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RenewAcad este un centru de pregatire certificat national si international pentru a oferi cursuri de pregatire, de calificare si re-calificare in domeniul surselor regenerabile de energie, in preponderent cursuri pentru industria eoliana si fotovoltaica.
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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 Stocare Energie Electrică
This mini-certificate discusses different methods for battery testing. The importance of testing, related standards, needed testing infrastructure and analysis tools are individually tackled. This series also highlights how the output of battery testing is viable for battery modelling that supports the battery use phase and can possibly be implemented on battery management systems.
5h
€490*
+TVA
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Cursuri Stocare Energie Electrică
The Battery Storage Expert Programme covers the entire battery storage value chain, from the role of batteries to their constituent parts; from the battery value chain to the integration in power applications; from the impact on the electricity market to ground-breaking business models. Participants build the knowledge, the expert understanding, the technical and commercial insights and the human network to play a leading part in driving the global energy transition.
86h
€3750*
+TVA
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Cursuri Turbine Eoliene
FA
Aim and Objectives of the BST First Aid Module The aim of this module is to enable participants, through theoretical and practical training, to recognize signs and symptoms of life threating situations and administer safe and effective first aid in the wind turbine industry/WTG environment in order to save lives and prevent further injury, until the casualty can be handed over to the next level of care.
8 [h]
€190*
+TVA
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Cursuri Stocare Energie Electrică
This certificate will allow participants to dive deep into power conversion systems that connect storage systems to smart grids and consumers, learning how to choose the right type of converter while assessing overall system performance with respect to energy efficiency. It also introduces battery management systems and the critical parametres that we can control, the use of battery testing and operation simulation in order to predict real-world in-service behaviour.
22h
€1290*
+TVA
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Cursuri Stocare Energie Electrică
This certificate extract insights from the energy big data to boost your business and create value added services. Participants learn how to develop and implement data science projects in energy businesses. Participants also evaluate the implications, challenges, and benefits of implementing data science projects in an energy company; apply lessons learned from real-life business cases in which data science was applied to energy big data; and supervise the development and implementation of a data science project to create new value with the available data.
15h
€990*
+TVA
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Cursuri Stocare Energie Electrică
Battery Technician focuses on the practical skills that are needed to design, operate, test, maintain, and replace battery cells and packs for various applications. After completion, learners are empowered to choose the right technology for the right challenge, set up battery systems, and evaluate battery performance.
25h
€1190*
+TVA
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Cursuri Turbine Eoliene
BaSC
ENG: Aims and Objectives for the CoHE Basic Safety Module The aim of this module is to enable participants, through theoretical and practical training, to act safely while working in the vicinity of hazardous energies in the wind industry and be able to perform assigned tasks safely. After having successfully complete this CoHE Basic Safety module, the participants will have the ability to: 1) Solve the challenge of how to act safely while working in the vicinity of hazardous energies in the wind industry and will on their own initiative seek guidance when needed (Ability, basic level)
4 [h]
€350*
+TVA
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Cursuri Parcuri Fotovoltaice
Cursuri Turbine Eoliene
WAHR/MHR
Aims and Objectives of the BST Working at Heights & Manual Handling Module The aim of this module is to enable the participants, through theoretical and practical training, to use basic personal protective equipment, work safely at heights and perform comprehensive basic rescue from heights in a wind turbine environment. Furthermore, this module also aims to encourage positive manual handling and ergonomic behavior and enable participants to perform manual handling tasks in a safe manner.Overall learning objective for the module:After having successfully completed this BST Working at Heights and Manual Handling Module, the participants have the ability to act safely and responsibly and apply good manual handling techniques when working at heights and performing comprehensive basic rescue from heights. (Ability, intermediate level).
8 [h]
€224*
+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 Stocare Energie Electrică
This mini-certificate explains the need for a BMS for different battery technologies, highlight several possible configurations and discuss the communication means. More advanced features are introduced related to the state of the battery system and guaranteeing that the latter is optimally used.
5h
€490*
+TVA
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Cursuri Parcuri Fotovoltaice
The competency assessment for the 720-hour Qualification course in photovoltaic (PV) system installation involves the process of verifying and certifying the knowledge, skills, and abilities required in this field. The course focuses on the installation, maintenance, and repair of photovoltaic systems, ensuring compliance with current standards and regulations. Assessment Criteria: Technical Knowledge: Demonstrating knowledge of electricity, solar energy, and the operation of photovoltaic systems, including their components (panels, inverters, etc.). Practical Skills: Verifying the ability to correctly and safely install photovoltaic panels and other system components. Problem-Solving Skills: The ability to identify and troubleshoot system faults in photovoltaic systems. Knowledge of Regulations: Adherence to applicable legal standards and regulations concerning the installation of photovoltaic systems.
