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Energy Engineering | I do not know what to study

abril 1, 2021

The Energy engineering It is also known as the energy engineering, is characterized by the study of the different energy sources and their impact on the environment and energy efficiency.

Energy Engineering focuses on search for new energy sources through the development of processes and new technologies.

Different energy sources:

  • Nuclear
  • From oil
  • Natural gas
  • Coal
  • Solar
  • Hydraulics
  • Wind
  • Geothermal

What is power engineering?

Energy Engineering seeks to train professionals with solid knowledge to manage non-conventional and traditional energy production projects, with the capacity to meet the needs and urgencies of the industry. Energy engineering allows the development of non-conventional and traditional energy generation projects.

What is the Energy Engineering degree about?

The Energy Engineering career has a strong foundation in economics, environment, mathematics, physics and chemistry and pursues the goal of developing more efficient and sustainable energy sources for the planet.

The intermediate title obtained is Energy Analyst and the final title of Energy Engineer, the race lasts approximately 5 and a half years and it is attended in person.

Fields of action of Energy Engineering:

  • Scientific investigation.
  • Development of energy technologies.
  • Transformative, chemical, manufacturing and multi-process industries.
  • Energy-related public services.
  • Consulting and auditing.
  • Environment.
  • Management, planning and direction of energy operations in nuclear, thermoelectric, geothermal, photovoltaic, wind power plants, etc.
  • Teaching.
  • Fuels

Objectives of the Energy Engineering career

  • Train professionals capable of contributing to sustainable development through the promotion of the rational use of energy.
  • To train professionals capable of providing extension services and cooperation with the community.
  • Train professionals capable of developing, designing and transferring technology with industries or organizations.
  • Participate in the development, design and implementation of active policies in the field of rational use of energy and the use of resources.

Entrant’s profile:

  • Creative with skills for self-learning and self-evaluation.
  • With logical and numerical reasoning, motivated by knowledge in Mathematics, Calculus, Physics, Chemistry and Programming.
  • With skills for searching for information, for writing.
  • With aptitudes for solving problems in a methodical way.
  • With a strong interest in conventional energies and alternative energies,
  • With solid knowledge and mastery of technological applications related to renewable energy sources.
  • Interested in the environmental impact of energy production, transportation and consumption.

Professional outings

Different tasks performed by an Energy Engineer:

  • Develop more efficient and sustainable energy sources in companies.
  • Diagnose opportunities to improve energy efficiency in homes and for companies.
  • Maintain energy systems in industrial plants.
  • Operate energy systems.
  • Explore and develop their own business projects and work in a multidisciplinary team dedicated to the design, development and analysis of processes aimed at obtaining energy products and services, as well as the management and control of these processes in plants.
  • Develop energy generation and distribution projects.
  • Propose innovative solutions applied to the environmental impact of energy production, transport and consumption, industrial plants, wind farms, etc.
  • Design a line of industrial machines.
  • Lead innovation programs promoting sustainable technology.
  • Design and control equipment and processes.
  • Design and implement equipment and plants.
  • Design wind farms.
  • Operate in industrial plants, reactors and power plants.
  • Promote the best options for the use of energy sources in a country.
  • Develop quality control tasks for services and processes.
  • Develop environmental control plans.
  • Improve production processes.
  • Developing constantly growing energy systems that are economically sustainable.
  • Develop and maintain energy sources that guarantee supply and conserve the environment.
  • Lead research and development projects.
  • Participate in public and / or private organizations dedicated to the regulation and management of energy.
  • Participate in educational processes and research projects.
  • Manage teams and human resources in engineering projects.
  • Develop continuous updating processes in companies.
  • Investigate climatic and impact phenomena.
  • Leading projects for the generation and use of conventional and unconventional energy.
  • Collaborate in training and teaching.
  • Develop research work in public or private research institutes or within Universities.
  • Work on research, development and innovation projects in energy resource exploitation processes at an industrial level.
  • Investigate energy efficiency and energy resources in diagnostic centers and companies in different sectors.

Where does an Energy Engineer work?

  1. In Government Organizations, in public or private Institutes, in service companies, etc.
  2. An Energy Engineer works in companies that develop in the electrical and mining sector.
  3. In Institutions dedicated to consulting and audits of energy issues.
  4. Organizations that investigate and search for energy alternatives with minimal impact on the environment.

Labor Field

An Energy Engineer can develop his activity in different areas where energy is used, for the design, modification, transportation and use of energy goods and services.

List of some subjects of the Energy Engineering careerKeep in mind that in each university the study plan is different, in this list the subjects of several plans present in different Universities are combined:

  • Aerodynamics
  • Energy saving
  • Saving, Efficiency and Rational Use of Energy
  • Algebra and Analytical Geometry
  • Mathematical analysis
  • Application of mathematics for energy engineering
  • Bioclimatic architecture
  • Balance and energy potential
  • Biomass (biofuel)
  • Calculation
  • Power cells
  • Science Technology and Society
  • Applied electrical circuits
  • Basic electrical circuits
  • Computing and modeling
  • Thermal conductivity
  • Mechanical design
  • Economy and energy agenda
  • Electromagnetism
  • Basic electronic
  • Power electronics
  • Electrotechnics and Electrical Machines
  • Hydrogen energy
  • Energy in hydrocarbons
  • Photovoltaic energy
  • Renewable energy
  • Energy and environment
  • Thermal solar energy
  • Renewable energy
  • Equipment, accessories and electrical protection
  • Physical
  • Applied Physic
  • Formulation and evaluation of projects
  • Fundamentals of mechanical elements
  • Nuclear Reactor Fundamentals
  • Electricity generation
  • Wind generation
  • Hydraulic generation
  • Generation and transformation of electrical charges
  • Geology and Oil Prospecting
  • Geothermal
  • Environmental and Labor Hygiene and Safety
  • Computing
  • Thermodynamic engineering
  • English
  • Innovation, surveillance and technological development
  • Introduction to the study of fluids
  • Legislation and public policy
  • Regulatory Frameworks and Energy Legislation
  • Fluid mechanics
  • Fluid Mechanics and Heat Transfer
  • Thermal mechanisms and equipment
  • Methodology of scientific and technological research
  • Numerical methods
  • Microeconomics
  • Planning and Organization of Energy Services
  • Energy Policy and Management
  • Probability and statistics
  • Production, Transportation and Distribution of Fuels
  • Applied Chemistry
  • General chemistry
  • Organic Chemistry and Corrosion
  • Selection of machines and equipment
  • Geographic information system
  • Control systems
  • Graphic Representation Systems
  • Electric systems
  • Clean energy technology
  • Gas and Oil Technologies
  • Satellite remote sensing and modeling
  • Control theory
  • Thermodynamics and Thermal Machines
  • Electricity Transport and Distribution
  • Turbines