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PROGRAM DETAILS
Duration18 months (full time)
Fees
€9,000 for whole program
LanguageEnglish
CampusNicosia
DOWNLOAD BROCHUREThe enforcement of the European Directives on the Liberalization of the Electricity and Natural Gas Markets, on the promotion of green, environmentally friendly technologies to convert sustainable energy resources, as well as on the energy efficiency of buildings and systems provides, for the first time, a set of integrated regulatory tools, towards a holistic approach of energy use, considering energy, environmental and economic parameters of energy policies and their implementation. Also Cyprus is anticipated in the following years to become an energy hub in the southern Europe and the MENA region, through the exploitation of its off-shore conventional energy resources. The master’s degree in Energy Engineering is a taught multi-disciplinary international programme suitable for applicants from engineering, architecture, planning and other relevant backgrounds. It is intended to investigate the latest design developments not only in the international scientific field, but also in the European and national regulatory and legal framework. Students will be acquainted with the required knowhow for monitoring and evaluating the energy efficiency of building systems, buildings, renewable and conventional energy systems including Oil & Gas, and of indoor environmental quality conditions, in accordance to legal and best-practice requirements, so as to be able to focus on the field of energy engineering. The programme consists of two specializations:
(1) Sustainable Energy Resources
(2) Sustainable Built Environment
The main objectives of the programme are:
a) tο help students develop detailed knowledge and critical understanding of the core skills in rational use of energy resources, conventional (oil & gas) and renewable, in the power generation and in the building sector
b) to prepare the students in the fields of energy production, rationale energy management,
c) to educate students in the energy design of buildings and in achieving high energy efficiency of new and existing buildings;
d) to support students to obtain an in-depth comprehension of the economics of energy, including the security of supply aspects, environmental costs and other externalities;
e) to assist students to develop detailed knowledge on the environmental assessment of performance of buildings and power production sites;
f) to provide to the students the expertise demanded by the necessity to implement the range of European Directives and national legislative acts in the energy and building sector and in the efficient use of conventional and renewable energy resources;
g) to educate students in the use of advanced computational tools in the field of sustainable energy, such as Building Energy Performance Tools (BEPs), Building Information Modelling Tools (BIM) and Geographic Information Systems (GIS)
h) to assist students to critically review existing practice and develop original and creative solutions to problems within the energy sector and the domain addressed by the programme, incorporating the marketing approach in order to capitalize on the solutions developed;
i) to provide to the students the conditions to communicate and work effectively with peers and academic staff in a variety of tasks, demonstrating appropriate levels of autonomy and responsibility.
1. Become familiar with the content and philosophy of the European and Cypriot legislative framework on the field of energy and to understand the processes and factors that lead to its development;
2. Understand the contemporary global, regional and local energy issues and develop systemic, critical and creative thinking about their impact on economic activities;
3. Acquire skills and experiences necessary for engineers who will lead the fields Oil & Gas extraction, processing, storage and exploitation in efficient and clean power generation technologies, of rational use of energy, of renewable energy systems, of energy design of buildings and of evaluating and improving a building's energy performance;
4. Become familiar with the procedures, instrumentation and analysis needed to enforce pertinent legislation, enhance the issuance of energy-related certification, and better facilitate the environ-mental labelling procedure and perform feasibility analysis;
5. Be able to use effectively state-of-the-art software tools for energy design of buildings, for dynamic simulation of the building's performance, for the evaluation of thermal comfort and indoor air quality conditions and for the optimization of sustainable energy systems' selection and sizing;
6. Become familiar with the processes followed for the development of energy, environmental and sustainability policies;
7. Be able to gather information about the main local and international funding opportunities for improving the energy efficiency of residential, commercial and public buildings and infrastructure;
8. Obtain the necessary knowledge background so that they can become chartered in the professional chambers and association;
9. Be capable of using research results in education, within their professional environments and in society.
The degree greatly enhances the employability of our graduates in public and semi-public organisations, whose work is related to the implementation of energy and environment related legislation and to the operation of the energy market, or in the power generation, the construction and the building materials industries.
