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Curs de instalare si mentenanta turbine eoliene
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Industry-leading certification pathways designed to meet the rigorous demands of the global energy sector.
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Training certificat GWO pentru tehnicieni turbine onshore si offshore. Training certificat GWO pentru tehnicieni turbine onshore si offshore.
16 Cursuri
Training certificat GWO pentru tehnicieni turbine onshore si offshore.
28 Cursuri
Training certificat GWO pentru tehnicieni turbine onshore si offshore.
32 Cursuri
Training certificat GWO pentru tehnicieni turbine onshore si offshore.
53 Cursuri
Cursuri Parcuri Fotovoltaice
Cursuri Stocare Energie Electrică
Renewable energy is rapidly transforming the energy industry, creating a more diverse sector with enormous opportunities for new technologies, new businesses, and new ideas. Investments in renewable energy are skyrocketing in line with ambitious national goals aimed at reducing carbon emissions. As renewable energy capacity grows, one viable solution to achieve energy sustainability goals is energy storage. This course is designed to provide an overview of battery energy storage systems, enabling participants to assess the advantages and challenges of this technology and become familiar with key concepts of such systems. Topics Covered during the Battery Course - The Commercial Aspect of Storage Solutions in Romania and Worldwide:⚡ Romanian Market and Legislation for Storage; ⚡ Types of Storage Markets and Services in Romania and the EU; ⚡ Business Plan, Costs, and IRR; ⚡ Case Study: Technical and Commercial Operation of Mireasa Hybrid 216 MWh ⚡ Storage solutions and equipment. ⚡ Used equipment and software solutions.Lectori Sebastian Enache - a recognized expert in this field. With over 17 years of experience in the photovoltaic and wind industry, including design, services, and company management, Sebastian began his career in one of Romania's earliest renewable energy companies. To date, they have developed over 5000 MW of wind and photovoltaic energy, with Sebastian actively involved in M&A transactions totaling over 3500 MW of renewable projects, as well as design and technical analysis for over 9000 MW, and services for over 20000 MW across more than 15 countries worldwide. Sebastian has been actively involved in both development and M&A activities for the 600 MW Fântânele-Cogealac wind farm and the newly established 1000 MW Arad-Grăniceri photovoltaic park. Since 2010, Sebastian has founded Romania's first private dispatch center and one of the earliest in Europe, which currently hosts over 30% of Romania's renewable capacity. Since 2016, Sebastian has been an active member of the RWEA board of directors and, from 2022, the RPIA board of directors. Since 2019, Sebastian Enache has been coordinating the most significant professional reconversion project, RENEWACAD, aimed at transitioning miners to skills required in the renewable energy industry, a project supported by the European Commission and the Ministry of Energy. Mihaela Popescu - with 10 years of experience in Strategic Project Management, has developed a comprehensive skill set over time, including analyzing various sources of information, team leadership, and interdisciplinary coordination. In pursuit of working in complex and innovative fields, she joined Monsson Group in 2023, assuming the role of Coordinator of the Asset Management Department of the Energy Storage System. In this position, Mihaela Popescu has contributed to identifying the most effective operational strategies for Monsson Group's new storage capacity. Alexandru Bratosin is an electrical engineer who has overseen the commissioning and operational testing program for Monsson's 24 MWh energy storage pilot project, currently the largest in Romania. Since 2007, Alexandru has demonstrated a proven track record of delivering excellent work in the maritime sector across multiple international companies. He started as an electrical officer and progressed to roles such as electrical supervisor and senior electrical superintendent for new ship construction projects, managing major endeavors in countries like China, Taiwan, South Korea, Japan, and Spain. Since 2022, Alexandru has been a project manager in the renewable sector at Monsson SRL, where he is responsible for the energy storage system and photovoltaic parks. To whom is it addressed The course is aimed at individuals who wish to gain a deeper understanding of the battery storage industry from both technical and business perspectives. Participants will learn about the concept of electricity production from renewable sources and the main characteristics of this industry. They will be able to assess macro-level opportunities in this sector as well as trends in technologies and new methods of integrating renewables into current energy systems. Additionally, upon completion of the course, they will be familiarized with the main stages involved in developing a project for the production and storage of electricity from renewable sources. Curriculum - General context of the EU and Romanian energy market, 2025- Romanian energy market 2024-2030- Global trends in energy prices and technology types- Energy storage and types of storage - Energy storage in batteries. Characteristics and main advantageso Advantages/Disadvantages of different technologies o Key features - General principles for designing storage systems- General principles for developing storage systems – Romania- Legislation on Storage 2024-2025- Minimum technical and commercial requirements for market compliance- Development / authorization process from TSO perspectiveo Case study: stand-alone battery in Romania o Case study: behind the meter battery in Romania o Financing and Business Plan - Case study: Technical Operation in the Market – Mireasa 216 MWh General Project Used technology, SCADA, and operation Equipment and suppliers used
