Training Programs and Content Developed by EU Stakeholders
The International Solar Alliance (ISA) aims to build a collaborative platform for increased deployment of solar energy technologies as a means to providing energy access, ensuring energy security, and to driving the energy transition within ISA member countries. Such transitions not only require significant investments into technology and infrastructure, but also into capability building to implement and manage the forthcoming transition. Capacity building ensures the availability of a skilled workforce capable of implementing and managing sustainable energy projects at various stages of the life cycle.
Academic collaborations across borders help share knowledge, best practices, and experiences related to the energy transition. To enable member countries take advantage of such benefits, ISA has compiled a list of training programs and workshops developed and implemented by EU stakeholders: private sector, foundations, NGOs, academia, universities, research centers, etc.
The database (link) contains information on training programs developed by EU-based stakeholders, focusing where relevant, on “training trainers” programs and considering possible synergies with the requirements of ISA member countries in Africa, Latin America and in the Asia-Pacific regions. This database of training programs and workshops that have been conducted in the past, including a listing of the training content available online (both free-of-charge and paid content) on solar technology, storage, solar installations, PV financing, and other aspects of PV technology deployment and markets. The list also provides contact details of organizations that offer such training.
Disclaimer:This compilation of training programs was prepared with the financial assistance of the European Commission. The listing of training programs and workshops is the work of the consultants and is not the work of the European Commission. This list is “work-in-progress” and is therefore not exhaustive and is verified as of 31July2023. To offer suggestions or to raise queries relating the content or to add information relating to Solar PV related training programs, please write to ISA person concerned @ email.org
Solar Energy: From Fundamentals to its Role in the Energy Transition
In this course you will be introduced to the technology that converts solar energy into electricity. The role of solar energy in both the energy transition towards a sustainable future and the improvement of the electricity access in specific regions in the world will be discussed in detail. Solar energy is the technology among all sectors with the potential to result in the largest net reduction in CO2 emissions at the lowest costs by 2030. The merits of solar energy in reference to other renewable electricity generation technologies will be analysed and we will discuss the important metrics related to performance, costs, reliability and circularity of solar energy
Delft University of Technology
attn. Extension School | room D-1-270
P.O. box 5
2600AA Delft
The Netherlands
https://online-learning.tudelft.nl/help-and-support/
Solar Energy: Photovoltaic materials, devices, and modules
You will be introduced to crystalline silicon, the leading technology on the market. We will cover the manufacturing process from sand to cell and from cell to module, as well as high-efficiency concepts.
You will also be familiarized with thin-film PV technologies, which are an alternative to crystalline silicon technology (III-V semiconductor materials, thin-film silicon, and chalcogenides like Cadmium telluride (CdTe) and Copper indium gallium selenide (CIGS), organics and perovskites materials will be covered.) The device architectures and processing methods of the PV technologies will be reviewed as well as novel future concepts for going beyond the conventional limits.
Finally, various metrics will be applied to compare different PV technologies. These are related to performance, costs, reliability and you will be able to evaluate the advantages and limitations of different PV technologies and their applications.
Start Date: 2023-10-25
Delft University of Technology
attn. Extension School | room D-1-270
P.O. box 5
2600AA Delft
The Netherlands
https://online-learning.tudelft.nl/help-and-support/
Solar Energy: Photovoltaic Systems and their applications
The
operation and design of PV modules will be taught with respect to various
aspects, including shading resilience, interconnection architectures,
temperature dependence, mono- versus bi-facial and recyclability. We will also review the function and operation of common components of PV Systems, such as inverters, DC-DC converters, maximum power point trackers, charge controllers and batteries. We will focus on the interaction of these components with both the photovoltaic modules and the grid. Batteries’ parameters and the role of the charge controller within the system will be covered as well. The selection of the right inverter among different types will be discussed along with various methods of maximal power point tracking. Considering the losses caused by the different components, the overall efficiency of energy conversion of the system will be discussed. |
Delft University of Technology attn. Extension School | room D-1-270 P.O. box 5 2600AA Delft The Netherlands https://online-learning.tudelft.nl/help-and-support/ |
Photovoltaic solar energy
This
course is an introduction to the applications of photovoltaic (PV) conversion
in the general context of the energy mix dominated by the consequences of
global warming. The different forms of using solar energy are first presented before briefly describing the principle of the direct conversion of solar radiation into electricity (PV). The various PV technologies are described in the current context of the dominance of the crystalline silicon industry. The prospects for these sectors are then analysed in terms of R&D investments. From a more scientific point of view, the basics of solar cell operation are approached from the characteristics of the solar spectrum. The basics of conversion are summarized. In particular, the various sources of conversion efficiency limitation are described. The PV system, from the cell to the electrical network, is also treated with particular emphasis on taking account of intermittency with the issues in terms of network management and storage. |
Silicon thin films solar cells
This
course presents solar cells based on thin layers of silicon, a disordered
material. After a brief description of the operation of solar cells, thin film semiconductors are presented. The general properties of disordered semiconductors are very different from single crystals, especially in terms of band structure and doping mechanism. Thin layers of silicon, generally less than a micron in thickness, are deposited from a silane plasma which leads to the incorporation of hydrogen. The growth mechanisms are discussed, in particular the possibility of preparing partially crystalline thin films which consist of a mixture of nanocrystals bound by an amorphous tissue. The consequences on the operation of solar cells are analysed. The optical properties of the amorphous and nanocrystalline layers appear very complementary. Plasma processes are therefore well suited to the preparation of multi-junctions with conversion yields of the order of 13-15%. In addition, plasma processes allow deposition on large surfaces of glass or flexible substrates. |
Physics of silicon solar cells
The
MOOC "Photovoltaic solar energy" is a general presentation of
photovoltaic (PV) technologies in the global energy context, without
