Engineering and Technology Program

Program Aim

The program aims to graduate structural engineers who are able to analyze and design elements and structural systems that attain the design purposes and to ensure the safety and comfort of users. Their work focuses on the safety, economic and environmental aspects. Structural engineer working on creating and design powerful structures that resist permanent loads as well as temporary loads resulting from wind, earthquakes and heat to prevent any structural problems.
The graduates of the program will be able to:
a) Apply knowledge of mathematics, science and engineering concepts to the solution of engineering problems.
b) Design a system; component and process to meet the required needs within realistic constraints.
c) Design and conduct experiments as well as analyze and interpret data.
d) Identify, formulate and solve fundamental engineering problems.
e) Use the techniques, skills, and appropriate engineering tools, necessary for engineering practice and project management.
f) Work effectively within multi-disciplinary teams.
g) Communicate effectively.
h) Consider the impacts of engineering solutions on society & environment.
i) Demonstrate knowledge of contemporary engineering issues.
j) Display professional and ethical responsibilities; and contextual understanding
k) Engage in self- and life- long learning.
l) Act professionally in design and supervision of structural engineering practice.
n) Design, construct and protect excavations and underground structures, for different purposes
m) Use the codes of practice of structural engineering disciplines effectively and professionally
o) Select appropriate building materials from the perspective of strength, durability, suitability of use to environmental and loading conditions
p) Design and construct structures for protection against dangers of unexpected natural events such as floods, earthquakes and storms.
q) Develop and review drawings and specifications for structural engineering projects.
r) Implement computer-aided design (CAD) to simulate structural behavior under various working conditions.
s) Inspect defects and damages in existing structures and recommend options for repair or demolition
t) Design and construct adequate maintenance and repair systems
u) Implement quality assurance and quality control systems in engineering projects.
v) Lead and supervise a group of engineers and site technicians. Program Structure
The program consists of 180 credit hours divided on 10 semesters as per the following reference study plan.

Semester 1, Level 0, Credits = 18

Semester 2, Level 0, Credits = 18

Semester 3, Level 1, Credits = 18

Semester 4, Level 1, Credits = 18

Semester 5, Level 2, Credits = 19

Semester 6, Level 2, Credits = 19

Semester 7, Level 3, Credits = 18

Semester 8, Level 3, Credits = 17

Semester 9, Level 4, Credits = 17

Semester 10, Level 4, Credits = 18

Program Aim

The program aims to graduate energy engineers who are able to analyze and design elements and renewable systems that attain the design purposes and to ensure the safety and clean energy. Their work focuses on the safety, economic and environmental aspects.
The graduates of the program will be able to:
a) Apply knowledge of mathematics, science and engineering concepts to the solution of engineering problems.
b) Design a system; component and process to meet the required needs within realistic constraints.
c) Design and conduct experiments as well as analyze and interpret data.
d) Identify, formulate and solve fundamental engineering problems.
e) Use the techniques, skills, and appropriate engineering tools, necessary for engineering practice and project management.
f) Work effectively within multi-disciplinary teams.
g) Communicate effectively.
h) Consider the impacts of engineering solutions on society & environment.
i) Demonstrate knowledge of contemporary engineering issues.
j) Display professional and ethical responsibilities; and contextual understanding
k) Engage in self- and life- long learning.
l) Evaluate the sustainability and environmental issues related to mechanical power systems.
m) Use energy efficiently.
n) Apply industrial safety.
o) Apply and integrate knowledge, understanding and skills of different subjects and available computer software to solve real problems in industries and power stations.
p) Lead or supervise a group of engineers, technicians and work force.
q) Carry out preliminary designs of fluid transmission and new and renewable energy systems, investigate their performance and solve their essential operational problems.
r) Design, operate and maintain internal combustion, steam engines and new and renewable energy systems3.2 Program Structure
The program consists of 180 credit hours divided on 10 semesters as per the following reference study plan.