8h
€650*
+TVA
Book for Training
Cursuri Parcuri Fotovoltaice
Cursuri Parcuri Fotovoltaice
Improving PVSyst knowledge through simulation of grid-connected utility-scale PV systems with case studies up to 20 MWp. Module 1 - PV Systems with Trackers / Case Study 5 MWp -Defining and constraints of a PV system with trackers, shading analysis in PVSyst, and studying the report. Module 2 - Optimizations / Case Study 1 MWp -Functionality of optimization tools and unlimited tables, simultaneous simulation for different tilt angles and row distances. Module 3 - Bifacial PV Modules / Case Study 10 MWp -Designing a PV system with bifacial modules in PVSyst, albedo values, and other aspects. Defining, calculating, and applying all losses, engineering logic behind the rules, understanding the loss diagram (Sankey diagram). Module 4 - Energy Management in PVSyst -P50 and P90 reports -Limiting exported power to the grid -Power factor Module 5 - String Formation of PV Modules -Creating and designing PVSyst simulations using string formation feature with individual modules Module 6 - Horizon Diagram / Case Study 2 MWp -Creating and designing far shading simulations using Horizon Import feature -Proposal content using a PVSyst report within a sales proposal, along with a template Module 7 - Financial Modeling / Case Study 1 MWp -Overview of financial modeling, preparing a materials list and cost sheet, introducing usage tariff and export tariff, cash flow diagrams, and report generation. Module 8 - Interval Data / Case Study 1 MWp -Defining and extracting interval data along with generating and analyzing reports. Module 9 - Fillzone Function and Contour Mapping -Using the Fillzone function / Case Study 25 MWp -Simulation with contours and on uneven terrains / Case Study 30 MWp Module 10 - Recapitulation / Case Study 21 MWp -Summarizing all concepts in a single case study
8h
€1000*
+TVA
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Cursuri Turbine Eoliene
BTTH
Aims and Objectives of the BTT Hydraulic ModuleThe aim of the BTT Hydraulic Module is to give the participants the knowledge and skills to carry out basic hydraulic tasks (supervised by an experienced technician), using safe working procedures and the correct PPE.After having successfully completed the BTT Hydraulic Module, participants will be able to:1)Explain the basics of hydraulics (Knowledge, intermediate level)2) Explain risks and hazards associated with hydraulic work (Knowledge, intermediate level)3) Describe the function of different types of pumps (Knowledge, basic level)4) Perform check of start/stop pressure of a pump (Skills, intermediate level)5) Describe the function of different types of actuators (Knowledge, basic level)6) Explain the function of different types of valves (Knowledge, intermediate level)7) Describe the function of accumulators (Knowledge, basic level)8) Perform check and pre-charge of accumulators (Skills, intermediate level)9) Describe the function of different types of sensors (Knowledge, basic level)10) Recognise the components that transfer the oil (Knowledge, basic level)11) Describe the handling of oil procedures (Knowledge, basic level)12) Recognise and find different components on a hydraulic diagram (Knowledge, basic level)13) Perform the accurate measurement of the hydraulic pressure (Skills, intermediate level)
8 [h]
€500*
+TVA
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Cursuri Turbine Eoliene
SR-NTBR
Aims and objectives of the Single Rescuer NTBR Module The aim of this module is to enable the participants to perform single rescuer advanced rescue operations, in a WTG nacelle, tower and basement, by using industry standard rescue equipment, methods and techniques, exceeding those of GWO’s BST Working at Heights Module. Based on the participants’ NTBR Module qualifications, the Single Rescuer NTBR Module shall ensure that participants are able to: 1. Assess and determine single rescuer rescue strategy (relevant rescue method, technique, certified equipment and how to organise the rescue efforts and incident scene) for various rescue scenarios, in a WTG nacelle, tower and basement 2. Apply rescue methods and techniques in performing descending and ascending single rescuer rescue operations, from a WTG nacelle, tower and basement using a rescue stretcher and transfer board, manually operated and power-driven lowering/raising rescue system (rescue device and pulley system or similar), and other rescue equipment relevant to the participants.