presenting the technological details of PV. On the contrary, this MOOC allows a detailed understanding of the properties of solar cells based on crystalline semiconductors. It consists of a general presentation of the physics of PV components with particular emphasis on silicon technology, which represents more than 90% of the current market. PV applications of III-V semiconductors are also mentioned. Indeed from a fundamental point of view a solar cell can be considered as an electronic component, a diode, exposed to the sun. The basic elements of semiconductor physics are first recalled, followed by a study of electronic transport in a diode. The detailed operation of a solar cell is then presented as well as the limits of solar conversion. An analysis of the solar spectrum as well as the optical properties of the cells is also provided. Finally, crystalline silicon technology is described from the growth of ingots to the preparation of heterojunctions which combine crystalline and amorphous silicon. |
SMA solar solutions from AZ: Photovoltaics for beginners
In
this online training, we will show you which components you need for a
perfectly coordinated energy system, how they work and how they are
installed. After that, terms such as self-consumption, self-sufficiency quota
and intelligent energy management are guaranteed to be familiar to you. Our trainers play through the planning, installation and functioning of a system using a fictitious solar system for a home as an example. The goal is always maximum independence for the system operator. You will also learn how helpful online monitoring of your solar power systems with Sunny Portal is for you and your future customers. Our trainers from the Günther Cramer Solar Academy will show you practical tips and tricks. You can use the chat at any time to ask questions, which we will answer directly in the webinar. |
Germany Gabriele Berst and Katharina Feyh Phone: +49 561 95 22-4884 (08:00 to 12:00 AM) Fax: +49 561 95 22-2880 Solaracademy@SMA.de France Serge Communal Phone: +33 472 22 97 07 Serge.Communal@SMA-France.com Italy Phone: +39 02 8934 7200 Fax: +39 02 8934 7201 marketing@sma-italia.com |
Green Energy Summer School
RENAC’s Green Energy Summer School (GESS) takes place at the RENAC Training Centre in Berlin, Germany each summer. Summer school programming reflects the educational needs and professional goals of those working in the green energy sector. GESS content covers foundational topics in green energy and provides insights into cutting-edge technology. Courses are designed for different target groups, taking their knowledge background into consideration. |
LINK: https://www.renac.de/trainings-services/trainings/gess
Dr. Emilienne Tingwey Project Director Face-to-face Trainings Tel: +49 (0)30 58 70870 52 Email: tingwey[at]renac.de |
Renewable Energy and Energy Efficiency
The
Renewables Academy (RENAC) AG, based in Berlin, Germany, is one of the
leading international providers for training and capacity building on
renewable energy and energy efficiency. Through training and capacity building, RENAC aims to disseminate the necessary know-how to satisfy the increasing demand for expertise throughout the industry, financial institutions and policy-setting bodies in the green energy markets. |
LINK: https://www.renac.de/trainings-services/trainings/renac-online
Raquel Cascales Project Director E-Learning and Blended Learning Tel: +49 (0)30 58 70870 46 Fax: +49 (0)30 58 70870 88 Email: online academy(at)renac.de Romhy Cubas Project Manager E-Learning Tel: +49 (0)30 58 70870 44 Fax: +49 (0)30 58 70870 88 Email: online academy(at)renac.de |
Applying Renewable Energy: Solar Technologies
Solar technologies can be used to produce electricity (e.g. to reduce fuel consumption), or for hot water provision. By choosing this training, you will get an understanding of: Photovoltaics, Solar thermal, Concentrated Solar Power (CSP) and PV-Diesel hybrid systems. |
Raquel Cascales Project Director E-Learning and Blended Learning Tel: +49 (0)30 58 70870 46 Email: cascales@renac.de |
State-of-the-art PV systems technologies and design
In the
framework of the European project GOPV, INES -French National Institute of
Solar Energy- and the consortium partners organized a 3-day summer school on
“State-of-the-art PV systems technologies and design”. The training covered
: - All value chain of state-of-the-art solar PV systems have been tackled: from cells to module, inverters, trackers, design and performance analysis, economics and LCOE, environmental analysis and LCA -All lectures done by European expert giving some example or case study linked with GOPV |
Email : contact@gopvproject.eu |
Sunfarming food & energy training project
Based
on our own development SUNfarming and their daughter company SOLprime have
designed unique agro-solar substructures for greenhouses for their partner
company Alensys. The roof is partly covered with solar panels to produce
energy. This unique combination is securing effectively food production and
at the same time a sustainable energy supply with PV. The Food & Energy
Training Project provides knowledge transfer in the food production in
greenhouses for master trainers and students. In resource poor areas or in conflict areas people from the region are trained to foremen /women in particular food cultivation in Food & Energy plants. The income situation of people is greatly improved. |
LINK: https://sunfarming.de/en/blog/sunfarming-food-energy-training-centre-in-south-africa
Phone: 03362 / 88 59 120 Fax: 03362 / 88 59 130 https://sunfarming.de/en/contact |
TECNALIA Office Building Workshop
The aim of the workshop was to present the installation of two symmetrical ventilated BIPV façades in an office building. The four levels of the building mainly host offices but also laboratories and special machines used for research purposes in the basement. Installation works took place during March 2019. The singular geometry of the existing façade has required specials efforts during the architectural integration design phase and the installation works. Despite the difficulties, final result was highly satisfactory. |
CRICURSA Industrial Building Workshop
The aim of the workshop was to present the installation of 200 m² of thin-film CIGS shingles. The shingles were integrated into the roof structure in order to ensure a harmonious visual appearance. The installation was executed in between June 2019 and July 2019. The efforts dedicated to the architectural integration design phase have brought good results on site, making the installation works proceed smoothly. |
FLISOM Carport Workshop
The workshop aimed at presenting the installation of two carports in separate locations near Zurich: at the EMPA headquarters in Dübendorf, and in Seuzach. Sharing the same design, they were built around purpose-made curved metal tiles sporting CIGS thin-film PV, providing both functional and aesthetic value. Both carports include an Electric Vehicle charger, so that the produced electricity can be directly used on location. The carport design and installation were successful, maintaining the design style of the previous carport. |
CADCAMATION Educational Building workshop
The
fourth workshop aimed at presenting the installation carried out at hotel
school Ecole Hotelière de Genève (EHG) which consists of several ventilated
façades built with CIGS modules laminated on a metal piece, designed and
