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Only master's degree in renewable energies with guaranteed employment

Includes preparation for certifications LEED, PVCase, CYPE PV and TOEIC

Professional Master in Renewable Energies, Smart Grids and Electric Mobility

He Master in Renewable Energies, Smart Grids and Electric Mobility offers comprehensive training in the field of renewable energies and their integration into smart electrical networks, as well as sustainable mobility solutions.

Aimed at Engineers, Architects and related careers.

1700 hours – 68 ECTS.

With live online classes.

With access to the certifications most valued by companies: [LEED + PVCase + CYPE PV + TOEIC].

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Includes certification in Management Skills by Harvard Business Publishing

Employability 100%.

Renewable Energies, Smart Grids and Electric Mobility

Description general

He Professional Master in Renewable Energies, Smart Grids and Electric Mobility offers comprehensive training in the field of renewable energies and their integration into smart electrical networks, as well as sustainable mobility solutions.

The program is designed to train highly qualified professionals who wish to lead the transition towards a cleaner and more sustainable energy system.

Works at Renewable energy

Currently, the weight of Renewable Energies in the energy industry sector demands the inclusion of new professional profiles with knowledge and skills in new emerging renewable technologies and with the capacity to manage renewable projects, taking into account the legislation and applicable regulations.

All of this, together with the understanding of the legal, ethical and security challenges that arise from increasingly expanding disruptive technologies, complement the specialized profile of the new Renewable Energy, Smart Grids and Electric Mobility professionals.

Even if your entry into the labor market is in Junior positions, here you can get an idea of ​​the salary ranges stipulated for semi-senior and senior profiles with this specialization. Source: 2023 Compensation Study by Michael Page​.

Analyst of renewable energy resources (Solar, Wind and Biomass). 
[Annual salary range: €25,000 to €30,000]

Designer of renewable energy installations. 
[Annual salary range: €25,000 to €35,000]

Electricity market operator.
[Annual salary range: €24,000 to €33,000
]

Economic and financial analyst of the profitability of renewable energy projects. 
[Annual salary range: €25,000 to €35,000]

Project Manager of international energy projects.
[Annual salary range: €35,000 to €50,000]

Consultant, auditor and/or energy certifier. 
[Annual salary range: €25,000 to €30,000
]

Supervisor in the installation and maintenance of wind, solar, biomass and energy efficiency equipment. 
[Annual salary range: €30,000 to €40,000]

With a practical and industry-oriented approach, this program combines theory and practical applications, promoting the development of technical and analytical skills necessary to face the current and future challenges of the energy sector.

The duration of Professional Master in Renewable Energies, Smart Grids and Electric Mobility It is one year and the study modality is completely online.

To obtain your Professional Master's degree you must pass both blocks in full.

Renewable technologies and sustainable energy economy

Acquire the fundamental knowledge on the main technologies focused on renewable energies.

Explores the principles of design, installation and operation of these technologies, as well as their role in the clean and sustainable energy generation.

Study the new emerging renewable technologies, such as hydrogen, fuel cells and CO2 capture, and analyzes their viability and market potential.

Delve into the economic and financial aspects of the renewable energy.

Explore the concepts of management and financing of renewable projects, applicable legislation and regulations, as well as the development of sustainable projects in the energy sector.

