Bachelor of Science Degrees in Energy

Compare 33 Bachelors of Science (BScs) in Energy

Energy

A bachelor’s degree, or BSc, is awarded to students who complete a three to five year course of study. This degree may be the first step on the path to more educational opportunities or it may be the door to a rewarding career in the student’s chosen field.

What is a BSc in energy? There are many different areas of focus in this discipline from which to choose. These include wildlife conservation, petroleum engineering, environment and energy, and sustainable agriculture, just to name a few. Classes might cover subjects such as global and regional energy systems, industrial energy systems, and the energy systems of buildings. Students learn about the relationships between energy, the environment, and the economy.

In a world where more and more people rely on energy to enjoy a certain standard of life, there is a great need for individuals who have a good grasp of the principles that make that energy readily available. Graduates can expect to find a variety of career options in many areas of the world.

The cost of participation in a BSC in energy program can vary widely between schools, particularly as schools are located in many different countries of the world. In order to get accurate information about prices, prospective students should talk directly to the schools of their choice.

After completing the program, graduates enjoy several diverse job opportunities. They are prepared to make critical judgments and to work independently, and are able to apply problem-solving skills to real-life energy problems. Graduates typically find employment with professionals who work in the environmental management sector or as engineers for petroleum companies. They might find careers as researchers who aim to improve crops and to increase sustainable farming.

Admission to this program often requires a good grasp of mathematics and the sciences. In order to find out about other requirements, review the different schools and programs in the following listings. Be ready to provide your information in order to receive information from your preferred schools. Search for your program below and contact directly the admission office of the school of your choice by filling in the lead form.

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BSc in Petroleum and Natural Gas Engineering

Middle East Technical University Northern Cyprus Campus
Campus Full time 8 semesters September 2017 Cyprus Turkish Republic of Northern Cyprus

Petroleum and Natural Gas Engineering Program at the Middle East Technical University (METU) - Northern Cyprus Campus provides a modern education to help students gain strong background about the fundamentals of petroleum and natural gas engineering. [+]

BScs in Energy. BSc in Petroleum and Natural Gas Engineering WELCOME TO METU NCC PETROLEUM AND NATURAL GAS ENGINEERING PROGRAM Petroleum and Natural Gas Engineering Program at the Middle East Technical University (METU) - Northern Cyprus Campus provides a modern education to help students gain strong background about the fundamentals of petroleum and natural gas engineering. Besides enhancement of their scientific and technical knowledge and engineering skills, students are urged to learn how to find solutions for national, international, social and environmental issues related to the petroleum industry. Objectives of the education include all operational techniques; such as drilling, production, and reservoir management for putting subsurface petroleum and natural gas resources and geothermal energy resources to human utilization. It is aimed that, in addition to technical ability, graduates adapt principles of lifetime learning, environmental responsibility and ethical awareness, and that they have sufficient knowledge about the health and safety of employees. Summer practices give students the opportunity to establish the link between theoretical knowledge and practical applications, as well as the recognition of work conditions. The main content of Petroleum and Natural Gas Engineering education can be summarized as follows: Fundamental natural sciences and earth sciences for engineers, The physical and chemical properties and dynamics of petroleum reservoir fluids (oil, gas and formation water), The petrophysical properties of reservoir rocks, The drilling and production of petroleum and natural gas, The economical and effective management of petroleum and natural gas reserves MISSION The mission of the Petroleum and Natural Gas Engineering Program at METU Northern Cyprus Campus is to provide education at the highest standards in the areas of drilling, production and reservoir engineering for the underground energy resources. The program aims to educate tomorrow’s petroleum engineers who would be able to: Apply the knowledge they have gathered effectively into real-world problems Become life-long learners and advance the science and technology Think outside the defined norms, approach to challenging problems from different angles and develop innovative and practical solutions Demonstrate excellent leadership, teamwork, communication and problem solving skills Demonstrate engineering ethics, professionalism, social and environmental awareness CAREER OPPORTUNITIES Petroleum and Natural Gas Engineering graduates will have acquired the necessary education to work in the domains of exploration, drilling, production, transportation, storage and management of petroleum, natural gas and geothermal energy. METU graduates are well recognized with their knowledge and capabilities and been preferable engineers for employment by national and international petroleum companies or others providing high-tech services to them. COURSES PNGE 110 Introduction to Petroleum Engineering (2-0) 2 PNGE 201 General Geology 3-2) 4 PNGE 202 Petroleum Geology (2-2) 3 PNGE 211 Intro. To Fluid Mechanics (3-2) 4 PNGE 218 Reservoir Fluid Properties (2-2) 3 PNGE 220 Reservoir Rock Properties (2-2) 3 PNGE 321 Drilling Engineering I (3-2) 4 PNGE 331 Petroleum Production Engineering I (3-0) 3 PNGE 343 Petroleum Reservoir Engineering I (3-0) 3 PNGE 300 Summer Practice I (-) NC PNGE 322 Drilling Engineering II (3-0) 3 PNGE 344 Petroleum Reservoir Engineering II (3-0) 3 PNGE 352 Well Logging (3-0) 3 PNGE 332 Petroleum Production Engineering II (3-0) 3 PNGE 417 Petroleum Engineering Design I (2-0) 2 PNGE 461 Natural Gas Engineering (3-0) 3 PNGE 411 Petroleum Property Valuation (3-0) 3 PNGE 400 Summer Practice II (-) NC PNGE 418 Petroleum Engineering Design II (1-4) 3 [-]