manufactured by FLISOM. This PVSITES training workshop in Switzerland was organized by CADCAMATION at the Ecole Hotelière de Genève (EHG). This emblematic location hosts one of the PVSITES demos consisting of a BIPV facade in an educational building. participants had a unique opportunity to visit and learn first-hand from the installers and module manufacturer on the installation that was at that time taking place in the building. As in other sessions, the project consortium also presented the project results, for example the PVSITES software tool, one of the most attractive results for attendees. |
FORMATD2 Single House Workshop
This workshop was held in a unique location, the headquarters of project partner Format D2, which also serves as the innovative home of FD2 founder. The sessions focused on presenting the installation of a BIPV roof in a single house built in 2015-2016 in accordance with passive and bioclimatic standards. It is already inhabited by the owner and monitored for various studies in terms of electric consumption, room temperature and relative humidity. The implementation of the BIPV roof composed by CIGS on steel modules and manufactured by FLISOM was successful with excellent planning and execution of installation works. The careful architectural integration design in a new building formed a highly conducive site to accept BIPV solutions. The installed BIPV system is expected to make the house an energy-plus building, meaning its net yearly energy production will exceed its consumption. |
VILOGIA Apartment Building Workshop
The
PVSITES training workshop occurred at the Vilogia headquarters in Lille,
France. This workshop was the most popular of the BIPV workshop series, with
over 50 participants taking part. The aim was to present the installation of
a BIPV ventilated façade system, based on c-Si PV modules with hidden bus
bars by ONYX. The day started off with a tour of PVSITES’ largest demo-site, a 48-unit apartment building with a 112 m² BIPV wall installed on one side. While at the demo-site, participants had the opportunity to its design, installation and operation. The afternoon was combined with an engaging mixture of presentations and roundtables on a variety of topics related to PVSITES and BIPV, including the challenges faced by BIPV installers and the future of BIPV products. |
Building Integrated Photovoltaics: Demo sites overview
A
varied range of innovative BIPV products have been installed on six real
demonstrators in five different European locations and climate conditions. An
important barrier for BIPV market uptake comes from the lack of familiarity
from the construction industry with regards to the installation and
maintenance procedures associated with BIPV. Alongside the pilot
demonstration activities PVSITES project organised a series of training
workshops and guided tours at the PVSITES demo sites. These interactive events spotlighted the different aspects of the BIPV installation performed at each demo site and offered participants a unique opportunity to learn about PVSITES results, BIPV products, installation, design, application and safety considerations. Each workshop was followed by a guided tour through the different highlights of the BIPV installation in each of the six demo sites. Technology Readiness Level 7 (TRL7) has been demonstrated, meaning that the BIPV products developed should perform appropriately in their intended operational environments. |
Adult Learning community
EPALE
is a European, multilingual, open membership community of adult learning
professionals, including adult educators and trainers, guidance and support
staff, researchers and academics, and policymakers EPALE is funded by the Erasmus+ programme. It is part of the European Union’s strategy to promote more and better learning opportunities for all adults. EPALE does this by supporting and strengthening the adult learning professions. It enables members to connect with and learn from colleagues across Europe, through its blog posts, forums, the Partner Search tool, complemented with physical gatherings |
https://epale.ec.europa.eu/en/contact |
PLANET: Introduction module
According
to the development of a training course recognized at European level, the
course structure has been revised to add a list of topics necessary to achieve the Certification by its competent authority (Regione Piemonte). The request of the course certification according to VET protocols required the adaptation of topics unforeseen in the original proposal. In particular, the following topics have been added to fulfil requirements necessary for the application eligibility: • Job Guidance: Skills assessment and coaching • Sustainable development: Anthropic impact, Global warming, Oil reserve and natural resources, EU Energy Market; Specific issues: Benefits and impacts of energy production from renewable resources: Biomass, Biogas, Solar. • Equal opportunities: Discrimination, Interculturalism, Gender, Empowerment, Harassment • Occupational Safety and Health: General Education (EU Framework, General principles, National Legislation, Risk Assessment, Prevention and Protection, Safety Organization, Signs) Specific Education. |
E-mobility - De SMA EV Charger
In
this webinar you will learn everything about the SMA EV Charger, the charging
station for the electric car that fits perfectly with your SMA PV
installation. The SMA EV Charger is a charger for the electric car that makes optimal use of the sun and takes other consumers into account. Learn all about operation and installation. With an SMA EV Charger you can charge your car at lightning speed and use as much solar energy as possible. We look at the advantages of this car charger over competing products, learn how it works and how to install it correctly. We compare the different ways of charging the car and analyse how we can track the costs of driving on the new Energy app. |
Germany Gabriele Berst and Katharina Feyh Phone: +49 561 95 22-4884 (08:00 to 12:00 AM) Fax: +49 561 95 22-2880 Solaracademy@SMA.de France Serge Communal Phone: +33 472 22 97 07 Serge.Communal@SMA-France.com Italy Phone: +39 02 8934 7200 Fax: +39 02 8934 7201 marketing@sma-italia.com |
"COMPILE: Integrating community power in energy islands "
COMPILE
project aimed to activate and use Local Energy Systems in order to support
the fast growth of energy production from RES in constrained networks, and
foster the transition from centralized system with passive users into a
flexible network of active users featuring energy communities. This
transformation aimed to enhance RES integration and increase the security of
supply, without traditional network reinforcement. The demos had different “starting points”: different countries, different technology, organisational levels, community sizes, composition (industry/houses/retail), and regulatory perspective. |
tel.: +386 1 241 85 00 fax.: +386 1 241 86 60 rektorat@uni-lj.si lest@fe.uni-lj.si; |
Green Energy Finance Specialist
The
Renewables Academy (RENAC) AG, based in Berlin, Germany, is one of the
leading international providers for training and capacity building on
renewable energy and energy efficiency. Green Energy Finance Specialist (GEFS) provides a comprehensive overview of the financing of renewable energy (RE) and energy efficiency projects (EE), particularly from the bank’s perspective. This programme prepares participants to lead and implement crucial processes in the green energy financial sector, including term sheet preparation and development as well as using financial models and tools to assess renewable energy projects |
Manolita Wiehl Sales and International Project Development Tel: +49 (0)30 58 70870 63 Fax: +49 (0)30 58 70870 88 Email: wiehl[at]renac.de |
A one day introductory floating solar course covering the basics of the market, technology and costs of floating PV.