SOLAR PHOTOVOLTAIC AND THERMAL ENERGY – 150 H – 6 ECTS
Introduction to solar energy
Principles of photovoltaic conversion
Photovoltaic solar panel technologies
Design and installation of photovoltaic solar systems
Applications of solar thermal energy
Solar heat collection and storage systems
WIND POWER – 75 Hrs – 3 ECTS
Wind energy basics
Characteristics of wind turbines
Design and selection of sites for wind farms
Operation and maintenance of wind farms
Integration of wind energy into the electrical grid
Economic aspects and regulations in wind energy
HYDRAULIC ENERGY – 50 H – 2 ECTS
Principles of hydropower
Types of hydroelectric plants
Design and operation of hydroelectric plants
Environmental impact and legal aspects in hydraulic energy
Potential and future prospects of hydropower
GEOTHERMAL ENERGY – 50 H – 2 ECTS
Basics of geothermal energy
Systems for harnessing geothermal energy
Design and operation of geothermal plants
Direct and low enthalpy geothermal applications
Economic aspects and sustainability of geothermal energy
BIOMASS AND BIOFUELS – 75 Hrs – 2 ECTS
Biomass sources and their energy potential
Biomass conversion processes into biofuels
Biogas production and use technologies
Residual biomass and its energy use
Sustainability and life cycle assessment of biofuels
NEW RENEWABLE TECHNOLOGIES (HYDROGEN, FUEL CELLS AND CO2 CAPTURE) – 75 Hrs – 3 ECTS
Hydrogen as an energy vector
Fuel cells and their applications
CO2 capture and storage
Technological advances in new renewable technologies
Economic impact and development prospects
PROJECT MANAGEMENT AND FINANCING – 75 Hrs – 3 ECTS
Life cycle of a renewable project
Economic and financial evaluation of projects
Funding sources and support mechanisms
Risks and management of renewable projects
Case studies and best practices
PROJECTS IN THE RENEWABLE SECTOR – 75 Hrs – 3 ECTS
Development and planning of renewable projects
Resource and procurement management in renewable projects
Supply chain and logistics management
Environmental impact assessment and regulatory permits
Quality management and assurance in renewable projects
LEGISLATION AND REGULATIONS – 50 H – 2 ECTS
Legal and regulatory framework for renewable energies
International, national and local policies and regulations
Incentives and support mechanisms for renewable energies
Property rights and legal aspects in renewable projects
Regulatory compliance and risk management in the energy sector

Includes the following certifications.

CYPE

Cype Logo

PVCASE

Pvcase Logo

Digitalization of energy and electric mobility

Immerse yourself in the world of Big Data and Artificial Intelligence applied to the energy sector. Learn specific programming languages for the sector, analysis of large volumes of data and machine learning techniques to optimize energy systems.

Explore the possibilities offered by data analysis to improve efficiency, decision making and planning in the energy field. Go deeper into the design and integration of renewable energy in smart electrical networks.

Study the aspects related to the energy efficiency in buildings, energy storage and sustainable mobility solutions, including electromobility. Addresses the technical challenges, regulatory and planning processes necessary to achieve a successful transition towards a smart electricity grid and cleaner, more sustainable mobility.

PROGRAMMING LANGUAGES FOR THE ENERGY SECTOR – 100 H – 4 ECTS
Introduction to programming languages used in the energy sector
Programming of applications and systems for the management of renewable energies
Control and monitoring of energy systems through programming
Integration of information technologies in the energy sector
Use cases and practical programming examples for renewable energies
BIG DATA AND MACHINE LEARNING IN THE ENERGY SECTOR – 100 H – 4 ECTS
Fundamental concepts of Big Data applied to the energy sector
Large-scale energy data collection, storage and processing
Energy data analysis and visualization techniques
Application of machine learning algorithms for optimization and prediction in renewable energies
Case studies and practical applications of Big Data in the energy sector
OPTIMIZATION OF ENERGY SYSTEMS – 100 H – 4 ECTS
Introduction to the optimization of energy systems
Modeling and mathematical formulation of energy optimization problems
Resolution methods and algorithms for energy optimization
Optimization of energy generation, distribution and consumption
Case studies and practical applications of energy system optimization
INTEGRATION OF RENEWABLE ENERGY IN ELECTRICAL NETWORKS – 100 H – 4 ECTS
Introduction to the integration of renewable energy in electrical networks
Challenges and opportunities of renewable energy integration
Distributed generation and small-scale renewable energy systems
Control and management of intermittent renewable generation
Stability and operation of electrical networks with high penetration of renewable energy
ENERGY EFFICIENCY IN BUILDINGS – 75 Hrs – 3 ECTS
Concepts and principles of energy efficiency in buildings
Sustainable building design and construction
Technologies and systems to improve energy efficiency in buildings
Evaluation and certification of energy efficiency in buildings
Management and maintenance strategies to optimize energy efficiency
ENERGY STORAGE – 100 H – 4 ECTS
Fundamentals of energy storage
Renewable energy storage technologies
Design and selection of energy storage systems
Applications and benefits of energy storage in the renewable sector
Integration of energy storage systems in electrical networks
SUSTAINABLE MOBILITY AND ELECTROMOBILITY – 75 Hrs – 3 ECTS
Transition towards sustainable mobility
Technologies and types of electric vehicles
Charging infrastructure and recharging networks for electric vehicles
Environmental and economic benefits of electromobility
Policies and regulations to encourage the adoption of electric vehicles

TFM: FINAL MASTER PROJECT – 125 H – 5 ECTS

Includes the following certification.