4 [h]
€190*
+TVA
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Cursuri Turbine Eoliene
SR:HSIBR
Aims and objectives of the Single Rescuer HSIBR Module The aim of this module is to enable the participants to perform single rescuer advanced rescue operations, in a WTG hub, spinner and inside the blade by using industry standard rescue equipment, methods and techniques, exceeding those of GWO’s Basic Safety Training, Working at Heights Module. Based on the participants HSIBR module qualifications, the single rescuer HSIBR module (SR:HSIBR) shall ensure that participants are able to: 1. Assess and determine single rescuer rescue strategy (relevant rescue method, technique, certified equipment and how to organise the rescue efforts and incident scene) for various rescue scenarios, in a WTG hub, spinner and inside a blade. 2. Apply rescue methods and techniques in performing descending and ascending single rescuer rescue operations, from a WTG hub, spinner and inside a blade using: a rescue stretcher and transfer board; manually operated lowering/raising rescue system for limited distance rescue (rescue device, pulley system or similar); and other rescue equipment relevant to the participant.
8 [h]
€300*
+TVA
Book for Training
Cursuri Stocare Energie Electrică
This course is the first step for auto mechanics to expand their internal combustion engine repair skills to electric vehicles. It follows the ASE Level 1 guidelines to become an “electrically-aware person” and learners should be able to pass the ASE xEV Electrical Safety Standards Version 1.1 Level ONE exam. This exam certifies automobile technicians to work safely on the low-voltage components of electric vehicles. That is, you can work around high-voltage components without injuring yourself or damaging the vehicle. Later courses will teach you what you need to know to diagnose and repair the high-voltage components themselves.
2h
€100*
+TVA
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Cursuri Stocare Energie Electrică
This certificate aims to equip organisations with knowledge and skills to evaluate IT risks and typical vulnerabilities in the context of energy systems. Methods to avoid attacks, amongst other things exploiting human factor related risks, are described and learners will get to know approaches for dealing with security /privacy issues when designing energy data systems (Security /Privacy-by-Design). Imparting an overview of the European legal frameworks and a deeper look into country-specific regulation that have to be considered while building smart grid business models.
7h
€460*
+TVA
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Cursuri Turbine Eoliene
BTTB
Aims and Objectives of the BTT Bolt Tightening Module The aim of this module is to prepare participants for company specific bolt tightening training, through scenario-based training. After having successfully completed the BTT Bolt Tightening Module, participants will have the: 1) Act independently to safely plan, carryout and complete generic bolt torquing and tensioning tasks to specification using energy powered equipment (Ability, intermediate level).
8 [h]
€550*
+TVA
Book for Training
Cursuri Stocare Energie Electrică
This certificate has been designed as an introduction to the integration and regulation of different energy systems. You will learn how energy vectors – fuels, electricity, and heating – interact and how to find added value at the interfaces between them. You’ll also build insights into the ways in which energy systems connect to other infrastructures, such as data networks, water, and transportation systems. And you will learn about how consumer psychology and society have a role in building a more sustainable, reliable, and cost-effective energy system.
4h
€320*
+TVA
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Cursuri Parcuri Fotovoltaice
Duration: 12 hours Validity: 24 months The Solar Technical Installation (S-TTI) module enables participants to safely plan, prepare, and perform the installation of photovoltaic (PV) systems in accordance with manufacturer requirements and applicable safety standards. It combines theoretical instruction with extensive practical exercises on mechanical and electrical installation tasks.Participants will learn how to:– Interpret PV installation drawings, specifications, and method statements;– Plan installation activities including logistics, tools, and risk assessment;– Assemble substructures, support frames, and racking systems according to torque and alignment specifications;– Mount PV modules securely, ensuring correct positioning, orientation, and spacing;– Connect DC strings and verify polarity, insulation resistance, and continuity tests;– Route and fix cables correctly using UV-resistant clips and strain relief methods;– Apply grounding, labeling, and documentation according to solar installation standards;– Perform final inspection and quality checks prior to system commissioning.Objective:Upon completion, participants will be able to carry out solar PV installation safely and efficiently, ensuring compliance with GWO, IEC, and manufacturer standards, while contributing to the overall quality and reliability of the solar installation.