In this course you will get introduced to the FPV market and costs, and get acquainted with the range of technical concepts and solutions for FPV. We will assess energy production aspects and have a look at challenges in design and operation. |
LINK: https://www.dnv.com/training/floating-solar-training-course-233021
Energy Academy email: academy.energy@dnv.com web: www.dnv.com/energy-academy tel: +31 (0)6 29602659 / +31 (0)6 15063593 / +31 (0)6 18410601 |
SMA Energy System Home: Integrate solar systems into existing home networks
Solar systems with SMA inverters can be quickly and easily integrated into an existing home network. In this way, you can exchange information with the connected devices and start your customers with intelligent energy management. |
Germany Gabriele Berst and Katharina Feyh Phone: +49 561 95 22-4884 (08:00 to 12:00 AM) Fax: +49 561 95 22-2880 Solaracademy@SMA.de France Serge Communal Phone: +33 472 22 97 07 Serge.Communal@SMA-France.com Italy Phone: +39 02 8934 7200 Fax: +39 02 8934 7201 marketing@sma-italia.com |
ICT Training course
The
ICT module will provide farmers with the ability to use the basic ICT skills,
needed to manage and monitor day by day the RES plants. This will be achieved
through practical examples and tools related to RES utilization. Topics covered within the ICT module will allow the learner to proficiently use computers and digital devices, internet networks, the main application programs, and IT communication tools. The main aim is to respond to the changing conditions of the technological and IT reality and the way in which we interact with it. The extraordinary diffusion of mobile devices, the possibility of using remote applications and even storing their data on the network, the "social" use of technologies have changed the connotations of the main market players and their way of competing. Examples will be focused on a calculation related to RES production and use. This module has a duration of 9 days. |
Photovoltaic modules life time forecast and evaluation
The
quality assurance in the photovoltaic industry is yet in its infancy,
requiring both underpinning science and trained personnel to reduce costs of
energy. An unmet industrial requirement is an accelerated, and operating
environment specific service life time and energy yield assessment.
SOLAR-TRAIN will qualify selected early stage researchers in the field of PV
durability as part of a highly innovative, multi-disciplinary project meeting
industry requirements. The objective is to develop novel, validated models
for the service life time and energy prediction of PV modules and systems.
The project is integrated both in terms of research as well as training. This inter-sectoral approach provides excellent theoretical and technical background as well as immersion in different business sectors and career mentoring, allowing ESRs to build up a sustainable professional network across Europe. To enable a most effective cross-sectoral training, the project’s beneficiaries and partners represent the entire value chain, from materials developers / manufacturers through to operators and insurance companies. |
SOLAR-TRAIN is coordinated by the Fraunhofer Institute for Solar
Energy Systems ISE. PROJECT COORDINATION: Dr. Karl-Anders Weiß Phone: +49 (0) 761/4588-5474 karl-anders.weiss@ise.fraunhofer.de |
PVTRIN Installer certification
The
PVTRIN (Training of Photovoltaic Installers) project addresses the market
needs by developing a training and certification scheme for technicians who
are active in the installation and maintenance of small scale PV
systems. This scheme incorporates the criteria set by the 2009/28/EC Directive (article 14, Annex IV) for qualification schemes and certified training courses in each Member State, taking into account the national framework and legislation. It will, initially, be implemented in six (6) countries: Greece, Bulgaria, Croatia, Cyprus, Romania and Spain. In order to incorporate the genuine market needs and to assure the broadest possible support, the key stakeholder groups are involved in the project’s activities. |
Tel: +30 28210 37825, fax:+30 28210 37861 Email: info@pvtrin.eu, stavroula.tournaki@enveng.tuc.gr |
Solar PV Qualification: Learn how to install, maintain, repair solar panels
This
course is mainly for Technicians and individuals intending to learn how to
install, maintain and repair Solar Photovoltaic equipment. On successful completion of this course, participants are eligible to sit the Qualification provided with the EEC: Photovoltaic (PV) Arrays OR the Exam for the: Galileo Master Certificate |
44 (0)131 623 1938 training@theECT.org |
Solar Photovoltaics
This 4 day course in Solar Photovoltaic (PV) provides an understanding of PV systems with a view to applying for Competent Persons, Micro-Generation Scheme and/or Green Deal registration. The course is designed in accordance with the latest NOS/QCF criteria and MCS scheme requirements to provide the necessary skills for the design, installation, testing, commissioning, handover, servicing and fault-finding of solar photovoltaic systems. |
NICEIC Training Tel: 0333 015 6627 Email: traininginfo@niceic.com |
Solar Thermal hot water
This 3 day course is designed for plumbing and heating engineers to provide the necessary skills for the design, installation, testing, commissioning, handover, servicing and fault finding of solar thermal hot water systems in accordance with the latest NOS/QCF criteria and MCS scheme requirements. |
NICEIC Training Tel: 0333 015 6627 Email: traininginfo@niceic.com |
Shedding the light on Solar PV
With
demand for Solar PV installations on the up, this webinar clarifies the
various requirements that need to be considered when installing these type of
systems: - Technical considerations for the installation of solar PV in compliance with BS 7671 section 712 - Demystifying MCS registration - MCS commissioning requirements - Considerations for notification to build control |
LINK: https://event.on24.com/wcc/r/4052039/F7DE2A965B90868EEA85E1327432ADE0
NICEIC Training Tel: 0333 015 6627 Email: traininginfo@niceic.com |
Light up Liberia Program
The
Light Up Liberia (LUL) Program is a European Union funded project implemented
by Mercy Corps Liberia. The overall objective of the Light up Liberia program
is to reduce poverty and improve stability and living conditions of the rural
poor in Liberia. The course covers topics such as advanced solar photovoltaic systems, solar system installation, repairs and maintenance, and the state of renewable energy in Liberia. |
Contact: info@renewables-liberia.info hartlieb.euler@giz.de +231 770 678 693 (Lib) |
Solar Photovoltaics Maintenance
This
course is ideal for individuals looking to improve their knowledge and
understanding of maintaining Solar Photovoltaic systems in accordance with
the latest Regulations and requirements. Successful candidates will be able to demonstrate competence to diagnose and rectify, maintain and record Solar PV systems maintenance, providing the opportunity to diversify into the new demands the renewable energy market creates. |
NICEIC Training Tel: 0333 015 6627 Email: traininginfo@niceic.com |
Solar PV training course