LEED

Leed Certification Preparation

Development professional

Acquire the practical skills necessary to perform management positions.

Communicate successfully in English in professional environments.

Boost your digital personal brand.

INTERNATIONAL ENGLISH CERTIFICATION PREPARATION | 4 ECTS | 100H

get ready for successfully pass certification international in English TOEIC of level B2 or higher and function in English-speaking work environments.

MANAGEMENT SKILLS DEVELOPMENT | 4 ECTS | 100H

Dominate talent acquisition, selection and retention strategies.

Develop your skills Communication.

Lead with successful work teams, applying motivation and work techniques team up.

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Includes certification in Management Skills by Harvard Business Publishing

STRATEGIES FOR A SUCCESSFUL PERSONAL BRAND | 2ECTS | 50H

Delve deeper into the concept of personal brand and the importance of keeping it updated.

Employ strategies and tactics to stand out in professional social networks.

Generate content of added value for your target audience.

Includes the following accreditation:

TOEIC

Toeic Logo

Our goal is to open the doors of great companies for you to work for, so, in addition to your cybersecurity training, we want to help you prove your level of English and take your personal brand to the next level. 

With the Professional Master in Renewable Energies, Smart Grids and Electric Mobility, you can get:

Professional Master's Degree EIP International Business School

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Professional Master's Degree Certificate Madri+d Foundation

Eerr Fmid Cmp22

During your training at Professional Master in Renewable Energies, Smart Grids and Electric Mobility, you will receive an educational license from CYPE and PVsyst softwareIn addition, you will learn to use analysis, modeling and simulation tools for renewable installations.

Free software with license included

Pvsyst

PVsyst and PVgis

Design of photovoltaic systems. It allows simulations of energy production and financial analysis.

Pvcase Logo

PVCase

Design of photovoltaic systems on land with the possibility of importing to PVsyst.

Sam (System Advisor Model)

Sam

Developed by NREL, System Advisor Model allows simulation of energy production and financial analysis of photovoltaic systems.

sketchup

sketch up

3D modeling software that can be used to design and visualize photovoltaic installations in buildings.

Qgis

Qgis

Open source and free. It allows you to view, edit and analyze geospatial data in different formats, such as maps, vector and raster layers, GPS data, among others.

Windpro

WindPro

Wind resource modeling that allows the simulation of wind distribution at a specific site and the evaluation of available wind energy.

openwind

OpenWind

Wind energy modeling, analyses, evaluates the performance of wind turbines and performs energy optimization analysis

windfarmer

WindFarmer

Design and evaluation of wind energy projects. Analyze the feasibility of a project, design the layout of the wind turbines and estimate energy production.

Wasp

WAsP

Wind resource modeling that allows the simulation of wind distribution at a specific site, the evaluation of available wind energy and the estimation of wind turbine performance.

Bladed

Bladed

Dynamic simulation used to analyze the performance and feasibility of wind turbines. It allows users to simulate wind conditions and turbine behavior in different scenarios.

Biomass Assessment Tool

B.A.T.

Biomass Assessment Tool, Free software that allows the simulation and analysis of energy generation systems from biomass.

Homer Pro

HOMER Pro

Energy modeling software that can be used for the design of biomass energy generation systems, including cost evaluation and system optimization.

Retscreen

RETScreen

Free software that helps users evaluate the technical and financial viability of renewable energy projects, including biomass.

Trnsys

TRNSYS

Energy simulation software used for the analysis of renewable energy systems, including biomass.

Energy Plus

ENERGY PLUS

Industry-leading energy simulation software used to evaluate and optimize the energy performance of buildings.

Cype Logo

CYPE

CYPELEC PV Systems: Software designed for the calculation and design of photovoltaic electrical installations. huseful tool both for installations connected to the grid (including self-consumption) and for installations isolated from the grid.

Conditions of access to Master

He Professional Master in Renewable Energies, Smart Grids and Electric Mobility is aimed at all those university graduates or with a higher degree related to the industrial, telecommunications and computing and energy sectors.

Language level B1 in English for access to the training program.

Graduates in Industrial Engineering.

Graduates in Renewable Energy Engineering.

Graduates in Electrical and/or Mechanical Engineering.