The implementation of the Energy Performance Directive in Buildings in 2010 in Cyprus was followed by the increasing demand for more energy efficient buildings, which at the same time ensure a high level of indoor environmental quality. Buildings have to be characterized by the respective energy and environmental studies and certifications and this sets new challenges for engineers and architects, opening at the same time new professional opportunities in the European market for energy professionals. Further, in light of the new developments of oil & gas exploration in the Exclusive Economic Zone of Cyprus, and the immediate needs of providing skilled engineers to support the whole planning and operation, the Degree will allow our Graduates to first penetrate the area and become leaders in this effort.
According to the University’s regulations candidates for a master degree must submit a recognized bachelor degree or qualification deemed to be equivalent to degree level, in the areas of Engineering, Enviromental and/or natural sciences, as well as the official transcripts (grade reports) of their first-degree studies. In addition, there could be special requirements for various master programs. Each School or Department can specify further admissions criteria such as a minimum average grade, or measures such as foundation courses for each program of study.
It is likely that the number of candidates may be greater than the maximum number of students that can be admitted to the Program. In this case additional criteria for the selection of the students would be:
a) Bachelor's Degree Overall, and Upper-Class, Grade Point Average;
b) professional experience;
c) candidate’s involvement in courses and activities related to sustainable energy systems, environmental issues and sustainable development;
d) knowledge and experience in the use of Information and Communication Technologies.
Recognition of Prior Learning
Candidates who have completed university level work in an accredited program are eligible to apply for transfer admission. Candidates can be granted transfer credits according to the general arrangements for recognition of prior learning of the University.
Such candidates should, along with their application form, submit the following documents:
• Official transcripts (grade reports) and syllabi (course descriptions) for all University coursework taken to date.
Transcripts are evaluated by an ad-hoc Transfer Committee consisting of the Program supervisor and two other academic staff members, in order to determine the number of credits to be transferred, in accordance with the MSc in Energy Engineering program curriculum requirements.
Transfer students, regardless of the number of credits transferred should complete at least two thirds (2/3) of the ECTS credits required by the program of study at Frederick University in order to be eligible for graduation. For a 1 ½ -year 90 ECTS program, a transfer student must complete a minimum of one (1) year full time study (60 ECTS) in the MSc in Energy Engineering program in order to be eligible for graduation. Restrictions set by professional bodies such as the Cyprus Scientific and Technical Chamber (ΕΤΕΚ) are also taken into consideration.
There are no specific examination regulations, assessment and grading methods employed by this Program. The examination regulations, assessment methods and grading system for this Program are the same as the relevant general university regulations.
Graduation Requirements
Students are eligible for graduation after successfully completing 90 ECTS credits in the courses listed in the Program Structure.
Furthermore, a student can graduate only if their CGPA is greater or equal to 5.00 out of 10.00. Graduating students with a CGPA less than 5.00 might have to take extra courses or repeat a number of courses in order to improve their grades.
Access to Further Studies
The graduates of the Program have access to postgraduate doctorate studies in disciplines related with the discipline of engineering.