The Solar Photovoltaic training course consists of 6 days of training, both in-class, online and on-field (with a site visit of a operating power plant). The module starts with an introductory chapter which should allow the students to understand the applications of solar energy as well as the roles of all actors involved in a solar plant project. The module continues with a presentation of technical equipment of a power plant and the influence of the local law and regulation on the applications. The students will then learn the basic rules of design of a power plant. Day 4 consists of a site visit where students will discover an operating plant and how the information learned in the previous days are applied on-field. They will also apprehend safety and health regulation as well as the steps of Operations and Maintenance. Day 5 presents the method for evaluation of the economical benefits of a power plant and, finally, Day 6 is a presentation of how to run a power plant through troubleshooting, maintenance and recycling phases. With the knowledge of the course, the student get the ability to review the design of a solar power plant according the present framework to allow a sustainable economical operation of the plant. |
Solar Thermal training course
The Solar Thermal training course consists of 6 days of training, both in-class, online and on-field (with a site visit of a operating power plant). The module starts with an introductory chapter which should allow the students to understand the applications of solar energy as well as the roles of all actors involved in a solar plant project. The module continues with a presentation of technical equipment of a power plant and the influence of the local law and regulation on the applications. The students will then learn the basic rules of design of a power plant. Day 4 consists of a site visit where students will discover an operating plant and how the information learned in the previous days are applied on-field. They will also apprehend safety and health regulation as well as the steps of Operations and Maintenance. Day 5 presents the method for evaluation of the economical benefits of a power plant and, finally, Day 6 is a presentation of how to run a power plant through troubleshooting, maintenance and recycling phases. With the knowledge of the course, the student get the ability to review the design of a solar power plant according the present framework to allow a sustainable economical operation of the plant. |
Renewable Energy and E-Mobility (REEM)
The
Master's programme is offered in a three and four-semester variant because
foreign students often come to us with a 180 ECTS Bachelor's degree. The
four-semester variant includes an additional internship semester. The student can choose from a number of optional modules in the fields of renewable energies or e-mobility. Lectures are held over the course of two semesters. The third semester or fourth semester is used to work on the Master's thesis |
Prof Dr-Ing Birgit Steffenhagen Birgit.Steffenhagen@hochschule-stralsund.de Christina Wanke +49 3831456513 studienberatung@hochschule-stralsund.de; |
PPA Academy
The
PPA Academy trains industry professionals in the following areas - Introduction to the world of renewable energy sales and gain a basic understanding of the key elements needed for successful PPA transactions. - the foundation to structure Power Purchase Agreements (PPAs) and a good grasp of key commercial energy risks (price, volume, imbalance, credit.) |
+41 (0) 43 215 58 72 hello@pexapark.com |
New business field PV tenant electricity: cooperation models between the solar and energy industry
The
following topics were covered. The language of presentation was German 1. New business area PV tenant electricity: Cooperation models between solar and energy industry 2. PV Financing 3. Innovations through planned Tenant Electricity Act 4. The Everest formula: In 4x4 steps to your own business model 5. Local marketing concepts for tenant electricity in commercial and cooperative housing construction 6. Successful implementation of tenant electricity in the Frankfurt area |
BSW – Bundesverband Solarwirtschaft e.V. – German Solar Association – Luz Alicia Aguilar Lietzenburger Straße 53 10719 Berlin Germany Phone: +49 (30) 29 777 88-40 E-Mail: info@pv-financing.eu |
PV financing project: Business models to boost the PV sector in Europe
European
Commission launched the PV Financing project with the aim to help the
deployment of innovative PV business models in the EU by reducing their
financial risk and ease their access to finance. These results are summarized
in the implementation guidelines, which describe the current suitable models
to develop PV projects in Europe. In this session a detailed description on
how implement these models and solutions as well as the best practice
examples in France, Germany and Austria will be provided. Additionally,
innovative solutions for a fair energy transition in public, cooperative and
social housing will be presented. Some of the topics covered: - PV Financing - Solar PV development in Europe : Sonia Dunlop, Solar Power Europe - Business models from German speaking countries: Mieterstrom from Germany & the shared generation facility model from Austria - Collective self-consumption in France - Innovative business models for the housing sector in Europe |
BSW – Bundesverband Solarwirtschaft e.V. – German Solar Association – Luz Alicia Aguilar Lietzenburger Straße 53 10719 Berlin Germany Phone: +49 (30) 29 777 88-40 E-Mail: info@pv-financing.eu |
Helping consumers and businesses control their energy costs
This
event focused on what new solar business models solar are on offer for those
that up until now have had limited access to solar. It looked at how we can
change the way we structure solar projects to reduce risk and increase access
to finance and showed how more and more businesses are using the long-term
stability of solar PV to hedge against rising and fluctuating prices. During the Workshop, the PV Financing EU Policy Advisory Paper was launched and the potential Business models in Europe were presented. |
BSW – Bundesverband Solarwirtschaft e.V. – German Solar Association – Luz Alicia Aguilar Lietzenburger Straße 53 10719 Berlin Germany Phone: +49 (30) 29 777 88-40 E-Mail: info@pv-financing.eu |
PV Business models for the social housing sector
One of the application segments the PV Financing project has looked at is the social housing sector. Together with our project partner Housing Europe, we have looked at social housing, which is a rented segment, and includes both single family and multi family housing. Solar Power Europe presented at the Housing Europe PROFTRAC conference “Getting our homes future ready: Essential skills and innovative solutions for a fair energy transition in public, cooperative and social housing” on potential options available to social housing providers for implementing solar PV on their buildings. |
BSW – Bundesverband Solarwirtschaft e.V. – German Solar Association – Luz Alicia Aguilar Lietzenburger Straße 53 10719 Berlin Germany Phone: +49 (30) 29 777 88-40 E-Mail: info@pv-financing.eu |
National workshops with the financial community
Between
September and November 2016 the PV Financing partners conducted a series of
seven workshops in Austria, Spain, Germany, Italy, France, Turkey and the UK