Graduates in Building Engineering.

Graduates in Architecture.

Graduates in Energy Resources Engineering.

Graduates in Civil Engineering.

Graduates in Chemical Engineering.

Graduates in Industrial Technology Engineering.

Higher Technician in Power Plants.

Higher Technician in Renewable Energies.

Related careers.

Higher Technician in Energy Efficiency and Solar Thermal Energy.

Senior Technician in Electrical and Automatic Installations, Electrical Maintenance and Repair.

Companies that hire our Talent

Our Teachers

Active sector professionals from large companies and firms.

OPINIONS OF

Our student body

Professional Master in Renewable Energies, Smart Grids and Electric Mobility

Discover the people who are currently training to ensure regulatory compliance for the best companies.

EIP International Business School

What it does to us unique

100% Employability

In EIP We are specialists in providing talent to the labor market. The more than 300 companies that collaborate with us know this, which is why they place great trust in us and make us participate in their selection processes, giving us the opportunity to recommend candidates. 

In this way, even if our student does not get a job in the company where he has completed the internship, he will have the possibility of participating in other selection processes that fit his professional profile. 

Paid internships in companies

The internship module is optional but highly recommended, since the best way to strengthen the skills acquired is to put them into practice in a real environment. 

During the Professional Master in Efficient Management of Renewable Energy we will establish the profile of the company that best suits you and we will begin the procedures to formalize it. 

He90% of internships are paid, with a duration of between3 and 6 monthsand that you can do in your own city or in companies in up to 8 countries. 

More than 100 live classes

Choosing an online master's degree does not mean learning with "canned" classes. In our Master's degree you will enjoy all the advantages of face-to-face teaching, with 150 live classes, so that you can share the learning experience with all your colleagues and so that you can access the teaching team directly, without intermediaries. And if you can't attend, you can also watch them on a delayed basis, from the next day on the platform.

More than 100 practical activities

To learn the theory you don't need a Master's degree. In our Master you will have the theoretical material, but We will focus on "know-how", because this is what will drive your professional development. Therefore, after each class, you will face a practical case. In total there will be more than 120 practical activities that will be the basis of your evaluation in the program.

Small groups

We leave behind crowded groups and impersonal classes to focus on people and guarantee a individual and quality attention. Each promotion is made up of 25 participants.

Four degrees

He Professional Master in Renewable Energies, Smart Grids and Electric Mobility It is accredited by CYPE, by the Madri+d Foundation and by EIP, so it offers you a triple degree and a double certification: 

  • Master's degree issued by the EIP International Business School. 
  • Professional Master's Degree Certificate Madri+d Foundation. 
  • CYPE FV certification.
  • PVCase certified.
We are at your side

We are at your disposal 24/7 by phone, email, throughcampusand byinstant messaging(WhatsApp/Telegram). 

Live video classes, taught by expert teachers, with whom you can interact to resolve all your doubts. 

Virtual communityso that you can share information and experiences with your classmates and with the teaching team. 

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Solve your doubts

Methodology

The methodology of work on this Professional Master in Renewable Energies, Smart Grids and Electric Mobility be practice, encouraging the active role of students to participate in their own development process learning, with the continuous support from a teaching and career guidance team. It is a e-learning methodology, flexible and 100 % compatible with working life.

Learning platform

We have an e-learning platform accessible from mobile devices and equipped with the most innovative communication tools for the development of video classes and the generation of multimedia content.

Resources

All resources will be available to students on the Master's platform:

  • Interactive and multimedia training content.
  • Audiovisual resources:
    • Live video classes: Every week a 1-hour live video class will be taught with an expert teacher. duration. All classes will be recorded so that you can watch them again and consult the aspects discussed for the development of the activities.
    • Training video tutorials: You will have a battery of video tutorials for specific topics, especially for the use of software tools.
    • Didactic resources: Every week you will have at your disposal articles, news and other content related to each subject that will allow you to expand your knowledge.
Assessment

To guarantee that the skills of each subject have been acquired, we have an evaluation system with real practical cases prepared by our expert and active teaching team in the sector.

Follow-up

You will have at your disposal a teaching team that will guide you throughout the entire training action and will help you successfully complete all the proposed activities. You can consult the section how to study in EIP.

Do you want to try our training?

Free 100% courses

Designed with a practical approach, they will introduce you to the world of photovoltaic and wind energy.