Semester 1, Level 0, Credits = 18

Semester 2, Level 0, Credits = 18

Semester 3, Level 1, Credits = 19

Semester 4, Level 1, Credits = 16

Semester 5, Level 2, Credits = 19

Semester 6, Level 2, Credits = 17

Semester 7, Level 3, Credits = 19

Semester 8, Level 3, Credits = 18

Semester 9, Level 4, Credits = 18

Semester 10, Level 4, Credits = 18

Program Aim

The program aims to graduate mechatronics engineers who are able to analyze and design elements and mechatronics systems that attain the design purposes and to ensure the safety and economical aspects.
The graduates of the program will be able to:
a) Apply knowledge of mathematics, science and engineering concepts to the solution of engineering problems.
b) Design a system; component and process to meet the required needs within realistic constraints.
c) Design and conduct experiments as well as analyze and interpret data.
d) Identify, formulate and solve fundamental engineering problems.
e) Use the techniques, skills, and appropriate engineering tools, necessary for engineering practice and project management.
f) Work effectively within multi-disciplinary teams.
g) Communicate effectively.
h) Consider the impacts of engineering solutions on society & environment.
i) Demonstrate knowledge of contemporary engineering issues.
j) Display professional and ethical responsibilities; and contextual understanding
k) Engage in self- and life- long learning.
l) Demonstrate and apply knowledge and skills necessary to analyze mechatronics systems involving sensors, actuators and control elements.
m) Demonstrate a systematic knowledge and understanding of mathematics and engineering science that underpins the discipline of mechanical, electrical, electronic and software engineering
n) Apply knowledge and skills needed to design and maintain mechatronics systems
o) Establish an entry point for post-graduate study in Egypt
p) Communicate effectively and undertake continuing professional development.4.2 Program Structure
The program consists of 180 credit hours divided on 10 semesters as per the following reference study plan.

Semester 1, Level 0, Credits = 18

Semester 2, Level 0, Credits = 18

Semester 3, Level 1, Credits = 19

Semester 4, Level 1, Credits = 19

Semester 5, Level 2, Credits = 19

Semester 6, Level 2, Credits = 18

Semester 7, Level 3, Credits = 17

Semester 8, Level 3, Credits = 18

Semester 9, Level 4, Credits = 18

Semester 10, Level 4, Credits = 17

Program Aim

The program aims to graduate electronics and electrical communication engineers who are able to analyze and design elements electronics and electric communication systems that attain the design purposes and to develop. Their work focuses on the safety, develop the IT, Electronics and electrical communication sectors.
The graduates of the program will be able to:
a) Apply knowledge of mathematics, science and engineering concepts to the solution of engineering problems.
b) Design a system; component and process to meet the required needs within realistic constraints.
c) Design and conduct experiments as well as analyze and interpret data.
d) Identify, formulate and solve fundamental engineering problems.
e) Use the techniques, skills, and appropriate engineering tools, necessary for engineering practice and project management.
f) Work effectively within multi-disciplinary teams.
g) Communicate effectively.
h) Consider the impacts of engineering solutions on society & environment.
i) Demonstrate knowledge of contemporary engineering issues.
j) Display professional and ethical responsibilities; and contextual understanding
k) Engage in self- and life- long learning.
l) Participate in and lead quality improvement projects.
m) Manipulate with the electronic circuits, all the way from the discrete components level, circuits’ analysis and design, to the troubleshooting with emphasis on electronic power devices.
n) Apply control theory and measurement principals for industrial variables, signal conversion, conditioning and processing.
o) Deal with the computers hardware, software, operating systems and interfacing.
p) Design, operate and maintain digital and analog communication, mobile communication, coding, and decoding systems Program Structure
The program consists of 180 credit hours divided on 10 semesters as per the following reference study plan.

Semester 1, Level 0, Credits = 18

Semester 2, Level 0, Credits = 18

Semester 3, Level 1, Credits = 16

Semester 4, Level 1, Credits = 18

Semester 5, Level 2, Credits = 17

Semester 6, Level 2, Credits = 19

Semester 7, Level 3, Credits = 20

Semester 8, Level 3, Credits = 18

Semester 9, Level 4, Credits = 17

Semester 10, Level 4, Credits = 19

Computers Engineering and Systems Program

Program Aim

The program aims to provide future engineers with appropriate theoretical knowledge and technical skills to respond to professional market demand
The graduates of the program will be able to:
a) Apply knowledge of mathematics, science and engineering concepts to the solution of engineering problems.
b) Design a system; component and process to meet the required needs within realistic constraints.
c) Design and conduct experiments as well as analyze and interpret data.
d) Identify, formulate and solve fundamental engineering problems.
e) Use the techniques, skills, and appropriate engineering tools, necessary for engineering practice and project management.
f) Work effectively within multi-disciplinary teams.
g) Communicate effectively.
h) Consider the impacts of engineering solutions on society & environment.
i) Demonstrate knowledge of contemporary engineering issues.
j) Display professional and ethical responsibilities; and contextual understanding
k) Engage in self- and life- long learning.
l) Demonstrate inductive reasoning abilities, figuring general rules and conclusions about seemingly unrelated events
m) Use current advanced techniques, skills, and tools necessary for computing practices to specify, design, and implement computer-based systems.
n) Recognize the information requirements of various business activities on both operational and decision making levels.
o) Tackling business problems using system analysis tools and techniques.
p) Managing projects related to computer systems in diverse fields of applications.
q) Implementing phases of the computer system development life cycle, procurement and installation of hardware, software design, data manipulation and system operations

Program Structure

The program consists of 180 credit hours divided on 10 semesters as per the following reference study plan.