with the financial and insurance community to discuss barriers and drivers
for the financing of solar PV in each country. In each case a number of experts presented their views to the group, which also included solar investors and developers. A selection of the presentations are available for download below. Note these are all in the national language of the country concerned. For more information please get in touch with the national project partner. |
BSW – Bundesverband Solarwirtschaft e.V. – German Solar Association – Luz Alicia Aguilar Lietzenburger Straße 53 10719 Berlin Germany Phone: +49 (30) 29 777 88-40 E-Mail: info@pv-financing.eu |
Investing in Europe’s sunshine, Encouraging finance and reducing risk
The goal of the European workshop with the financial community was to look at what are the innovative sources of finance and ways of reducing risk that are relevant at an EU-wide level, learn from some of the countries not covered in the PV Financing project and discuss some best practice business models that could be adopted in new markets. |
BSW – Bundesverband Solarwirtschaft e.V. – German Solar Association – Luz Alicia Aguilar Lietzenburger Straße 53 10719 Berlin Germany Phone: +49 (30) 29 777 88-40 E-Mail: info@pv-financing.eu |
How to develop PV in Europe: Implementation Guidelines – procedures and examples
The aim of the workshop was to present one of the main deliverables of the PV Financing project: the national and European Implementation Guidelines. The workshop presented the best business models for the development of solar PV in Europe as well as national best-practices and case studies. |
BSW – Bundesverband Solarwirtschaft e.V. – German Solar Association – Luz Alicia Aguilar Lietzenburger Straße 53 10719 Berlin Germany Phone: +49 (30) 29 777 88-40 E-Mail: info@pv-financing.eu |
Suitable Business Models & Financial Schemes for PV Development in Europe
The goal of the workshop was to present some of the suitable business models and financial schemes for the development of photovoltaic in Europe, as well as their challenges and best practices. Renowned experts described the best practices and challenges of these. |
BSW – Bundesverband Solarwirtschaft e.V. – German Solar Association – Luz Alicia Aguilar Lietzenburger Straße 53 10719 Berlin Germany Phone: +49 (30) 29 777 88-40 E-Mail: info@pv-financing.eu |
Solar photovoltaic training course
A training course providing an overview of the main points for developing a solar photovoltaic project and in more detail the design of a photovoltaic solar plant. |
LINK: https://www.dnv.com/training/solar-photovoltaic-training-course-44964
Energy Academy email: academy.energy@dnv.com web: www.dnv.com/energy-academy tel: +31 (0)6 29602659 / +31 (0)6 15063593 / +31 (0)6 18410601 |
Solteach Pro
The
Solteach Pro training program is aimed at solar industry companies and
workers specifically regarding solar tracker application in large projects.
Solteach Pro is imparted by highly experienced engineers and project managers
to train and certify individuals or companies in the optimal application of
the unique SF7 Single-Axis Tracker, from plant design to commissioning. SF7 is the ideal solar tracker for large-scale PV tracking projects with its features of high yield-gain performance and agile application. Those features combined with extreme supply and service performance have driven Soltec and SF7 to the top-tier globally. |
SPAIN: +34 968 603 153 info@soltec.com MADRID +34 91 449 72 03 emea@soltec.com SCANDINAVIA +45 20 43 01 50 scandinavia@soltec.com ITALY italia@soltec.com |
International Summer School on Photovoltaic Systems and Emerging Technologies: From mainstream silicon to disruptive organics/perovskites technologies
The ISSOPVS summer school has been developed for those with interest in Solar Energy and its applications. Furthermore, the program is designed for those who intend to pursue an academic or a professional career related to photovoltaic technology. This course intends to equip students or graduates, technicians as well as researchers who wish to get a comprehensive introduction to renewable and more specifically photovoltaic energies.
The focus will be about the last generation, Organic and Perovskites photovoltaics technologies. Apart from the theoretical part, the workshop is ideal for everyone who is already working in this field and needs to deepen their knowledge about new developments, industrial status, and market perspectives. The summer school therefore unites participants from a wide range of professional and academic backgrounds.
+30 2510462225
+30 2510462225
i3se@chem.ihu.gr
Photovoltaic Material and Device Modeling
The
efficiency of commonly deployed PV components is rapidly approaching its
technological limits. Therefore, future developments will depend on skilled
modeling engineers who are well versed in the use of advanced and novel
materials, interface engineering and device architectures. This course aims to equip participants with these essential skills. It will deepen your understanding and use of tools and methods to accurately characterize and model the performance of photovoltaic materials and devices. You will learn to examine manufacturing aspects, optimize your processes and workflows and find ways to refine and improve solar cell architectures. With these new skills and knowledge, you will be able to improve processes, throughput and efficiency throughout your organization and to optimize current and future devices. This course will specifically benefit engineers who are engaged in R&D and process design of photovoltaic devices. |
Delft University of Technology attn. Extension School | room D-1-270 P.O. box 5 2600AA Delft The Netherlands https://online-learning.tudelft.nl/help-and-support/ |
High Performance Photovoltaics
This
course presents the evolution of process technology from mature to emerging
concepts for future PV devices. After completing the course you will be
better able to design your solar materials, devices and modules, improve
their efficiency and fully understand the sustainability aspects. The renewable energy sector, including the PV technology field, is rapidly evolving with innovative device architectures and novel materials. How can these developments tackle performance losses? What is the environmental impact of traditional PV and what can be done to address any drawbacks? Can emerging PV materials and devices provide a solution for both performance and environmental problems? The course will enable R&D researchers and process engineers, working in the field of solar cell and module technology development whether at manufacturers, equipment and material suppliers or labs to enrich their understanding of reliability and sustainability, and the technologies behind novel cell and module concepts from materials selection to device manufacturing. |
Delft University of Technology attn. Extension School | room D-1-270 P.O. box 5 2600AA Delft The Netherlands https://online-learning.tudelft.nl/help-and-support/ |
Wind & solar power projects, and investment risk training course
The
training course structure will lead the participants towards a check list of
items to be considered and addressed in their own due diligence reviews.