Specialization: Sustainable Energy Resources
Module Group
ECTS
The student must successfully complete 30 ECTS, from the following list of modules:
| No. | Code | Name | ECTS | Hours / week |
|---|---|---|---|---|
| 1 | MEER501 | ENERGY ECONOMICS | 10 | 3 |
| 2 | MEER502 | ENVIRONMENTAL IMPACT: LEGISLATION AND STANDARDS | 10 | 3 |
| 3 | MEER503 | ENERGY AND ENVIRONMENTAL POLICIES | 10 | 3 |
| 4 | MEER504 | INTRODUCTION TO OIL AND GAS EXPLORATION AND EXPLOITATION | 10 | 3 |
| 5 | MEER505 | LNG PROCESSING, STORAGE, TRANSPORT AND DISTRIBUTION | 10 | 3 |
| 6 | MEER506 | MANAGING RISKS AND CRISES IN THE ENERGY INDUSTRY | 10 | 3 |
Total
90
Semesters
ECTS
| No. | Code | Name | ECTS |
|---|---|---|---|
| 1 | MEE500 | FUNDAMENTALS IN ENERGY ENGINEERING | 10 |
| 2 | MEE510 | SUSTAINABLE ENERGY RESOURCES | 10 |
| 3 | MEE520 | SUSTAINABLE BUILT ENVIRONMENT | 10 |
| TOTAL | 30 |
| No. | Code | Name | ECTS |
|---|---|---|---|
| 1 | MEE530 | MASTER THESIS PROPOSAL | 10 |
| 2 | TECHNICAL ELECTIVE | 10 | |
| 3 | TECHNICAL ELECTIVE | 10 | |
| TOTAL | 30 |
| No. | Code | Name | ECTS |
|---|---|---|---|
| 1 | MEE540 | MASTER THESIS | 20 |
| 2 | TECHNICAL ELECTIVE | 10 | |
| TOTAL | 30 |
Specialization: Sustainable Built Environment
Module Group
ECTS
The student must successfully complete 30 ECTS, from the following list of modules:
| No. | Code | Name | ECTS | Hours / week |
|---|---|---|---|---|
| 1 | MEEB501 | ENERGY ECONOMICS | 10 | 3 |
| 2 | MEEB502 | ENVIRONMENTAL IMPACT: LEGISLATION AND STANDARDS | 10 | 3 |
| 3 | MEEB503 | ENERGY AND ENVIRONMENTAL POLICIES | 10 | 3 |
| 4 | MEEB504 | ENERGY DESIGN OF BUILDINGS AND ENERGY AUDITS | 10 | 3 |
| 5 | MEEB505 | BUILDING ENVIRONMENTAL DESIGN TOOLS – BUILDING INFORMATION MODELLING | 10 | 3 |
| 6 | MEEB506 | BUILDING ENVIRONMENTAL DESIGN TOOLS – GEOGRAPHIC INFORMATION SYSTEM | 10 | 3 |
Total
90
Semesters
ECTS
| No. | Code | Name | ECTS |
|---|---|---|---|
| 1 | MEE500 | FUNDAMENTALS IN ENERGY ENGINEERING | 10 |
| 2 | MEE510 | SUSTAINABLE ENERGY RESOURCES | 10 |
| 3 | MEE520 | SUSTAINABLE BUILT ENVIRONMENT | 10 |
| TOTAL | 30 |
| No. | Code | Name | ECTS |
|---|---|---|---|
| 1 | MEE530 | MASTER THESIS PROPOSAL | 10 |
| 2 | TECHNICAL ELECTIVE | 10 | |
| 3 | TECHNICAL ELECTIVE | 10 | |
| TOTAL | 30 |
| No. | Code | Name | ECTS |
|---|---|---|---|
| 1 | MEE540 | MASTER THESIS | 20 |
| 2 | TECHNICAL ELECTIVE | 10 | |
| TOTAL | 30 |
The delivery of the program of study is supported by the following members of staff:
| Rank | Name |
|---|---|
| Professor | Prof. Christodoulos Christodoulou |
| Professor | Prof. George Karagiorgis |
| Associate Professor | Dr. Christos Anastasiou |
| Associate Professor | Dr. Nicolas Christofides |
| Associate Professor - Programme Coordinator | Dr. Paris Fokaides |
| Associate Professor | Dr. Byron Ioannou |
| Associate Professor | Dr. Michalis Menicou |
| Assistant Professor | Mr. Nicos Georgiou |
| Assistant Professor | Dr. Grigoris Kalnis |
| Visiting Professor | Prof. Agis Michael Papadopoulos |
| Visiting Lecturer | Dr. Nicolas Droushiotis |
| Visiting Lecturer | Dr. Aikaterini Meresi |
| Special Teaching Staff | Mr. Flouris Xeni |
| Special Teaching Staff | Ms. Funda Zaim |
| Lab Assistant | Mr. Joseph Georgiou |
One of the most valuable experiences Frederick has offered me is joining the peer tutoring program. When you become a tutor, you are given the opportunity to teach and guide other students, gaining a lot yourself, since it helps you grow and develop on different levels.
