Welcome from the department's staff! Welcome to the Department of Electrical Energy Engineering at the British University in Egypt (BUE). We, the department's staff, want to do everything that can to help you make your studies both fruitful and enjoyable. The main objective of the electrical energy engineering programme at the BUE is to provide the basic under- graduate education required for industrial and public practice in Renewable energy engineering, or for continued education. provides state-of-the-art equipment and resources necessary to the study of Renewable Electrical Energy, or for continued education.

Why Renewable Electrical Energy Engineering? Renewable electrical energy engineering combines science, technology, engineering and mathematics. Renewable electric energy engineering provides a state of the art equipment and resources necessary to the study of Renewable Electrical Energy. Students study the basic concepts representing the core threads of the programme. In addition, students acquire essential skills in technical report writing and data presentation, skills which will help them in later study years. They learn key information about energy network Design and control of energy plants. They are introduced to the key issues of power generation and conservation systems. More skills are acquired through industrial training.

Prgramme Brief: 

Preparatory Year

Upon successful completion of the Preparatory Year and satisfying the entry requirements of the Renewable Electrical Energy programme, students admitted to the Renewable Energy Engineering Department will be enrolled for four years.

Degree Year 1

In this year, students study the basic concepts representing the core threads of the programme; mainly physics, calculus, differential equations, measurements, material sciences, physical chemistry, introduction to renewable energy systems and electrical circuits and electrical machines. In addition, students acquire essential skills in technical report writing and data presentation, skills which will help them in later study years.

Degree Year 2

Students develop their knowledge, understanding and skills in probability and statistics, numerical methods, fluid mechanics, energy and environmental issues, basics of electronic circuits and storage technologies. In addition, students begin to learn the essential key issues of management and economics its implementation in their study area.

Degree Year 3

Students develop their skills in electrical energy systems and are introduced to several energy systems in terms of energy transmission, data acquisition and system analysis and maintenance. They learn key information about energy network Design and control of energy plants. They are introduced to the key issues of power generation and conservation systems. More skills are acquired through industrial training.

Degree Year 4

Students continue to develop their skills in electrical energy systems. They develop knowledge and skills in environmental risk analysis. They apply their knowledge, understanding and skills in two main pieces of work: a research project and a design project. In addition, they have a choice of three optional modules to strengthen their fields of interest. To enhance students skills , the progaramme offers special courses in high voltage engineering, power electronics, power system protection integration , transmission of energies and advanced electrical machine study.
 
Welcome from the department's staff! Welcome to the Department of Mechanical Energy Engineering at the British University in Egypt (BUE). We, the department's staff, want to do everything that can to help you make your studies both fruitful and enjoyable. The main objective of the Mechanical energy engineering programme at the BUE is to provide the basic under- graduate education required for industrial and public practice in Renewable energy engineering, or for continued education. provides state-of-the-art equipment and resources necessary to the study of Renewable Mechanical Energy, or for continued education.

Why Renewable Mechanical Energy Engineering? Renewable Mechanical energy engineering combines science, technology, engineering and mathematics. Renewable electric energy engineering provides a state-of-the-art equipment and resources necessary to the study of Renewable Mechanical Energy. Students study the basic concepts representing the core threads of the programme. In addition, students acquire essential skills in technical report writing and data presentation, skills which will help them in later study years. They learn key information about energy converters Design and control of energy plants. They are introduced to the key issues of power generation and conservation systems. More skills are acquired through industrial training.

Programme Brief:

Preparatory Year Upon successful completion of the Preparatory Year and satisfying the entry requirements of the Renewable Electrical Energy programme, students admitted to the Renewable Energy Engineering Department will be enrolled for four years.

Degree Year 1 Renewable Energy Engineering Programme (Mechanical Energy) Students will enhance their basic knowledge of renewable energy and mechanical engineering fundamentals, and consolidate their skills through studying compulsory modules distributed over two semesters, namely, Introduction to Renewable Energy Systems, Introduction to Mechatronics & Measurements, Physical Chemistry, Thermodynamics (1), Electrical Circuits, Electrical Machines, Computer Programming, Materials Science, Physics (3), Calculus, Differential Equations, and Technical Report Writing and Communication.

Degree Year 2 Students will study modules over two semesters. Some of these modules are designed to consolidate students’ understanding of mechanical concepts, principles, and skills while others cover simple industrial applications. These modules are: Thermodynamics, Engineering Probability & Statistics, Fluid Mechanics, Quality Control and Technical Report Writing. In addition, students study Machine Design, Dynamics of Machinery, Material Properties & Characterisation, Electrical Machines & Control, Production Technology (3), and Numerical Methods.

Degree Year 3 Students study an optional module plus a set of nine compulsory modules distributed over two semesters. Most modules concentrate on design of systems and/or components for real life engineering applications. Throughout this year students will enhance their knowledge on how to apply Mechanical Engineering fundamentals into different industrial systems.

Degree Year 4 During the fourth year, the students are given the chance to choose 4 elective modules of interest from a wide range of practical modules, as well as, two graduation projects: a group capstone design project, and an individual research thesis. Students may choose to take modules in different fields or select one of the following focus areas: Mechatronics, Materials, Design & Production, Power & Energy, and Automotive & Aeronautics. Students will be guided to choose four optional modules and two graduation projects in these areas.
 