Throughout the day, topics will refer back to the project cash flow model and
practical exercises. The training course focuses on technical experience,
with some coverage of related commercial issues; the course does not however
cover detailed legal or insurance issues associated with transaction
structuring. |
LINK: https://www.dnv.com/training/wind-solar-power-projects-and-investment-risk-training-course-30418
Energy Academy email: academy.energy@dnv.com web: www.dnv.com/energy-academy tel: +31 (0)6 29602659 / +31 (0)6 15063593 / +31 (0)6 18410601 |
Scaling-Up Solar PV Roof Top - Part I : Market trends, regulations, and business models to promote solar PV rooftop projects
The webinar debated the key challenges and opportunities in PV rooftop segment in policies, technology advancement and investors perspective in commercial, industrial and residential space. It also aimed to discuss Solar PV Roof top options suitable for the region, exchange relevant EU and GCC best practices and lesson learned as well as opportunities for EU GCC partnerships. |
Advanced Teaching and training on Smart grid & Grid Integration of Renewable Energy Systems
This
project aims at developing and implementing interdisciplinary teaching
modules and training courses on SG and integration of RES to electrical
networks on university teaching level. While the teaching materials target
graduate and postgraduate students, the training courses are designed to
train the teachers involved in the process.
One of the main objectives of the project includes "Introducing
the topic of Smart grid and grid integrated systems to the curricula of
undergraduate and Postgraduates programmes in different MENA and EU
universities" In the implementation phase, the modules will be incorporated in existing curricula at partner universities and some special modules will be also offered in the training centre for the industrial stockholders. In a following step, these modules will be disseminated through targeted e-learning. |
University of Newcastle (UNEW) –UK Newcastle University, NE1 7RU, United Kingdom Telephone: +44 191 208 6000 https://www.meu.edu.jo/sites/atsgires/index.php/contact-us |
Summer / Winter School Wind Energy, Solar Power & Biogas Plants
To train participants to become experts in the sectors of renewable energy and environmental technology. The programs are organized either in Germany, one of the most advanced countries in engineering technologies, or in our partner institutions which are located throughout the world. All programs are characterized by both theoretical and practical aspects in order to meet the demands of highly ranked employers in the “green” economy. Strong emphasis on the practical aspects of the program(s) through exercises, simulations, and site tours. Visits to German companies and projects in the field of renewable energy are also included, to enable participants to discuss their topics of interest with experts, manufacturers, and business partners. Theoretical aspects of the program include lectures and presentations. |
Head Office Kaiser Friedrich-Str. 4a, Berlin, 10585, DE https://www.linkedin.com/company/german-academy-for-renewable-energy-and-environmental-technology/about/ |
Photovoltaic (PV) Basics Workshop
The training is designed to empower the participants to work in the Solar Energy Sector. This training is necessary to take the right decisions and be able to plan, buy, install and operate infinite, clean and independent solar energy systems. |
+49 5335 808996 support@inutec-int.com |
Enhancing Storage Integration in Buildings with Photovoltaics
PV-ESTIA
has developed two tools aiming to facilitate the design of PV and storage
systems in buildings. 1. PV-ESTIA sizing tool for hybrid systems: The PV-ESTIA sizing tool for hybrid systems models buildings` both the thermal and the electrical energy demand. It provides the optimal combination of PV and BESS sizes for a chosen configuration that yields the highest profits for the prosumer. 2. Specialized tool for advanced users: helps to check the financial viability of residential PV+Storage systems in the Balkan-Mediterranean area. It targets mainly policy makers and is based on MS Excel. The tool can perform a parametric analysis for PV and battery sizes and outputs the optimum combination in terms of maximizing profits. |
SMA America Webinar: Commercial PV Solutions from SMA
The CORE1-US commercial inverter is the most flexible and cost-effective commercial PV solution available today. In this webinar you will learn how easily this device can be designed and installed into rooftop, carport, or ground mount systems. A built-in SunSpec transmitter and full UL Rapid Shutdown system listing with compatible SunSpec certified receivers allows for 2017 NEC 690.12 compliance when needed. Additionally, the CORE1’s groundbreaking UL 3741 listing provides commercial flat roof installations full NEC 690.12 compliance without needing to install MLPE at all! The webinar will close with a brief look at the soon to be released Sunny Tripower X US line. Whatever commercial requirements you are facing, SMA America can deliver the most reliable and cost-effective solution. |
Germany Gabriele Berst and Katharina Feyh Phone: +49 561 95 22-4884 (08:00 to 12:00 AM) Fax: +49 561 95 22-2880 Solaracademy@SMA.de France Serge Communal Phone: +33 472 22 97 07 Serge.Communal@SMA-France.com Italy Phone: +39 02 8934 7200 Fax: +39 02 8934 7201 marketing@sma-italia.com |
Energy storage fundamentals academy
The
Energy storage fundamentals academy trains industry professionals in the
following areas - key market opportunities and trends for energy storage projects across the EU and UK. Understand the co-location model and how to maximise project revenue. - knowledge needed to create a solid business case for introducing energy storage, how to unlock its full value potential and a good understanding of hybrid project PPAs. |
LINK: https://pexapark.com/energy-storage-fundamentals-academy/
+41 (0) 43 215 58 72 hello@pexapark.com |
KACO New Energy: Commissioning blue planet NX-Series Residential
Training
courses on inverters and systems for solar power plants as well as battery
storage for industrial and residential applications Detailed knowledge about product advantages, installation, service and maintenance of the systems |
KACO new energy GmbH – A Siemens Company Werner-von-Siemens-Allee 1 74172 Neckarsulm Germany Tel. +49 7132 896-0 https://kaco-newenergy.com/contact/ |
Solar and Energy Storage training course