Bachelor of Science in Earth Systems Sustainability

University of North Alabama
Campus Full time 4 years September 2017 USA Florence

The University of North Alabama Earth Systems Sustainability program leads to a Bachelor of Arts or a Bachelor of Science Degree. The major and minor provide opportunities for students to examine the inter-disciplinary nature of sustainable concerns and practices which continue to emerge and evolve regionally, nationally, and globally. [+]

The University of North Alabama Earth Systems Sustainability program leads to a Bachelor of Arts or a Bachelor of Science Degree. The major and minor provide opportunities for students to examine the inter-disciplinary nature of sustainable concerns and practices which continue to emerge and evolve regionally, nationally, and globally. Majors will develop a broad view of challenges and experience opportunities to develop solutions as they examine the inter-relationships of physical systems and human systems. The undergraduate major is situated in the Earth Sciences; these include--climate, energy, natural resources, food systems, and water issues. Using three basic perspectives of environment, society, and economics, the curriculum requirements allow students to pursue areas of interests through its flexibility. The program prepares the student for graduate studies or for entering careers where knowledge and problem solving skills related to sustainable practice are desired. [-]

BSc in Electrical Engineering

Frederick University
Campus Full time Part time 8 semesters September 2017 Cyprus Nicosia + 1 more

The Program is based on the major electrical engineering disciplines such as electric power generation and distribution, communication systems, electric circuits and electronic systems and control systems. [+]

BScs in Energy. The Program is based on the major electrical engineering disciplines such as electric power generation and distribution, communication systems, electric circuits and electronic systems and control systems. The Program constitutes a balance between academic and the practical directions, i.e. the systems’ theoretical study and their implementation in real world applications. It prepares its graduates for direct employment as electrical engineers and lays the foundation for graduate studies in the field of electrical engineering. Specialization in Renewable Energy Sources and Sustainable Energy Systems The Department of Electrical Engineering, in addition to the general Electrical Engineering direction, offers the option to Electrical Engineering students to specialize in areas of Electrical Engineering that are of increasing importance in the Cyprus, as well as the international environment. To this end, the Department has established the Renewable Energy Sources and Sustainable Energy Systems specialization. The aim of the specialization is to prepare students for careers and immediate contributions to the industry and society through the design, development, construction, application, operation and maintenance of renewable energy systems and the promotion of more sustainable living through the implementation of new technologies and innovations. The language of instruction for both the general direction and the specialization is English. Key Learning Outcomes Apply appropriate mathematical, science and engineering methods and use computer software to solve electrical engineering related problems. Use state-of-the-art Electronic Design Automation (EDA) software and hardware tools, as well as laboratory equipment to design, test and evaluate analogue and digital systems. Design, program, develop and evaluate electronic systems as well as automation systems based on PLCs and embedded systems, or integrated of-the-shelf components to meet defined and specified requirements. Analyze and design reliable analog and digital communication systems. Use analytical methods and modelling techniques to evaluate electrical engineering systems (control, communication, power, electronic) and components in terms of general quality attributes and possible trade-offs presented within the given problem. Evaluate the capabilities and limitations of existing and emerging technologies in the field of power generation and distribution using sustainable and renewable energy sources. Assess the capabilities and limitations of existing and emerging communication systems. Demonstrate awareness on the forefront of knowledge in the field of electrical engineering and on the emerging information and communication technologies. Demonstrate awareness on the role of engineers in society and the professional and ethical responsibilities of engineers. Retrieve and analyze information from different sources, including information retrieval through databases and on-line computer searches. Demonstrate competency in oral and written communication skills, as well as in the use of relevant computing technologies and tools. Occupational Profiles of the Graduates The graduates of the Program have the knowledge and skills required for the design, implementation, and administration of electrical engineering systems. They fulfil the requirements for employment in the public or private sectors as electrical engineers, and they acquire working privileges in the areas of power production and distribution, electrical installations, communication systems design and maintenance. They can also be employed in the industry in areas related to automation systems. The graduates of the Program can also be employed as educators in public or secondary schools with technical direction. The graduates of the program are eligible to register to the Technical Chamber of Cyprus (ETEK). ... [-]

BSc in Environmental and Energy Management

University of Nicosia
Campus Full time 4 years September 2017 Cyprus Nicosia Greece Athens + 2 more

Section: A - Major Requirements. BIOL-110 Elements of Biology. [+]

