system analysis, stability, reliability, modelling, and advanced control are a core direction in this concentration. Graduates from these concentrations are qualified to join electricity utilities such as generation (public and private) and transmission entities. The graduation project could focus on the design and the evaluation of possible uses of renewable energies, power delivery systems analysis and control …etc.

2. Energy management:

This concentration tackles the energy management field that includes: energy auditing, energy efficiency, clean energy technologies, and demand side management, taking into consideration power quality standards and economical aspects. This management as it is carried out is subject to international and national quality control, and quality systems and assurance methodologies. Renewable energies applications are studied such as: water desalination and distillation for industrial and residential activities, local production of energy in remote areas, energy storage …etc. Graduates from this concentration are qualified to work in electrical distribution systems’ installations, design and operation of refrigeration and air conditioning systems, management departments of large projects/industries, distribution companies (public and private) …etc. The graduation project could focus on energy efficiency standard applications, wiring in distribution level, solar pumping, Power generation for domestic purposes and their impacts on power quality, compressor work requirements for cooling loads in air conditioning projects…etc.

Agreements with another University

The program is in partnership with the University of East London (UEL), United Kingdom for a Bachelor Dual Degree. Students joining this agreement will pay an additional fee, to substitute expenses for the external Quality Audits/Moderation Boards that will take place in Egypt. The Graduates should receive two B.Sc. certificates, one from the University of East London, and one from Ain Shams University. Students are allowed to study a full year or more in London with a 10% reduction in the UK tuition fees.

Program Objectives

In addition to the competences for all Engineering Programs (A-Level), the Energy and Renewable Energy Engineering Program graduate must be able to (D-Level):

* D1: Model and analyse electrical power systems and electrical machines by applying energy systems concepts of: generation, transmission, distribution and protection of electrical power systems;
* D2: Select, analyse and control appropriate driving systems for different energy applications;
* D3: Model, analyse and design energy systems by applying energy concepts of: Thermal-fluid Mechanics, solid Mechanics, Material Properties and processing, Measurements, Control Systems, Dynamics and Vibrations;
* D4: Design of mechanical energy systems using appropriate materials via both traditional and computer-aided tools;
* D5: Select proper mechanical equipment according to the required specification;
* D6: Adopt suitable standards and codes to: design, build, operate, inspect and maintain mechanical energy systems;
* D7: Identify, analysis and evaluate the energy’s conversion processes and management techniques;
* D8: Indicate and relate smart applications for energy systems; and
* D9: Test and evaluate the performance and suitability of energy systems.
* D10: Distinguish the layout and the key parameters to the field of the concentration as listed below

Concentration	Graduate attributes
Power generation	10a. Distinguish the layout for Power generation stations and their related distribution networks.
Energy Management	10b. Distinguish and manage the energy demand for different applications to enhance their efficiency.

Courses

In order to get a Bachelor of Science Degree in this program, and to satisfy the Program Competences, the following set of courses need to be completed.

Table 34 List of Energy and Renewable Energy Engineering Program Requirements courses.