The
training will provide insight into the latest energy transition outlook for
both solar and storage technologies. The topics covered are: energy market
outlook in relation to solar and energy storage, technology and component
principles, the role of storage in providing flexibility to solve
intermittency issues in the grid, business models, performance indicators,
warranties, safety, risks and risk mitigation, and more. DNV will provide you with international examples and present our view on best practices for combined solar and energy storage systems, using our expertise on solar and our industry-supported GRIDSTOR methodology. |
LINK: https://www.dnv.com/training/solar-and-energy-storage-training-course-105479
Energy Academy email: academy.energy@dnv.com web: www.dnv.com/energy-academy tel: +31 (0)6 29602659 / +31 (0)6 15063593 / +31 (0)6 18410601 |
Towards an efficient implementation of storage in buildings - Experiences and good practice
Several
energy experts from the market and the universities shared their experience
regarding the implementation of storage systems in buildings. The main
subjects of the workshop were: - The European experience, research and perspectives for storage. Hybrid PV+Storage. - The Interreg Balkan MED area experience. - Developing the tools for the future intelligent power grids. |
Reducing energy cost through electrical and thermal energy storage
The course aimed in providing useful and updated information about the electrical and thermal energy storage technologies. Moreover, all recent trends regarding the installation of energy storage systems in residential sector have been highlighted. During these meetings the PV-ESTIA project was presented and explained in details to all participants, as a case study that supports the core concept of the training course itself. |
Electricity storage, Electrification and Renewable Energy Sources
Assoc. Professor Georgios C. Christoforidis presented the PV-ESTIA project |
The policy barriers and opportunities related to nZEBs and PV+storage
In light of the new national Energy Law a fruitful debate took place concerning the integration of rooftop PVs and the opportunities for Energy Storage Systems. |
Training of trainers of Bulgarian VET Institutions
With the aim to widely spread the GSS-VET training’s materials and the new training methodology, after the successful pilot training of the solar installers, the BG partners organized a training of professors in VET institutions |
LINK: "Link to training material http://elearning.gss-vet.eu/course/view.php?id=15"
Virtual Lab: Small scale PV systems with electrical storage
This
course provides you with practical experience with photovoltaic (PV) modules
in small systems. Are you familiar with the theory of solar cells and modules, with different PV
system configurations and topologies, with the behavior of different PV
system components, and with the principles of operation of electronic
converters and maximum power point trackers (MPPT)? Then in this course you
will see – in real time – how all these characteristics and factors affect
the operation of a small photovoltaic system. You will gain this practical experience in a virtual lab environment, in which you will conduct experiments. This course includes 4 parts as below: Part 1 – PV Module Characteristics Part 2 – PV Module Configurations and Systems Part 3 – Off-Grid and Grid-Connected PV Systems Part 4 – DC-DC Converters and Maximum Power Point Trackers |
Delft University of Technology attn. Extension School | room D-1-270 P.O. box 5 2600AA Delft The Netherlands https://online-learning.tudelft.nl/help-and-support/ |
Virtual Lab: Large scale PV systems with Hydrogen based storage
This
course provides you with practical experience with large photovoltaic (PV)
systems and the production and utilization of green hydrogen. If you are
familiar with the functioning of PV systems and with the principles of
operation of electrolyzers and fuel cells, in this course you will see – in
real time – how all these components can work together in a cohesive system
and how they can be scaled up to create a large power plant. You will gain this practical experience in a virtual lab environment, in which you will conduct experiments. This course includes 4 parts as below: Part 1 – A Photovoltaic Power Plant Part 2 – Electrolyzers and Fuel Cells Part 3 – Green Hydrogen Production and Utilization Part 4 – A Photovoltaic + Green Hydrogen Power Plant |
Delft University of Technology attn. Extension School | room D-1-270 P.O. box 5 2600AA Delft The Netherlands https://online-learning.tudelft.nl/help-and-support/ |
Virtual Lab: Light, Photovoltaic celss and modules
Experience
the characteristics and operation of the light, solar cells, and photovoltaic
modules. This course provides you with practical experience with solar cells and modules. If you are familiar with the physical properties of light, the theory of solar cells and the influence of temperature and shade on the performance of photovoltaic modules, in this course you will see – in real time – how these characteristics and factors affect the operation of a photovoltaic system. You will gain this practical experience in a virtual lab environment, in which you will conduct experiments. This course includes 3 parts focusing on light, solar cells, and photovoltaic modules: Part 1 – Light Part 2 – Solar cells Part 3 – Photovoltaic modules You will investigate the effect of temperature and shading on the performance of different photovoltaic module technologies. |
Delft University of Technology attn. Extension School | room D-1-270 P.O. box 5 2600AA Delft The Netherlands https://online-learning.tudelft.nl/help-and-support/ |
Geothermal and solar skills - Vocational education and training (GSS VET): Photovoltaic systems
The
GSS Challenge: Unmet demand for new skills for electricians and plumbers
working on geothermal and solar installations, combined with a high
unemployment rate of electricians and plumbers without environmental
skills. The aim of GSS-VET is to create and offer adequate, advanced education and training on the geothermal and solar systems to be largely used in the building /green industry in 4 pilot and further on – in 8 more EU countries. GSS - VET Project aims to address work profiles at technician level for geothermal and solar energy sectors in Spain, Greece, Germany and Bulgaria. |
LINK: "Link to training material http://elearning.gss-vet.eu/course/view.php?id=15"