12h
€350*
+TVA
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Cursuri Stocare Energie Electrică
The Battery Storage Basics certificate empowers learners with the basic knowledge and insights to build up their understanding of the importance and working principles of battery technologies. They will learn how batteries fit in the energy context, what is their historical importance, and explore different perspectives and classification of current battery technologies. Learners will then look into the core components and parameters of batteries and battery systems. Lastly, they will be guided through different battery technologies that are currently in use.
10h
€600*
+TVA
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Cursuri Turbine Eoliene
CHBU
Duration: 16 hours Validity: Unlimited The Crane & Hoist Basic User (CHBU) module enables participants to safely and correctly operate cranes and hoists used in wind turbine environments. The training follows the GWO Crane & Hoist Standard V2 (2025) and combines theoretical lessons with practical exercises to ensure safe lifting operations and understanding of relevant safety measures.Participants will learn how to:– Identify the main types of cranes and hoists used in wind turbines and their safety features;– Understand lifting principles, load charts, and mechanical limitations;– Inspect lifting equipment and accessories before use;– Apply correct lifting techniques, including load balancing and tag line control;– Operate cranes and hoists safely under normal and emergency conditions;– Communicate effectively using standard hand signals and radio communication during lifting operations;– Recognise potential hazards such as overload, swing, or pinch points;– Conduct shutdown and storage of lifting equipment according to procedures.Objective:Upon completion, participants will be able to safely operate and assist in crane and hoist operations in wind turbines, following safety standards, manufacturer instructions, and site-specific procedures.
16 [h]
€650*
+TVA
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Cursuri Stocare Energie Electrică
This mini-certificate focuses on the next generation electrolytes for Li-ion and Lithium metal batteries, the solid electrolytes, explaining why the shift to a solid electrolyte is necessary, which types of solid electrolytes exist, how they work and their specific features and benefits.
3h
€390*
+TVA
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Cursuri Turbine Eoliene
HSIBRR
Aims and objectives for the Hub, Spiner and Inside Hub Rescue Module (HSIBR Module) The aim of this module is to enable participants, through theoretical and practical training, to perform rescue operations, in a WTG hub, spinner and inside the blade by using industry standard rescue equipment, methods and techniques, exceeding those of GWO Working at Height. After having successfully complete this HSIBR Module, the participants will have the ability to 1) Take responsibility to determine rescue and evacuation strategy, performing rescue operations in a WTG hub, spinner and inside the blade (Knowledge, intermediate level). 2) Explain the concepts of lifting angle, angle factor and deviation considering common risks of hazardous energies and common hazards (Ability, intermediate level).
8 [h]
€250*
+TVA
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Cursuri Parcuri Fotovoltaice
Estimating energy production and losses of a photovoltaic power plant up to 1 MWp using PVSyst. Module 1 - Basic Elements -Latitude, longitude, and sun movement throughout seasons. -Definition, impact, and calculation of tilt and azimuth angles. Module 2 - Preliminary Design and Excel Calculations -Typical project lifecycle, evaluation of electricity bills, use of solar radiation maps and Google maps, and estimation of plant capacity. -Using Excel to calculate number of modules and inverters, selection of modules and inverters, and sizing of strings. -Preliminary requirements for site visits, studying obstacles and electrical diagrams, creating rough sketches of the site and single-line diagrams, unforeseen scenarios. Module 3 - Understanding Energy Losses in PVSyst / Case Study CEF 50 kWp -Overview of PVSyst characteristics and functionalities. -Creating a new site, steps involved in using the software, and generating a report. -Definition, calculation, and application of all losses, understanding the loss diagram (Sankey diagram). Module 4 - 3D Shading Scene Design in PVSyst / Case Study CEF 1 MWp -Creating a 3D shading scene, minimizing shading losses, visualizing shade animations throughout a day and analysis, report generation, and understanding shading effects. Module 5 - Sub-Array Design in PVSyst / Case Study CEF 200 kWp -Defining sub-arrays, designing a detailed sub-array system, and analyzing the report. Module 6 - Carport Design and Sales Proposal / Case Study CEF 400 kWp -Creating a carport project in PVSyst, detailed project with losses, 3D modeling and shade analysis, report generation and analysis. -Content of a sales proposal using a PVSyst report within a sales proposal, along with a template. Module 7 - Additional Functions of PVSyst -Adding new modules and inverters, exporting and importing projects, compatibility with other software, adding custom logos, and more.