Code	Course Title	Credits and SWL			Contact Hours
Code	Course Title	CH	ECTS	SWL	Lec	Tut	Lab	TT
University Requirements Courses		14	21	525	14	8	0	22
Faculty Requirements Courses		42	92	2300	36	25	14	75
PHM113	Differential and Partial Differential Equations	3	5	125	3	2	0	5
MDP111s	Mechanical Engineering Drawing	3	6	150	1	3	2	6
MDP112s	Machine Construction	3	5	125	2	2	0	4
MDP211s	Machine Elements Design	4	8	200	3	2	2	7
MDP181s	Manufacturing Technology (1)	3	5	125	3	0	2	5
MEP111s	Thermal Physics	2	4	100	1	2	0	3
MEP211s	Thermodynamics	4	6	150	3	2	1	6
MEP212s	Heat Transfer	4	8	200	2	2	3	7
MEP311s	Combustion	3	6	150	2	2	1	5
MEP221s	Fluid Mechanics and Turbo-Machinery	4	7	175	3	2	1	6
MEP321s	Incompressible Flow Machines	3	6	150	2	2	1	5
MEP322s	Compressible Flow Machines	3	6	150	2	2	1	5
MEP426s	Solar Energy	3	5	125	2	2	0	4
MEP427s	Wind Energy	3	5	125	2	2	0	4
MEP231s	Measurement and Instrumentation	2	5	125	1	0	3	4
EPM113s	Electrical Measurements	3	5	125	2	2	1	5
EPM114s	Fundamentals of Electrical Circuits	3	6	150	2	2	1	5
EPM115s	Fundamentals of Electromagnetic Fields	3	6	150	2	2	0	4
EPM117s	Energy Resources and Renewable Energy	3	5	125	2	2	0	4
EPM151s	Industrial Electronics	3	5	125	2	2	0	4
EPM221s	Electrical Machines (1)	3	5	125	3	1	1	5
EPM222s	Electrical Machines (2)	3	6	150	3	1	1	5
EPM231s	Electrical Power Engineering	3	5	125	3	1	1	5
EPM232s	Automatic Control Systems	3	6	150	2	2	0	4
EPM251s	Power Electronics for Energy Applications (1)	3	5	125	2	2	1	5
EPM311s	Fundamentals of Photovoltaic	3	6	150	2	2	0	4
EPM334s	Economics of Generation, Transmission & Operation	3	5	125	2	2	0	4
EPM354s	Power Electronics for Energy Applications (2)	3	5	125	2	2	1	5
EPM454s	Renewable Energy Resources Interfacing	3	6	150	3	1	0	4
EPM463s	Power System Protection	4	7	175	3	2	0	5
Energy And Renewable Energy Concentration Elective Course, Pool A (1)		3	5	125	2	2	0	4
Energy And Renewable Energy Concentration Elective Course, Pool A (2)		3	5	125	2	2	0	4
Energy And Renewable Energy Concentration Elective Course, Pool A (3)		3	5	125	2	2	0	4
Energy And Renewable Energy Concentration Elective Course, Pool B (4)		3	5	125	2	2	0	4
Energy And Renewable Energy Concentration Elective Course, Pool B (5)		3	5	125	2	2	0	4
EPM493s	Energy Graduation Project (1)	3	6	150	1	4	0	5
EPM494s	Energy Graduation Project (2)	3	6	150	1	4	0	5
Total		170	320	8000	129	104	38	271
Energy And Renewable Energy Concentration Elective
Power Generation Concentration Elective
Pool A
EPM335s	Fundamentals of Power System Analysis	3	5	125	2	2	0	4
EPM436s	Computer Application in Electrical Power Systems	3	5	125	2	2	0	4
MEP312s	Fundamentals of Internal Combustion Engines	3	5	125	2	2	1	5
MEP313s	Thermal Power Plants	3	5	125	2	2	1	5
Pool B
EPM435s	Advanced Control on Power Systems	3	6	150	2	2	0	4
MEP414s	Biomass and Waste Conversion Technology	3	5	125	2	2	0	4
MEP423s	Hydro-Tidal and Wave Energies	3	5	125	2	2	0	4
Energy Management Concentration Elective
Pool A
EPM336s	Electrical Distribution Systems Installations	3	5	125	2	2	0	4
EPM412s	Microprocessor-Based Automated Systems	3	5	125	2	2	1	5
EPM413s	Energy Management Essentials	3	5	125	2	2	0	4
EPM455s	Electric Drives	3	5	125	2	2	0	4
EPM456s	Power Quality for Energy Applications	3	5	125	2	2	0	4
Pool B
MDP433s	Quality Control	3	5	125	2	2	0	4
MDP434s	Quality Systems & Assurance	3	5	125	2	2	0	4
MEP341s	Refrigeration and Air Conditioning	3	6	150	2	2	0	4
MEP434s	Water Desalination and Distillation	3	5	125	2	2	0	4
Total		170	320	8000	129	104	38	271

