Alternative Energy Engineering

The Alternative Energy Engineering degree responds to the urgent need for the use of alternative and renewable sources for energy generation in order to guarantee a safe, sustainable and sustainable energy transition. The degree is aimed at the scientific and technical training of highly trained professionals in the design, construction, implementation, operation and management of alternative and renewable energy systems. Our graduates will have comprehensive training through the study of ethics, social responsibility and sustainability and will obtain solid knowledge about energy policy, regulations and audits, project formulation and evaluation, business administration and management.

The Alternative Energy Engineering degree responds to the urgent need for the use of alternative and renewable sources for energy generation in order to guarantee a safe, sustainable and sustainable energy transition. The degree is aimed at the scientific and technical training of highly trained professionals in the design, construction, implementation, operation and management of alternative and renewable energy systems. Our graduates will have comprehensive training through the study of ethics, social responsibility and sustainability and will obtain solid knowledge about energy policy, regulations and audits, project formulation and evaluation, business administration and management. 

Basic data


Degree

Alternative Energy Engineer

Duration

Alternative Energy Engineering

Opening hours

Morning and Evening

Introduction


Alternative Energy Engineering

Professional Profile


The Alternative Energy Engineering degree responds to the urgent need for the use of alternative and renewable sources for energy generation in order to guarantee a safe, sustainable and sustainable energy transition. The degree is aimed at the scientific and technical training of highly trained professionals in the design, construction, implementation, operation and management of alternative and renewable energy systems. Our graduates will have comprehensive training through the study of ethics, social responsibility and sustainability and will obtain solid knowledge about energy policy, regulations and audits, project formulation and evaluation, business administration and management. 

Occupational field


Alternative Energy Engineers will be able to integrate into the work environment in the areas of:

a) Formulation of policies, regulations and technical processes for the efficient use of energy systems and promotion of alternative and renewable sources. 

b) Evaluation of the potential of alternative and renewable energy sources for opportunities to implement infrastructure and energy systems at different scales. 

c) Design and implementation of the value chain of generation, conversion, transmission, storage, distribution, marketing and use of alternative and renewable energies in the public and private sector.

d) Research, innovation and scientific-technological development in new alternative energy technologies.

e) Development of feasibility studies of alternative and renewable energy projects and systems for the residential, commercial, industrial, electrical and transportation sectors.

f) Design and implementation of energy use efficiency programs and energy audit processes.

g) Management and administration of public and private companies for research, generation, distribution and marketing of alternative and renewable energies.

Study Plan


Level one
Subject
Prerequisite
  • MATHEMATICAL ANALYSIS I
  • COMPUTER AIDED DESIGN
  • GEOMETRY AND TRIGONOMETRY
  • INTRODUCTION TO ENERGY
  • ACADEMIC READING AND WRITING I
  • GENERAL CHEMISTRY
Level two
Subject
Prerequisite
  • LINEAR ALGEBRA
    MATHEMATICAL ANALYSIS I
  • MATHEMATICAL ANALYSIS II
    MATHEMATICAL ANALYSIS I
  • STATISTICS
    MATHEMATICAL ANALYSIS I
  • PHYSICS I
  • PROGRAMMING FUNDAMENTALS
  • ACADEMIC READING AND WRITING II
    ACADEMIC READING AND WRITING I
Level three
Subject
Prerequisite
  • ANALYSIS OF ELECTRONIC CIRCUITS
  • MATHEMATICAL ANALYSIS III
    MATHEMATICAL ANALYSIS II
  • ANTHROPOLOGY
  • ELECTRONIC ANALOGUE
  • PHYSICS II
    PHYSICS I
  • THERMODYNAMICS I
    PHYSICS I
Level Four
Subject
Prerequisite
  • MATHEMATICAL ANALYSIS IV
    MATHEMATICAL ANALYSIS III
  • DIGITAL ELECTRONIC
    ELECTRONIC ANALOGUE
  • PHOTOVOLTAIC SOLAR ENERGY
  • ETHICS AND SOCIAL RESPONSIBILITY
  • ELECTRICAL INSTALLATIONS I
    ANALYSIS OF ELECTRONIC CIRCUITS
  • THERMODYNAMICS II
    THERMODYNAMICS I
Level Five
Subject
Prerequisite
  • WIND POWER
  • HYDROELECTRIC ENERGY I
  • THERMAL SOLAR ENERGY
    PHYSICS II
  • ELECTRICAL INSTALLATIONS II
    ELECTRICAL INSTALLATIONS I
  • PRE PROFESSIONAL PRACTICES
    ELECTRICAL INSTALLATIONS I
  • HEAT TRANSFER
    THERMODYNAMICS II
Level Six
Subject
Prerequisite
  • ENERGY STORAGE
    THERMODYNAMICS II
  • POWER ELECTRONICS
    DIGITAL ELECTRONIC
  • HYDROELECTRIC ENERGY II
    HYDROELECTRIC ENERGY I
  • ENERGY AND MOBILITY
  • LINKING PRACTICES
    PRE PROFESSIONAL PRACTICES
Level Seven
Subject
Prerequisite
  • CLIMATE CHANGE AND SUSTAINABILITY
  • DESIGN OF THE PROJECT DE TITULACIÓN
  • FORMULATION AND EVALUATION OF PROJECTS
  • GEOTHERMY
    HEAT TRANSFER
  • MICRONETWORKS
    DIGITAL ELECTRONIC
  • REGULATIONS AND ENERGY MANAGEMENT
Level Eight
Subject
Prerequisite
  • AUDIT AND ENERGY EFFICIENCY
  • BIOMASS
    HEAT TRANSFER
  • ENERGY PROJECT MANAGEMENT
  • BUSINESS MANAGEMENT
  • NEW ENERGY TECHNOLOGIES
    THERMODYNAMICS II
  • GRADUATION WORKSHOP
    DESIGN OF THE PROJECT DE TITULACIÓN