Academic Path: Section: A - Major Requirements Min. Credits: 72 Max. Credits: 72 Min. ECTS Credits: 144 Max. ECTS Credits: 144 Course Id Title Credits Credits ECTS Teaching Hours BIOL-110 Elements of Biology 3 6 3 CHEM-104 Introduction to Organic and Biological Chemistry 3 6 3 ENEM-105 Introduction to Energy Management 3 6 3 ENEM-110 Energy Technologies for the Future 3 6 3 ENEM-225 Renewable Energy Resources 3 6 3 ENEM-360 European Energy and Environmental Policy 3 6 3 ENEM-370 Energy Storage and Management 3 6 3 ENEM-430 Energy Safety and Risk Management 3 6 3 ENVM-105 Biodiversity 3 6 3 ENVM-110 Ecosystems and Environmental Change 3 6 3 ENVM-210 Geographical Information Systems 3 6 3 ENVM-215 Geographical and Environmental Field Techniques 3 6 3 ENVM-220 Environmental Chemistry 3 6 3 ENVM-230 Spatial Perspectives 3 6 3 ENVM-235 Global Climate Change and Adaptation 3 6 3 ENVM-310 Living in a Changing and Sustainable World 3 6 3 ENVM-315 Investigative Skills and Techniques 3 6 3 ENVM-330 Ecology and Environmental Quality 3 6 3 ENVM-340 Geographical and Environmental Processes 3 6 3 ENVM-350 Fundamentals of Geospatial Information 3 6 3 ENVM-415 Environmental Management Tools (EMS/EIA/Pollution Prevention) 3 6 3 ENVM-450 Implementing Geospatial Information 3 6 3 ENVM-496 Individual Research Project 3 6 3 PHYS-110 Elements of Physics 3 6 3 Section: B - Major Electives Min. Credits: 15 Max. Credits: 27 Min. ECTS Credits: 30 Max. ECTS Credits: 54 Course Id Title Credits Credits ECTS Teaching Hours ENEM-210 Economics of the Energy, Oil and Gas Industry 3 6 3 ENEM-420 Energy Security and Geopolitics 3 6 3 ENEM-480 Special Topics in Environment and Energy 3 6 3 ENVM-240 Physical Systems 3 6 3 ENVM-250 Environmental Economics 3 6 3 ENVM-320 Environmental Law 3 6 3 ENVM-325 Coastal Management 3 6 3 ENVM-380 Air Quality and Waste Management 3 6 3 ENVM-435 Countryside Recreation Management 3 6 3 ENVM-485 Environmental and Energy-Related Internship 3 6 3 Section: C - Language Expression Min. Credits: 9 Max. Credits: 15 Min. ECTS Credits: 18 Max. ECTS Credits: 30 Notes: (1) Placement in the English courses is done on the basis of a Placement Test or tests such as TOEFL or GCE. (2) Students must complete BADM-231 or BADM-332. Course Id Title Credits Credits ECTS Teaching Hours BADM-231 Business Communications 3 6 3 BADM-332 Technical Writing and Research 3 6 3 BENG-100 College English 3 6 6 COMM-200 Business and Professional Communication 3 6 3 ENGL-100 Basic Writing 3 6 3 ENGL-101 English Composition 3 6 3 Section: D - Computer and Math Electives Min. Credits: 6 Max. Credits: 12 Min. ECTS Credits: 12 Max. ECTS Credits: 24 Course Id Title Credits Credits ECTS Teaching Hours COMP-150 Microcomputer Applications 3 6 3 COMP-151 Computer Fundamentals 3 6 3 MATH-105 Intermediate Algebra 3 6 3 MATH-221 Statistics I 3 6 3 Section: E - Humanities and Social Sciences Electives Min. Credits: 6 Max. Credits: 12 Min. ECTS Credits: 12 Max. ECTS Credits: 24 Course Id Title Credits Credits ECTS Teaching Hours ANTH-105 Cultural Anthropology 3 6 3 ART-111 Greek Art 3 6 3 ESCI-200 Society and Environment 3 6 3 EUS-105 Introduction to the European Union 3 6 3 SOC-101 Principles of Sociology 3 6 3 THOM-310 Cultural Geography 3 6 3 [-]

Bachelor of Science in Mechanical Engineering

Northern Illinois University
Campus Full time 4 years September 2017 USA DeKalb

The Department of Mechanical Engineering offers an upper-division curriculum which leads to a B.S. degree in mechanical engineering. The curriculum is based on a strong foundation of fundamental courses in the pure sciences and engineering, and professional courses in mechanical engineering. [+]