8h
€1000*
+TVA
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Cursuri Turbine Eoliene
SLS
Aims and Objectives for the Slinger Signaller Module The aim of GWO’s Slinger Signaller Module is to enable the participant to support and care for themselves and others while working with slinger signalling in the wind industry by possessing the required knowledge, skills, and ability to conduct assigned tasks safely and efficiently. Upon successful completion of GWO’s Slinger Signaller Module training course, the participant will be able to work within the wind industry conducting slinging techniques and signalling during simple lifting operations, meaning lifts conducted based on a lifting plan or covering known hazards. Overall learning objectives The participants of the slinger signaller module will have the ability to: 1) On their own, take responsibility to attach and detach the load to and from the crane lifting attachment (Ability, intermediate level) 2) Take responsibility to initiate and direct the safe movement of the crane, including multiple slinger signallers during limited or blind lifts in both familiar and unfamiliar situations (Ability, intermediate level) 3) Take responsibility for their role and responsibilities during the lift (Ability, intermediate level) 4) On their own, take responsibility for visual pre- and post-inspection on lifting accessories and load (Ability, intermediate level) 5) Take responsibility for handling lifting accessories (Ability, intermediate level) 6) Act independently when taking responsibility for ensuring safe lift-off and lay down of the load (Ability, intermediate level) 7) Take responsibility for slinging various types of loads, based on weight, centre of gravity, shape, and size and to seek guidance when needed (Ability, intermediate level) 8) Take responsibility to carry out generic routine lifts in accordance with the lift plan independently and responsibly (Ability, intermediate level) 9) Take responsibility to comply with instructions/procedures set up by the employer to manage lifting and to seek guidance when needed (Ability, intermediate level) 10) Take responsibility to ensure that equipment is properly applied, maintained and that defects are reported (Ability, intermediate level)
16 [h]
€350*
+TVA
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Cursuri Stocare Energie Electrică
This mini-certificate provides a deep yet simple explanation of the operational principles of a rechargeable battery. The certification spotlights the importance and discusses the fundamentals of the ‘electrochemical cell’ which is the heart of any battery system independent of the storage size. A direct link is set forth between the chemical nature of the cell components and the storage properties of interest such as ‘electromotive force’ and gravimetric & volumetric capacities. Specific attention is directed towards lithium-ion batteries by presenting more details about the materials of choice for the anode/cathode together with their synthesis methods.
5h
€490*
+TVA
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Cursuri Parcuri Fotovoltaice
Duration: 8 hours Validity: 24 months The Solar Safe Work (S-SW) module provides participants with the essential knowledge and practical understanding of working safely within solar installations. It focuses on identifying workplace hazards, assessing risks, and implementing preventive measures to reduce incidents and ensure compliance with solar industry safety standards.Participants will learn how to:– Identify and evaluate hazards specific to solar work such as electrical risks, fire, falls, and manual handling injuries;– Apply the hierarchy of risk control (elimination, substitution, engineering controls, administrative controls, PPE);– Use personal protective equipment (PPE) correctly and maintain it in good condition;– Follow site-specific safety procedures, lockout/tagout (LOTO) principles, and permit-to-work systems;– Apply safe manual handling, tool use, and equipment transport techniques;– Demonstrate safe behaviour in relation to weather conditions, heat exposure, and electrical hazards;– Report near-misses, unsafe acts, and hazardous conditions effectively;– Participate in toolbox talks and safety briefings as part of the safety culture in the solar industry.Objective:After successful completion, participants will understand and apply safe working practices and risk prevention principles when performing tasks in solar installations, supporting a proactive safety culture at the workplace.
8h
€200*
+TVA
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Cursuri Parcuri Fotovoltaice
Duration: 4 hours Validity: 24 months The Solar First Aid Awareness (S-FAA) module provides participants with the essential knowledge to recognise, respond to, and support first aid actions in a solar work environment. It is intended for all solar personnel who need a general understanding of emergency response but who are not required to perform full first aid interventions.Participants will learn how to:– Recognise emergency situations and activate the emergency response system;– Call for professional help and provide accurate information to rescue teams;– Assist qualified first aiders during incidents, following their instructions;– Support colleagues safely while maintaining own safety using basic PPE;– Understand the main risks in solar installations related to heat, electrical shock, and falls;– Maintain calm and communicate clearly during emergency scenarios;– Demonstrate awareness of limitations and the importance of professional medical assistance.Objective:Upon completion, participants will be able to act calmly and effectively in emergency situations, provide initial assistance and communicate correctly until professional help arrives, ensuring personal safety and that of others.