Faculty of Energy and Environmental Engineering (FEEE) Mission Statement:

The mission of the Faculty of Energy and Environmental Engineering is to provide a broad spectrum of education and research to offer nationally and internationally recognized quality degrees in energy and environmental engineering that enable graduates to develop their knowledge, skills and initiative to contribute to community development.

Faculty of Energy and Environmental Engineering (FEEE) Vision Statement:

The Faculty of Energy and Environmental Engineering strives to be regionally recognized as a leading institution which offers students and researchers a variety of internationally accredited energy engineering programmes. The faculty is characterized by professionalism and research as well as its contribution to community development and facing its challenges.


 
Welcome from the department's staff!

Welcome to the Department of Biochemical Engineering at the British University in Egypt (BUE). We, the department's staff, want to do everything that can to help you make your studies both fruitful and enjoyable. The main objective of the Biochemical Engineering programme at the BUE is to provide the basic under- graduate education required for industrial and public practice in Renewable energy engineering, or for continued education. provides state-of-the-art equipment and resources necessary to the study of Renewable Biochemical Engineering, or for continued education.

What is taught in the Department of Renewable Biochemical Engineering?

Renewable Biochemical Engineering combines science, technology, engineering and mathematics. Renewable electric energy engineering provides a state-of-the-art equipment and resources necessary to the study of Renewable Biochemical Engineering. Students study the basic concepts representing the core threads of the programme. In addition, students acquire essential skills in technical report writing and data presentation, skills which will help them in later study years. They learn key information about energy converters Design and control of energy plants. They are introduced to the key issues of power generation and conservation systems. More skills are acquired through industrial training.

Programme Brief: 
Preparatory Year Upon successful completion of the Preparatory Year, and satisfying the entry requirements of the Biochemical Engineering programme, students admitted to this department will be enrolled for four years.

Degree Year 1 Students study basic modules including advanced mathematics, physics, organic and analytical chemistry and energy sources to gain a foundation for future problem analysis. In addition, they cover modules related to the basics of biochemical engineering, fundamentals of microbiology, fundamentals of biochemistry and biomass for biochemical engineering, material engineering and structure and stress analysis; these modules help widen the knowledge of students to support their future development as Biochemical Engineers. The modules provide the capabilities to acquire the underpinning knowledge and analytical skills for process design and engineering.

Degree Year 2 The modules studied provide the focus to enable students to become a Biochemical Engineer. Modules include concepts of mass and energy balances, biophysics, unit operation which are the core of biochemical engineering applications, as well as fluid mechanics, thermodynamics, fundamentals of heat and mass transfer and modeling and simulation.

Degree Year 3 Students focus on the bioreactor design, process plant design, bioremediation of environmental pollution, green fuel, biofuel, bio product, nanotechnology for biochemical engineering experimentations and methods of calculations and analysis of chemical industries. They learn how to design a bioreactor plant in terms of overall performance and petroleum bioprocessing. Additional modules focus on legislation and regulations, foundation of marketing and economics of bioenergy.

Degree Year 4 Students continue to develop their skills in biochemical energy systems. They develop knowledge and skills in environmental risk analysis. They apply their knowledge, understanding and skills in two main pieces of work: a research project and a design project. In addition, they have a choice of four optional modules to strengthen their fields of interest in: process design and simulation, engineering economics, evaluating sustainability, process plant operation, advanced control systems, occupational, health, safety engineering and environmental management systems. Also, students have the opportunity to complete a research project and design project to apply their knowledge and acquired skills to achieve a certain objective for local problems.
 
Welcome to the Faculty of Energy and Environmental Engineering (FEEE) at the British University in Egypt (BUE)

The Faculty of Energy and Environmental Engineering commenced in September, 2018. Validation by UK partner university (LSBU) allows students, who qualify, to be awarded a British degree, in addition to the Egyptian accredited degree. It is the right time to consider a career in energy engineering. The Faculty of Energy and Environmental Engineering at the British University in Egypt is an effective and modern faculty that offers the most diverse range of energy engineering specialisms in Egypt.

The Faculty of Energy and Environmental Engineering is dedicated to produce high calibre engineering graduates who are ready to join local and international renewable energy industries. The undergraduate programmes in FEEE are designed to be completed in four years which follow the preparatory year. By successfully completing the requirements of the preparatory year, students will have the knowledge and skills to enter an FEEE degree programme. The Faculty offers the following programmes :

• BSc (Hons) Renewable Energy Engineering - Mechanical Power

• BSc (Hons) Renewable Energy Engineering - Electrical Energy

• BSc (Hons) Biochemical Engineering.

We provide excellent and high quality teaching and research opportunities that will help students to gain the necessary knowledge in renewable energy and biochemistry. (learn how to think not what to think)

According to our study plan, the student will receive broad and intensive knowledge in renewable energy technologies. The curricula offered in the Faculty of Energy and Environmental Engineering programmes emphasise both theoretical and practical aspects including design and implementation. Students are provided with the theoretical and practical skills that industry and employers require. The programmes also include a number of optional modules that permit the student to undertake further studies in other fields of sustainable technologies.

Our academics and students will engage in research areas such as renewable energy, solar power, wind energy and biomass. We collaborate with researchers around the world from a range of globally recognized universities and institutes. The faculty also offers student activities and field trips to give the student experience and leadership skills.

Please explore our website if you would like to learn more about our staff, research activities and initiatives at the Faculty of Energy and Environmental Engineering. We hope you will join us as we help address some of the most pressing challenges facing the world today.

Professor Attia Attia

Dean, Faculty of Energy and Environmental Engineering