BScs in Energy. The Department of Mechanical Engineering offers an upper-division curriculum which leads to a B.S. degree in mechanical engineering. The curriculum is based on a strong foundation of fundamental courses in the pure sciences and engineering, and professional courses in mechanical engineering. The curriculum also provides a background in the design, analysis, development, and applications of both complete mechanical systems and a wide variety of individual system components in many different fields. The B.S. degree program offered by the Department of Mechanical Engineering encompasses many areas, such as solid mechanics, dynamics and controls, fluid mechanics, thermodynamics, heat and mass transfer, energy conversion, and manufacturing. This background is strengthened and integrated through application in a sequence of broad engineering design and laboratory courses. The department has significant equipment for experimental investigations. Computers are used extensively throughout the curriculum, with emphasis on interactive computer-aided design, computer-aided manufacturing, and simulation of engineering systems. The Cooperative Education/Internship Program is also available to qualified students. Emphasis 1: Advanced Computing and Simulation Students will learn how to simulate reality within a computer generated environment that simulates 3D reality which is achieved by using visual and auditory stimuli with which someone can interact to affect what happens in the simulation. Students use a computer game that simulates the real acidity of the "Formula Car" to improve quality of the vehicle during competition. The understanding and construction of mathematical models to create such a virtual reality is an essential component of computational methodology. The department also offers an integrated B.S./M.S. degree sequence that leads to a M.S. degree in mechanical engineering after students received a B.S. degree in mechanical engineering. With approval, up to three technical electives taken in the last semester of the B.S. degree program can be counted toward the M.S. degree program. Students who are interested in the B.S./M.S. degree sequence should refer to the Graduate Catalog for details. Emphasis 2: Mechatronics and Robotics Mechatronics engineering is the design of computer-controlled electromechanical systems,. It is viewed as "modern mechanical engineering design" as the mechanical system must be performed together with that of electrical and computer control aspects that comprise the complete system. Examples include: a robot, a CD or DVD player, a computer hard disk drive, a fly-by-wire aircraft control system, and an anti-lock brake system. While these products are essentially mechanical in nature, but cannot function without the integral design of the electrical and computer control systems that are critical to their operation. This emphasis combines mechanics, robotics, electronics, automation, and computers to prepare students to work with electromechanical and automated equipment for industrial and commercial products. Emphasis 3: Sustainable Energy Technological advances in energy generation and sustainable conservation are becoming increasingly more important aspects within the field of mechanical engineering. This emphasis will enable students on both ends of the energy spectrum from source to utilization. Sustainable Energy students can gain and understanding of energy conservation and environmental sustainability, alternative and renewable energy, propulsion, and refrigeration and air conditioning. Mission The mission of the Mechanical Engineering Department is to provide a high-quality, visionary engineering education that reflects professional engineering standards and prepares students to become engineers and leaders capable of solving technical challenges that industry and society face now and in the future; to conduct quality research by developing and/or applying engineering knowledge and tools to address society's technical needs and challenges; and to provide quality professional and public services to our communities. Educational Objectives The undergraduate mechanical engineering program is designed to prepare students for successful careers in engineering by providing them with the following: a balanced education in mechanical engineering fields; a foundational knowledge in mathematics and physical sciences; a broad general education in the humanities/arts, social sciences and interdisciplinary studies; training for effective communication and team work; and an understanding and commitment of an engineer's professional and ethical responsibilities. Our educational objectives are based on the needs of the program's constituencies: employers, alumni, students and faculty. We expect our graduates to attain the following educational objectives within a few years of graduation: 1. to become successful professionals; 2. to successfully apply engineering knowledge and tools to solve technical problems and challenges, and to design and/or manufacture valuable products or processes; 3. to make contributions to their professional fields, exhibit effective communication skills, and become valuable team members; and 4. to continue professional development and assume professional and leadership responsibility. Program Outcomes The graduates of undergraduate mechanical engineering program should attain the following outcomes by the time of graduation: An ability to apply knowledge of mathematics, science, and engineering An ability to design and conduct experiments, as well as to analyze and interpret data An ability to design a system, component, or process to meet desired needs within realistic constraints such as scheduling, economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability An ability to function on multi-disciplinary teams An ability to identify, formulate, and solve engineering problems An understanding of professional and ethical responsibility An ability to communicate effectively and professionally The broad education necessary to understand the impact of engineering solutions in a global and societal context Recognition of the need for, and an ability to engage in life-long learning Knowledge of contemporary issues An ability to use the techniques, skills, and modern engineering tools necessary for engineering practice. 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BSc in Environmental and Sustainability Studies

Northern Arizona University
Campus Full time 4 years September 2017 USA Flagstaff

Students who are interested in the environment and the issues at its crux will enjoy the pursuit of this degree. Crucial issues of sustainability, diversity, and change are interwoven through the program [+]

Available Emphasis Areas: Global Sustainability - Emphasis Southwest Environments and Biocultural Diversity - Emphasis Students who are interested in the environment and the issues at its crux will enjoy the pursuit of this degree. Crucial issues of sustainability, diversity, and change are interwoven through the program. What Can I Do with a Bachelor of Science in Environmental and Sustainability Studies? Issues of sustainability, climate change adaptation and mitigation, environmental justice, biodiversity, and increasing demand for finite food, water, and energy resources become more critical every day. To better understand-and improve-our relationship with the natural world, consider the environmental studies program at Northern Arizona University. Here, you will study ecosystems and the ways humans interact with them using the perspectives of the natural and social sciences and the humanities. You will work extensively with full-time professors who have practical experience in the environmental sciences and sustainability. You'll have many opportunities for field study and research; our faculty members include undergraduate students in all research projects, and you will be required to complete an undergraduate research project or internship. You will learn how to develop solutions for these issues and prepare for a career in research, industry, education, government, or public service. Career opportunities that might be pursued: Sustainability coordinator Conservation biology Community-supported agriculture Environmental education and communication Resource management, assessment, and protection Air, water, and soil quality monitoring Renewable energy design and construction With further education, one of these paths is possible: Communicator/journalist/educator Community organizer Researcher Resource, park or forest manager Environmental administrator University professor University Requirements To receive a bachelor's degree at Northern Arizona University, you must complete at least 120 units of credit that minimally includes a major, the liberal studies requirements, and university requirements as listed below. All of Northern Arizona University's liberal studies, diversity, junior-level writing, and capstone requirements. All requirements for your specific academic plan(s). At least 30 units of upper-division courses, which may include transfer work. At least 30 units of coursework taken through Northern Arizona University, of which at least 18 must be upper-division courses (300-level or above). This requirement is not met by credit-by-exam, retro-credits, transfer coursework, etc. A cumulative grade point average of at least 2.0 on all work attempted at Northern Arizona University. Campus Availability Flagstaff [-]

BSc in Oil & Gas Engineering

International Studies Ltd
Online & Campus Combined Full time Part time 2 - 3 years February 2017 United Kingdom London UK Online + 2 more

The programs in Oil & Gas Engineering aim at giving a thorough analysis and understanding of problems, challenges and solutions associated with all parts of the supply chains dealing with the oil and gas industry, on-shore as well as off-shore: petroleum fundamentals and exploration, reservoir characterisation, reservoir engineering and simulation, well engineering, purchasing, production planning, design of pressure systems, unconventional resources, inventory management and downstream distribution planning, energy economics management and risk analysis. [+]