22h
€400*
+TVA
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Cursuri Turbine Eoliene
ES
Aims and Objectives of the CoHE Electrical Safety Module The aim of GWO’s CoHE Electrical Safety training module is to enable the participants to support and care for themselves and others while working with, and in the vicinity of, electricity in the wind industry and to perform assigned electrical work tasks safely and efficiently. Upon successful completion of GWO’s CoHE Electrical Safety Module, the participants will be able to perform electrical work safely within the wind industry using electrical PPE, precautionary techniques, and electrical safety safe working practices to reduce the associated risks to the electrical hazards. Overall learning objectives for the CoHE Electrical Safety Module, the participants will have the ability to: 1) Take responsibility for their own and others safety while working with, and in the vicinity of, electricity in the wind industry (Ability, intermediate level) 2) Take responsibility for correctly completing a simple permit to work from beginning to end as the person responsible for establishing a safe work condition (Ability, intermediate level)
12 [h]
€650*
+TVA
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Cursuri Stocare Energie Electrică
This certificate discusses the need of power converters for battery applications. It dives into the different types of power converters and explains the underlying principles. The use of power converters is illustrated via a number of applications. The fundamental concept of efficiency is discussed.
8h
€640*
+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.
4 [h]
€190*
+TVA
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Cursuri Turbine Eoliene
BTTE
Aims and Objectives of the BTT Electrical Module The aim of this BTT Electrical Module is to give the participants the knowledge and skills to carry out basic electrical tasks (supervised by an experienced technician), using safe working procedures and the correct PPE. After having successfully completed the BTT Electrical Module, participants will be able to: 1)Explain the basics of electricity (Knowledge, intermediate level) 2) Explain risks and hazards associated with electrical work (Knowledge, intermediate level) 3) Recognise the function and symbol of electrical components (Knowledge, basic level) 4) Explain the function of different types of sensors (Knowledge, intermediate level) 5) Explain and interpret a simple electrical diagram, and perform assembly of it on a circuit (Knowledge, intermediate level / Skills, intermediate level) 6) Perform correct and safe measurements (Skills, intermediate level)
12 [h]
€550*
+TVA
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Cursuri Turbine Eoliene
SLU
Duration: 5 hours Validity: UnlimitedThe Service Lift User (SLU) module enables participants to correctly and safely operate a service lift inside a wind turbine generator (WTG). The training combines theoretical and practical exercises, following the latest GWO V5 standard (2025), and covers both normal and emergency operations.Participants will learn how to:– Understand legislation, standards, and manufacturer manuals related to lift operation;– Identify lift components, safety systems, and functional principles;– Perform pre-use inspections and verify lift readiness;– Operate the lift safely, respecting danger zones and dropped-object prevention measures;– Apply correct use of PPE and communication procedures during operation;– React appropriately in case of lift malfunction or emergency evacuation;– Perform shutdown procedures after use.Objective:By the end of the course, participants can take responsibility for using a wind turbine lift independently and safely, ensuring compliance with legal, technical, and safety requirements.
5 [h]
€160*
+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 Parcuri Fotovoltaice
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 Stocare Energie Electrică
This certificate gives you unparalleled insight into the fundamentals of power systems, from direct to alternating current, active to reactive power, and more. You will explore frequency control, how active demand and storage can support the system, and the future evolution of the electricity grid. And you will emerge with a rock-solid understanding of the key issues at play.
5h
€490*
+TVA
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Cursuri Parcuri Fotovoltaice
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: 8 hours Validity: 24 months The Solar Technical Electrical (S-TTE) module provides participants with the technical knowledge and practical skills to perform electrical installation, connection, and verification of photovoltaic (PV) systems safely and in accordance with GWO and IEC standards. It includes theoretical learning and hands-on practice focusing on DC and AC circuits, measurement, and troubleshooting.Participants will learn how to:– Understand and apply electrical principles of DC and AC circuits in PV installations;– Identify components of PV systems: inverters, junction boxes, combiner boxes, and protective devices;– Perform DC wiring including polarity checks, insulation resistance, and continuity verification;– Connect AC circuits safely to the grid or local distribution board;– Apply grounding, bonding, and equipotential connection methods correctly;– Test and document voltage, current, and insulation resistance using appropriate measuring instruments;– Verify protective measures (RCDs, fuses, breakers) according to standards;– Identify, analyse, and correct common electrical installation faults safely;– Prepare commissioning reports and verify system readiness before energisation.Objective:Upon completion, participants will be able to perform electrical installation and verification tasks in solar PV systems safely and efficiently, ensuring technical quality and compliance with GWO and international standards.
8h
€300*
+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
02.03.2026
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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
02.12.2025
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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
12.11.2025
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8.2k ViewsHydrogen storage integration with traditional wind farms.
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