Program Study Plan

Code	Course Title	Credits and SWL			Contact Hours				Prerequisites
Code	Course Title	CH	ECTS	SWL	Lec	Tut	Lab	TT	Prerequisites
Semester 1
PHM012	Mathematics (1)	3	5	125	3	2	0	5
PHM021	Vibration and Waves	3	5	125	3	1	1	5
PHM031	Statics	3	5	125	2	2	1	5
MDP011s	Engineering Drawing	3	6	150	1	3	2	6
PHM041	Engineering Chemistry	3	5	125	2	1	2	5
CSE031s	Computing in Engineering	2	4	100	2	0	0	2
Total		17	30	750	13	9	6	28
Semester 2
PHM013	Mathematics (2)	3	5	125	3	2	0	5	( PHM012 )
PHM022	Electricity and Magnetism	3	5	125	3	1	1	5
PHM032	Dynamics	3	5	125	2	2	1	5	( PHM031 )
CEP011s	Projection and Engineering Graphics	3	6	150	1	3	2	6
MDP081s	Production Engineering	3	5	125	2	0	3	5
ENG011s	Fundamentals of Engineering	2	4	100	2	1	0	3
Total		17	30	750	13	9	7	29
Semester 3
PHM113	Differential and Partial Differential Equations	3	5	125	3	2	0	5	( PHM013 )
MEP111s	Thermal Physics	2	4	100	1	2	0	3
EPM114s	Fundamentals of Electrical Circuits	3	6	150	2	2	1	5	( PHM022 OR PHM022s )
EPM115s	Fundamentals of Electromagnetic Fields	3	6	150	2	2	0	4	( PHM013 OR PHM013s ) AND ( PHM022 OR PHM022s )
EPM117s	Energy Resources and Renewable Energy	3	5	125	2	2	0	4
MDP151s	Structures & Properties of Materials	2	4	100	2	1	1	4	( PHM041 OR PHM041s OR PHM_041 OR PHM_041s )
Total		16	30	750	12	11	2	25
Semester 4
MDP111s	Mechanical Engineering Drawing	3	6	150	1	3	2	6	( MDP011 )
MDP181s	Manufacturing Technology (1)	3	5	125	3	0	2	5	( MDP081 )
MEP211s	Thermodynamics	4	6	150	3	2	1	6	( MEP111 )
EPM113s	Electrical Measurements	3	5	125	2	2	1	5	( EPM111 OR EPM114 )
PHM111	Probability and Statistics	2	4	100	2	2	0	4	( PHM013 )
EPM119s	Engineering Economy and Investments	2	4	100	2	1	0	3
Total		17	30	750	13	10	6	29
Semester 5
MEP212s	Heat Transfer	4	8	200	2	2	3	7	( MEP211 )
MEP221s	Fluid Mechanics and Turbo-Machinery	4	7	175	3	2	1	6	( PHM112 OR PHM112s )
EPM221s	Electrical Machines (1)	3	5	125	3	1	1	5	( EPM114 ) AND ( EPM115 )
EPM232s	Automatic Control Systems	3	6	150	2	2	0	4	( PHM113 OR PHM113s )
EPM411s	Project Management for Electrical Engineering	2	4	100	2	1	0	3
Total		16	30	750	12	8	5	25
Semester 6
MDP112s	Machine Construction	3	5	125	2	2	0	4	( MDP111 )
MEP231s	Measurement and Instrumentation	2	5	125	1	0	3	4
EPM151s	Industrial Electronics	3	5	125	2	2	0	4
EPM222s	Electrical Machines (2)	3	6	150	3	1	1	5	( EPM221 )
EPM231s	Electrical Power Engineering	3	5	125	3	1	1	5	( EPM115 )
ASU112s	Report Writing & Communication skills	3	4	100	2	2	0	4
Total		17	30	750	13	8	5	26
Semester 7
MEP311s	Combustion	3	6	150	2	2	1	5	( MEP212 )
MEP321s	Incompressible Flow Machines	3	6	150	2	2	1	5	( MEP221 )
EPM251s	Power Electronics for Energy Applications (1)	3	5	125	2	2	1	5	( EPM151 )
EPM311s	Fundamentals of Photovoltaic	3	6	150	2	2	0	4	( EPM151 )
Asu Elective A Course		2	3	75	2	1	0	3
Energy And Renewable Energy Concentration Elective Course, Pool A (1)		3	5	125	2	2	0	4
Total		17	31	775	12	11	3	26
Semester 8
MDP211s	Machine Elements Design	4	8	200	3	2	2	7	( MDP112 )
MEP322s	Compressible Flow Machines	3	6	150	2	2	1	5	( MEP212 ) AND ( MEP221 )
MEP426s	Solar Energy	3	5	125	2	2	0	4	( MEP212 )
EPM354s	Power Electronics for Energy Applications (2)	3	5	125	2	2	1	5	( EPM251 )
Asu Elective B Course		2	2	50	2	0	0	2
Energy And Renewable Energy Concentration Elective Course, Pool A (2)		3	5	125	2	2	0	4
Total		18	31	775	13	10	4	27
Semester 9
MEP427s	Wind Energy	3	5	125	2	2	0	4	( MEP322 )
EPM334s	Economics of Generation, Transmission & Operation	3	5	125	2	2	0	4	( EPM117 ) AND ( EPM231 )
EPM463s	Power System Protection	4	7	175	3	2	0	5	( EPM231 )
EPM493s	Energy Graduation Project (1)	3	6	150	1	4	0	5
ASU113s	Professional Ethics and Legislations	3	4	100	2	2	0	4
ASU114s	Selected Topics in Contemporary Issues	2	2	50	2	0	0	2
Total		18	29	725	12	12	0	24
Semester 10
EPM454s	Renewable Energy Resources Interfacing	3	6	150	3	1	0	4	( EPM232 ) AND ( EPM354 )
EPM494s	Energy Graduation Project (2)	3	6	150	1	4	0	5	( EPM493 )
ASU111s	Human Rights	2	2	50	2	1	0	3
Energy And Renewable Energy Concentration Elective Course, Pool A (3)		3	5	125	2	2	0	4
Energy And Renewable Energy Concentration Elective Course, Pool B (4)		3	5	125	2	2	0	4
Energy And Renewable Energy Concentration Elective Course, Pool B (5)		3	5	125	2	2	0	4
Total		17	29	725	12	12	0	24

A S U

Energy and Renewable Energy Engineering program