BScs in Energy. The Meaning of Oil & Gas Engineering Oil & Gas Engineering is a field of engineering concerned with the activities related to the production of hydrocarbons, which can be either crude oil or natural gas. Exploration and manufacturing activities are the oil and gas industry's two main disciplines: they focus on maximizing economic recovery of hydrocarbons from subsurface reservoirs and on their processing, distribution and transportation. The Skills of Oil & Gas Engineers Oil & gas engineers locate, recover, and maintain the world's oil and gas supplies. First of all they are the innovators who use cutting-edge technology to create new methods of discovering and drilling for oil. Besides, as industrial specialist, oil & gas engineers work directly for pressure systems manufacturers, petrochemical corporations, materials processors, large construction contractors, large industrial product consumers or the wholesale distributors that service these industries. Although there are various job descriptions, oil & gas engineers all serve one function-to provide the world with energy, while safeguarding the environment for future generations. The Workplace of Oil & Gas Engineers Oil & gas engineers often work on offshore drilling platforms, in oil fields and reserves and in distributing plants around the world. Some of the duties include recording and updating information on all drilling and processing activities, ensuring compliance with laws and regulations, determining the most productive locations, taking responsibility for safety and efficiency, ensuring well maintenance, interpreting results, ensuring efficient well flow, overlooking the removal of all waste and equipment from drill sites, designing pressure systems for the storage and distribution of oil and gas. Most careers involve a combination of office-based and advanced, computer-oriented technology work. Plus, oil & gas engineers typically have numerous opportunities to travel across the globe for a variety of work-related projects. The world will always need energy. Oil & gas engineers must answer the call to find innovative technologies and new resources to meet the increasing demands for energy: they will also lead the way into the future and will have the opportunity to truly make a difference. This is an exciting and unique time to join the industry. Our Study Plan in Oil & Gas Engineering This program in Oil & Gas Engineering aims at giving a thorough analysis and understanding of problems, challenges and solutions associated with all parts of the supply chains dealing with the oil and gas industry, on-shore as well as off-shore: petroleum fundamentals and exploration, reservoir characterisation, reservoir engineering and simulation, well engineering, purchasing, production planning, design of pressure systems, unconventional resources, inventory management and downstream distribution planning, energy economics management and risk analysis. Along with knowledge of a broad range of logistics topics, the program gives an understanding of the energy situation in the world comparing existing renewable energy sources, as well as non-renewable sources both in terms of costs, qualities and availability. The candidates will use a mixture of lectures, tutorials, laboratory sessions and project work and in addition they spend significant time in our laboratories, as well as in private study directed by lecturers. Place This course can be supplied completely online or in blended mode (online and classroom) in London Start date February 2017 Duration 2 up to 3 years (depending from previous credit hours) Price 5.500 GBP/year (study material, tutoring and use of daily facilities included) [-]

B.Sc. Environmental Engineering

Warsaw University of Technology
Campus Full time 4 years October 2017 Poland Warsaw

Environmental Engineering programme prepares students to work in enterprises, administration, planning and design offices or consulting companies. [+]

Faculty of Building Structures, Hydro and Environmental Engineering Faculty of Building Structures, Hydro and Environmental Engineering offers the following programmes conducted in English: Bachelor of Science in Engineering 4-year undergraduate programme in the area of: Environmental Engineering Environmental Engineering Environmental Engineering programme prepares students to work in enterprises, administration, planning and design offices or consulting companies. The first three semesters of the programme provide students with basic knowledge of mathematics, physics, chemistry and biology at the university level. In addition, several engineering basic courses are offered to give students comprehensive understanding of environmental issues. The scientific and engineering courses are complemented by social sciences and humanities subjects to broaden the study perspectives as well as prepare students for professional interaction with people. The next four semesters cover specific topics within the field of environmental engineering. The eighth semester is devoted mostly to the professional internship, working on the final project and preparation of the B.Sc. thesis, in which students use their knowledge to analyse and find a proper solution to a given problem. Sample modules/Keywords: HES (Work Environment Protection, Basics of Law and Economics, Economics and Law in Environmental Engineering), Mathematics, Physics, Chemistry, Biology and Ecology, Information Technology, Environment Protection, Descriptive Geometry and Engineering Graphics, Strength of Materials and Mechanics of Constructions, Material Engineering, Surveying, Informatics, Thermodynamics, Fluid Mechanics, Hydrology, Civil Engineering and Constructions, GIS, Statistics in Environmental Sciences, Meteorology, Soil Protection, Engineering Hydrology and Hydrogeology, Environmental Chemistry, Environmental Biology, Air Pollution Control, Meteorological Measurements and Remote Sensing, Solid Waste Management, Energy Systems and Environment, CAD of Heating and Water Supply Systems, Integrated Water Resource Management, Air Pollution Dispersion Modelling, Renewable Energy Systems, Water Resources Protection, Municipal and Industrial Waste Water Treatment, Environmental Impact Assessment, Professional internship. [-]

BS in Petroleum Engineering

American University of Ras al Khaimah
Campus Full time 4 years September 2017 United Arab Emirates Ras Al Khaimah

Energy is a key component in modern civilization. Since the drilling of the first commercial oil well in 1858, petroleum engineers and geoscientists engineers have supplied the world with the number one source of energy – crude oil and natural gas. [+]