Semester 1, Level 0, Credits = 18

Semester 2, Level 0, Credits = 18

Semester 3, Level 1, Credits = 18

Semester 4, Level 1, Credits = 19

Semester 5, Level 2, Credits = 18

Semester 6, Level 2, Credits = 18

Semester 7, Level 3, Credits = 17

Semester 8, Level 3, Credits = 18

Semester 9, Level 4, Credits = 19

Semester 10, Level 4, Credits = 17

Chemical Engineering Program

Program Aim

The program aims to graduate Chemical Engineers who are able to analyze and design elements and structural systems that attain the design purposes and to ensure the safety and comfort of users. Their work focuses on the safety, economic and environmental aspects. Structural engineer working on creating and design powerful structures that resist permanent loads as well as temporary loads resulting from wind, earthquakes and heat to prevent any structural problems.
The graduates of the program will be able to:
a) Apply knowledge of mathematics, science and engineering concepts to the solution of engineering problems.
b) Design a system; component and process to meet the required needs within realistic constraints.
c) Design and conduct experiments as well as analyze and interpret data.
d) Identify, formulate and solve fundamental engineering problems.
e) Use the techniques, skills, and appropriate engineering tools, necessary for engineering practice and project management.
f) Work effectively within multi-disciplinary teams.
g) Communicate effectively.
h) Consider the impacts of engineering solutions on society & environment.
i) Demonstrate knowledge of contemporary engineering issues.
j) Display professional and ethical responsibilities; and contextual understanding
k) Engage in self- and life- long learning.
l) Build upon sound foundation in mathematics and other request science
m) Utilize and manage resources creatively through effective analysis and interpretation.
n) Recognize the potential and applicability of computer based methods in chemical engineering design.
o) Draw upon a basic knowledge of chemical process industries.
p) Address the issues of process dynamics and control in plant operation.
q) Plan and execute research work, evaluate outcomes and draw conclusions.
r) Relate chemical reactions and their characteristics to process industries.
s) Engage in safe laboratory practice.
t) Apply knowledge and skills to respond to the recent technological changes.
u) Identify and control the impact that chemical engineering has on society from an environmental, economic, social and cultural point of view.
v) Recognize the challenging role and responsibilities of the professional engineer, while abiding by the ethics of the profession7.2 Program Structure
The program consists of 180 credit hours divided on 10 semesters as per the following reference study plan.

Semester 1, Level 0, Credits = 18

Semester 2, Level 0, Credits = 18

Semester 3, Level 1, Credits = 16

Semester 4, Level 1, Credits = 16

Semester 5, Level 2, Credits = 19

Semester 6, Level 2, Credits = 17

Semester 7, Level 3, Credits =20

Semester 8, Level 3, Credits = 18

Semester 9, Level 4, Credits = 20

Semester 10, Level 4, Credits = 18

Program Aim

The program aims to graduate Petrochemicals Engineers who are able to analyze and design elements and Petrochemicals systems that attain the design purposes and to ensure the safety and environmental aspects. Their work focuses on the safety, economic and environmental aspects.
The graduates of the program will be able to:
a) Apply knowledge of mathematics, science and engineering concepts to the solution of engineering problems.
b) Design a system; component and process to meet the required needs within realistic constraints.
c) Design and conduct experiments as well as analyze and interpret data.
d) Identify, formulate and solve fundamental engineering problems.
e) Use the techniques, skills, and appropriate engineering tools, necessary for engineering practice and project management.
f) Work effectively within multi-disciplinary teams.
g) Communicate effectively.
h) Consider the impacts of engineering solutions on society & environment.
i) Demonstrate knowledge of contemporary engineering issues.
j) Display professional and ethical responsibilities; and contextual understanding
k) Engage in self- and life- long learning.
l) Build upon sound foundation in mathematics and other request science
m) Utilize and manage resources creatively through effective analysis and interpretation.
n) Recognize the potential and applicability of computer based methods in chemical engineering design.
o) Draw upon a basic knowledge of chemical process industries.
p) Address the issues of process dynamics and control in plant operation.
q) Plan and execute research work, evaluate outcomes and draw conclusions.
r) Relate chemical reactions and their characteristics to process industries.
s) Engage in safe laboratory practice.
t) Apply knowledge and skills to respond to the recent technological changes.
u) Identify and control the impact that chemical engineering has on society from an environmental, economic, social and cultural point of view.
v) Recognize the challenging role and responsibilities of the professional engineer, while abiding by the ethics of the profession.Program Structure
The program consists of 180 credit hours divided on 10 semesters as per the following reference study plan.

Semester 1, Level 0, Credits = 18

Semester 2, Level 0, Credits = 18

Semester 3, Level 1, Credits = 16

Semester 4, Level 1, Credits = 16

Semester 5, Level 2, Credits = 19

Semester 6, Level 2, Credits = 17

Semester 7, Level 3, Credits = 20

Semester 8, Level 3, Credits = 18

Semester 9, Level 4, Credits = 20

Semester 10, Level 4, Credits = 18