4h
€160*
+TVA
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Cursuri Turbine Eoliene
FAWR
Aims and Objectives of the BST Fire Awareness Module The aim of this module is to enable the participants to prevent fires, make appropriate judgements when evaluating a fire, manage evacuation of personnel and ensure all are safely accounted for in the event of an unmanageable fire. If the incident is judged to be safe, the participants should be able to efficiently extinguish an initial fire by using basic handheld firefighting equipment. Overall learning objectives: 1) The participants can act independently to identify fire hazards and prevent fires in a wind turbine environment (Ability, intermediate level) 2) The participants can take responsibility for assessing a fire and, if needed, be able to select the right extinguishing media according to the fire classes (Ability, intermediate level) 3) The participants can take responsibility for the evacuation of personnel and ensure all are safely accounted for in the event of an unmanageable fire (Ability, intermediate level) 4) The participants can act independently in efficiently extinguishing an initial fire by using basic handheld firefighting equipment, if the incident is judged to be safe (Ability, intermediate level).
4 [h]
€140*
+TVA
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Cursuri Parcuri Fotovoltaice
The installer for solar photovoltaic systems is responsible for installing, maintaining, and repairing the equipment and electrical systems necessary for converting solar energy into electricity. This activity involves careful examination of wiring plans and diagrams, using specialized equipment to connect and secure panels, adhering to safety standards and occupational health protection, as well as verifying installation compliance by testing circuit continuity and operating parameters. These operations aim to ensure optimal system efficiency and safe integration into the existing electrical grid. Course Objectives Through this course, participants will acquire the necessary skills for: Installing, maintaining, and repairing photovoltaic systems on various types of buildings and structures. Reading and interpreting technical plans and electrical diagrams. Connecting and testing equipment required for solar system operation. Adhering to safety standards and occupational health, including those for working at heights and handling electrical equipment. Skills Acquired » Reading and interpreting technical documentation specific to the photovoltaic field. » Installing and mounting photovoltaic panels and support structures. » Making electrical connections between system components. » Commissioning photovoltaic installations according to regulations and technical specifications. » Maintaining and repairing equipment in a solar photovoltaic system. » Applying occupational safety and fire protection standards. » Working safely at heights and following procedures for handling masses. Target Audience This course is aimed at those wishing to specialize in the installation and maintenance of photovoltaic systems, including electricians, technicians in the energy sector, or those seeking career transition into this rapidly expanding industry. Admission Requirements: » Minimum educational level: Upper secondary education (first two years of high school). » Medical fitness for working at heights. » Prior training in the electrical field is required for participants in the training program. Course Structure Total Duration: 720 hours (240 hours theory + 480 hours practical) Theoretical Module (basic electricity, safety and occupational health, photovoltaic installation planning) Practical Module (assembly of support structures, installation of panels, connection and testing of photovoltaic systems) Equipment and Safety Participants will learn to use specific equipment including: Tools for electrical measurements (multimeter, clamp meter). Height safety systems (harnesses, lanyards, helmets). Tools and devices for making electrical connections. Fire extinguishing equipment and first aid kits.
720 hh
€400*
+TVA
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Cursuri Stocare Energie Electrică
This certificate has been designed to give participants in-depth knowledge of the exciting potential of battery storage solutions, and their applications and benefits across various areas of the electricity grid. Also, this certification provides a thorough understanding of practical applications, including electric vehicles, energy storage systems (ESS) on grid and at home, industrial products and local energy systems. Furthermore, this certification examines business models and investment opportunities related to battery storage.
13h
€990*
+TVA
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Constanta, 3 March 2026 – RenewAcad announced today that they will begin work on a skills development program under the “Gender and Economic Inclusion Technical Assistance Framework – Access to Skills and Employment”, in partnership with Scatec, Defic and the European Bank for Recons
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RenewAcad, the largest network of renewable energy training centres in South-Eastern Europe, together with Rezolv Energy, today opened a new training centre in Buzau County, dedicated to preparing specialists for the renewable energy industry. The event also marks the launch of the first groups of t
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Constan?a, 12 November 2025 – RenewAcad, the largest network of training centers in the field of renewable energy in South-Eastern Europe, announces that it has obtained accreditation for the GWO Solar Safety Training Standard (S-ST), a new international standard dedicated to safety in the lar
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