BScs in Energy. Energy is a key component in modern civilization. Since the drilling of the first commercial oil well in 1858, petroleum engineers and geoscientists engineers have supplied the world with the number one source of energy – crude oil and natural gas. Economic and environmentally safe production of petroleum resources requires the creative application of a wide spectrum of knowledge, including: Basic sciences: mathematics, physics, chemistry and geology. Major engineering subjects: mechanical, chemical, and civil engineering, as well as computer science. R&D fields: nano-technology, advanced materials science, numerical simulation, molecular dynamics, etc. As a petroleum engineer, you will enjoy a lucratively high-salary* as you evaluate potential oil and gas reservoirs, design and manage drilling activities, enhance hydrocarbon production methods, and design surface pipeline systems and treatment facilities. Petroleum engineers increasingly use advanced computers, not only in analysis of exploration data and simulation of subterranean reservoir dynamics, but also in automation of oilfield production and drilling operations. Petroleum companies own many of the world’s supercomputers. Career Opportunities Jobs where your degree would be useful include: National oil companies ADNOC, Saudi Aramco, KNOC (Kuwait), Petronas (Malaysia) International oil companies (ExxonMobil, BP, Shell, Chevron) Geothermal energy companies (USA, Australia, Iceland, Turkey, Japan) Investment banks Petro-chemical industries Environmental agencies Regional and private oil and gas companies all over the world Jobs directly related to your degree include: Drilling engineer Reservoir engineer Production engineer Well control engineer Petrophysicist Well completion engineer Workover engineer Mud engineer Environmental engineer Geomechanics specialist Product/process development scientist Admissions Criteria American / Canadian Diploma UAE / GCC / Egyptian Secondary School Certificate UAE / GCC / Egyptian Secondary School Certificate British IGCSE / GCE Leaving School Certificate(A School Leaving Certificate must be provided,showing the last grade (year) completed) Iranian Diploma Indian / Pakistani /Bangladesh Higher Secondary School Certificate International Baccalaureate Diploma Syrian Secondary School Certificate SABIS Diploma WAEC / NECO Mission The Bachelor of Science in Petroleum Engineering program at the American University of Ras Al Khaimah (AURAK) educates students to become qualified engineers who are capable of generating effective solutions by using engineering approaches in the field of Petroleum Engineering. The graduates of the program will be well versed in technology and in social and environmental issues. To fulfill this mission, the program provides the undergraduate student with a thorough foundation in the basic tenets of Petroleum Engineering and technologies, and a broad introduction into geophysics, petroleum geology, fluid properties, formation evaluation, drilling, reservoir engineering and simulation, artificial lift systems, completions and oil and gas facilities engineering.. The program provides a strong background for graduate study in the diverse areas branching out of the Petroleum Engineering field. The technical focus is complemented with topics in general education leading to a well-rounded member of the global society. Program Educational Objectives The Program Goals describe the expected accomplishments of graduates during their first few years after graduation. The program goals have been derived from and support the mission statement of the American University of Ras al Khaimah. The Petroleum Engineering Program at AURAK aims to: Prepare graduates with a broad knowledge of petroleum engineering and their applications. Prepare graduates with the knowledge and critical thinking skills required to design and analyze petroleum engineering problems, taking into account, safety, environmental and societal impacts. Prepare graduates who are exposed to professional ethics and who have a commitment to public welfare and the environment. Prepare graduates who have been exposed to current and emerging technologies, and have the ability to pursue life-long learning through continuing education or post-graduate education. Prepare graduates with appreciation for the value of continuing professional development in maintaining their professional competence, through participation and leadership in professional organizations. Student Outcomes AURAK has adopted ABET’s a-k outcomes for Petroleum Engineering Program. The outcomes for program are: Competency in mathematics through differential equations, linear algebra, probability, and statistics; and engineering subjects including strength of materials, fluid mechanics and thermodynamics, and the ability to apply these to practical petroleum engineering problems. An ability to design and conduct different petroleum laboratory experiments, as well as to analyze and interpret data. Competency in petroleum engineering including design and analysis of well systems, procedures for drilling and completing wells, characterization and evaluation of subsurface geological formations, design and analysis of systems for producing, injecting, lifting and handling fluids; application of reservoir engineering principles and practices for optimizing resource development and management; use of project economics and resource valuation methods for design and decision making under conditions of risk and uncertainty. An ability to work and interact effectively in groups/teams which have diverse personalities, cultures, and backgrounds. Ability to identify, formulates, and solves practical petroleum engineering problems. An understanding of professional and ethical responsibility. Ability to develop effective oral, written, and interpersonal communication skills. Ability to evaluate the potential risks, i.e. consequences and probabilities of engineering solutions which may affect society and the environment. Recognition of the need for and an ability to engage in independent-learning and life-long learning. A knowledge of contemporary issues related to the petroleum industry. An ability to use of computer software such as spreadsheets, mathematics packages, word processors, reservoir simulation models, and design packages in solution of petroleum engineering problems [-]

BSc (Hons) Wildlife Conservation

University of Kent, School of Anthropology & Conservation
Campus Full time 3 years August 2017 United Kingdom Canterbury

This 3 year programme emphasises the practical knowledge and field skills needed in modern conservation science. [+]

This 3 year programme emphasises the practical knowledge and field skills needed in modern conservation science. This BSc programme emphasises the practical knowledge and field skills needed in modern conservation science, and combines these skills with a strong theoretical foundation in endangered species recovery and wildlife conservation. The degree goes beyond broad biodiversity issues to deliver a problem-solving approach to wildlife conservation. WHY STUDY WITH US? - Become a member of a school and institution of international reputation, committed to conservation worldwide with emphasis on informing conservation policy and practice - Interact with staff members with wide range of specialist areas in the natural and/or social sciences thus enhancing your career propects. - Experience a unique interdisciplinary approach to teaching and research yielding comprehensive insights into the natural sciences and the human dimensions of conservation - Enhance you practical knowledge and field skills needed in modern conservation science through field trips and your own independent research project. - Make the most of our research led teaching and training in natural science aspects of conservation (including genetics, ecology, wildlife management and species reintroductions) together with training in the human dimensions of conservation (such as, environmental economics, international biodiversity regulation, the politics of climate change and work with rural communities). - Enjoy our laboratory facilities equipped with microscopes, various measuring devices and biological specimens for use during laboratory demonstrations and student research projects and a Mac computer laboratory. - Be part of a vibrant community of students and staff hosting seminars, field outings, debates etc. enriching your experience and transferable skills. Field Trips We aim at a minimum of two field trips per term. In the first year, for example, we run a module in the spring term on biodiversity monitoring and surveying, which consists almost entirely of fieldwork. At later stages in the degree there are optional residential courses at Durrell Wildlife Conservation Trust in Jersey and the Danau Girang Field-Studies Centre in Sabah, Borneo. Careers According to recent employment statistics, Kent graduates are doing better than ever in the changeable job market. 85% of DICE graduates are in employment or full time-education within 6 months of graduating from this programme. The conservation and environmental sector is an expanding area for employment opportunities. Our graduates go into many kinds of work, including: - technical posts and/or consultancies involving ecological surveying - habitat management - species conservation - environmental education - community extension - national and international planning and policy Potential employers include local, regional and national UK government departments, voluntary organisations and the private sector, as well as European and international conservation and environmental organisations. Many of our graduates also go on to further postgraduate study. [-]

Bachelor of Science in Power Generation and Renewables

Malta College of Arts, Science and Technology
Campus Full time 3 years September 2017 Malta Paola

The objective of this programme is that of developing professional engineers who are both academically prepared and practically trained to satisfy the requirements of local industry with a special focus on power generation and renewable energy systems. [+]

BScs in Energy. The objective of this programme is that of developing professional engineers who are both academically prepared and practically trained to satisfy the requirements of local industry with a special focus on power generation and renewable energy systems. Moreover, these graduates will be suitably prepared to embark on careers or further their studies. The need to have qualified engineers who approach this technology in a professional and efficient way is heavily requested by all the major stakeholders. The modules in this degree course will give candidates a grasp of both the traditional and modern technologies as well as the support systems that would be required. Assessment The purpose of assessment is to ensure that effective learning of the content has taken place. For each unit delivered students will be assigned a mixture of home-based and time-constrained assignment in class. At the end of the course students will also present their thesis. Core Study Units Traditional Power Generation and Renewables Renewable Energy Sources 1 Renewable Energy Sources 2 Installation of Renewable Energy Sources Power Electronics Energy Efficient Constructions IT and Networking Fundamentals Entrepreneurship Thesis Programme Learning Outcomes Interpret power consumption trends and evaluate renewable energy generation options for specific scenarios Specify, install and maintain power generation equipment and renewable energy systems Manage projects involving the installation and maintenance of renewable energy systems Contribute in the development of research projects in the field of power generation and renewable energy sources. Career Opportunities Electrical engineer Design engineer Project engineer [-]

BSc Hons in Energy Studies

University of Johannesburg
Campus Part time 2 years February 2017 South Africa Johannesburg

BSc Honours in Energy Studies [+]

The primary purpose of the BSc Honours qualification is to consolidate and deepen the students’ knowledge and expertise in Energy Studies, and to develop research capacity in the methodology and techniques of it. BSc Honours is essentially a coursework degree of which at least 25% (30) of the credits are devoted to a research project and reporting under supervision. The degree demands a high level of theoretical engagement and intellectual independence, and serves as the initial science postgraduate specialization qualification providing students with in-depth scientific knowledge and skills preparing them for research based postgraduate science study. Admission to the programme requires the approval of the Programme Co-ordinator of Energy Studies and the Head of Department of Geography, Environmental Management and Energy Studies and is subject to appropriate undergraduate studies and experience in the energy industry. The programme is only presented on a part-time basis (4 semesters). The programme comprises SIX modules. There is a written examination for each module. Energy Economics Energy Technology Energy Modelling The International, Geographical and Political Aspects of Energy Energy Policy Formulation Research Project [-]

Bachelor in Mechanical Engineering (B.S.)

Inter American University of Puerto Rico
Campus Full time August 2017 Puerto Rico Bayamón

The Bachelor of Science Program in Mechanical Engineering includes the study of transforming energy into a form that can be controlled and used for the production of goods and services. Emphasis is given to the analysis, design, instruction and control of equipment, instruments and mechanical systems. [+]

BScs in Energy. The Bachelor of Science Program in Mechanical Engineering includes the study of transforming energy into a form that can be controlled and used for the production of goods and services. Emphasis is given to the analysis, design, instruction and control of equipment, instruments and mechanical systems. The Program aims to prepare students to practice mechanical engineering at the professional level. This Program is accredited by the Engineering Accreditation Commission of the Accreditation Board for Engineering and Technology (ABET)” (www.abet.org). [-]

BSc In Renewable Energy Engineering

Castelo Branco University of Applied Sciences
Campus 3 years September 2017 Portugal Castelo Branco

The degree in Engineering Renewable Energy aims to train human resources with the right skills to the wide range of needs of emerging industries in the country (and the region) in the renewable energy sector, promoting their competitiveness and sustainability. Its main objectives are: To train senior technicians in the field of renewable energy, with expertise in the application and integration of technologies associated with renewable energy, with a view to use, rationalization and energy production (thermal and / or electrical) | Contributing to development of renewable energy in Portugal and meet the need of senior an area in need of qualified training offer, particularly in the area where you insert this higher education institution | Contributing to the reduction of negative environmental effects from the use of fossil fuels, the senior technicians who know how to harmonize the form most appropriate and environmentally sustainable energy solutions for each situation | Generate business opportunities in the energy market liberalization environment. [+]

Goals The Renewable Energy Engineering Degree aims to train human resources with the right skills to the wide range of needs of emerging industries in the country (and the region) in the renewable energy sector, promoting their competitiveness and sustainability. Its main objectives are: - To train senior technicians in the field of renewable energy, with expertise in the application and integration of technologies associated with renewable energy, with a view to use, rationalization and energy production (thermal and / or electrical); - Contribute to the development of renewable energy in Portugal and meet the need of senior an area in need of qualified training offer, particularly in the area where you insert this institution of higher education; - Contribute to reducing the negative environmental effects from the use of fossil fuels, to form senior technicians who know how to harmonize the most appropriate and environmentally sustainable energy solutions for each situation; - Generate business opportunities in the energy market liberalization environment. Outings Professionals After completing the course, graduates in Engineering Renewable Energy will have the following career opportunities: - Development projects in the installation and production systems using Renewable Energy, alone or integrated; - Consultancy in the field of Renewable Energy (design, technical feasibility analysis / economic projects, evaluation of best practices / techniques); - Maintenance and servicing the equipment and renewable energy utilization systems; - Development and integration solutions for energy production from renewable sources; - Management systems and processes that use renewable energy. [-]

BSc in Sustainable Innovation

Eindhoven University of Technology
Campus Full time 3 years September 2017 Netherlands Eindhoven

In Sustainable Innovation you study innovations from a technological, economic and societal perspective, to enable society at large to consume and produce in a sustainable way. [+]

BScs in Energy. In Sustainable Innovation you study innovations from a technological, economic and societal perspective, to enable society at large to consume and produce in a sustainable way. The study doesn’t just look at the design of an electric car, for example, but at the design in combination with the required infrastructure (charging stations) as well as the development of the market, laws and regulations, and the broader effects on mobility patterns, urban planning and the climate. This kind of design process always involves multiple actors such as government, industry, groups within society, knowledge institutes and consumers. Society and technology Students of the Sustainable Innovation program are trained to use technology to solve societal issues, to strengthen welfare and well-being in the world. Just a few examples are: the position of the Netherlands in the European sustainable energy market the design of smart homes and electricity grids technological innovation in developing countries, such as biofuels in India assessing the pros and cons of new technologies, such as underground CO2 storage identifying societal issues in relation to new technologies such as electric cars Best rated in Guide to Choosing a University and Elsevier Sustainable Innovation is a major which formally is part of the Bachelor's program Innovation Sciences (Technische Innovatiewetenschappen). The Innovation Sciences Bachelor’s program received a high rating in the Keuzegids Universiteiten 2016 (in Dutch) (Guide to Choosing a University 2016). The program scored highly relative to other comparable programs. In the Elsevier 2015 the Innovation Sciences Bachelor's program is rated (very) good by the students. Eindhoven students of Innovation Sciences state that they are very satisfied with the teachers, the content of the program and the exams. Eindhoven University of Technology (TU/e) is the best university (of technology) in the Netherlands, according to Elsevier 2015 and the Keuzegids Universiteiten 2016 (Guide to Choosing a University 2016). Eindhoven University of Technology was also the best ranked Dutch University in the Global Employability Survey. Major Sustainable Innovation Your future begins at TU/e in the Bachelor College, home to the university’s Bachelor study programs. As a student of this Bachelor College you get plenty of scope to compose your own study on the basis of your interests and ambitions. In the Bachelor College you begin with a three-year Bachelor, following a number of compulsory subjects like mathematics and physics and learning engineering design. In the Bachelor College you develop skills that you need in industry and learn to translate your technological knowledge into applications that are relevant for society. Your major forms a substantial part of your Bachelor study. It is where you choose the field in which you want to work later as an engineer. This is the basis of your study program. This website gives more information about the major Sustainable Innovation. Sustainable Innovation is a major which formally is part of the Bachelor's program Innovation Sciences (Technische Innovatiewetenschappen). After graduation in this major you receive the diploma of the Bachelor program Innovation Sciences (Technische Innovatiewetenschappen). and the degree of Bachelor of Science in Sustainable Innovation. Sustainable Innovation is one of the two majors within the Bachelor's program Innovation Sciences (Technische Innovatiewetenschappen). The other major is: Psychology & Technology. The curriculum (the electives) allows you to follow both. NVAO accreditation This program is legally recognized and accredited by the Accreditation Organisation of the Netherlands and Flanders (NVAO). [-]