Renewable Energy
INEVOKE offers a varied range of services designed to help its clients adopt sustainable energy solutions and reduce their dependence on fossil fuels.
Comprehensive services in renewable energy
Before implementing a renewable energy solution, we conduct audits to assess our clients' current energy consumption and identify improvement opportunities. This includes:
• **Energy Needs Assessment**: Analysis of existing equipment and consumption profiles to identify the best renewable energy solutions.
• **Feasibility Studies**: Analysis of the economic and technical viability of different types of renewable energies (solar, wind, biomass, geothermal, etc.) based on the client's site specifics (sun exposure, wind conditions, etc.).
• **Strategic Consulting**: Recommendations on optimal options for transitioning to renewable energies, including return on investment (ROI) estimates and long-term energy cost reduction.
• **Energy Needs Assessment**: Analysis of existing equipment and consumption profiles to identify the best renewable energy solutions.
• **Feasibility Studies**: Analysis of the economic and technical viability of different types of renewable energies (solar, wind, biomass, geothermal, etc.) based on the client's site specifics (sun exposure, wind conditions, etc.).
• **Strategic Consulting**: Recommendations on optimal options for transitioning to renewable energies, including return on investment (ROI) estimates and long-term energy cost reduction.
• **Photovoltaic Solar System Design**: Sizing and design of solar panel installations to meet specific electricity needs of a given site, including options like solar roofs or ground installations.
• **Energy Storage Systems**: Integration of energy storage solutions (such as batteries) to ensure supply continuity, especially when solar or wind production is intermittent.
• **Microgrid Solutions**: Implementation of autonomous microgrids, connecting different renewable energy sources (solar, wind, biomass) and enabling local energy autonomy, particularly useful for isolated sites.
• **Hybrid Systems**: Design of solutions combining renewable energies and traditional energy systems to ensure a progressive transition or redundancy when needed.
• **Energy Storage Systems**: Integration of energy storage solutions (such as batteries) to ensure supply continuity, especially when solar or wind production is intermittent.
• **Microgrid Solutions**: Implementation of autonomous microgrids, connecting different renewable energy sources (solar, wind, biomass) and enabling local energy autonomy, particularly useful for isolated sites.
• **Hybrid Systems**: Design of solutions combining renewable energies and traditional energy systems to ensure a progressive transition or redundancy when needed.
• **Photovoltaic Solar Panel Installation**: Installation of panels, inverters, and wiring to connect panels to the electrical installation.
• **Wind Turbine Installation**: Installation of small or large wind turbines according to needs and site weather conditions.
• **Geothermal Systems**: Installation of geothermal pumps to harness earth heat and convert it into usable energy for heating or air conditioning.
• **Biomass Systems**: Installation of boilers or production units using organic materials (agricultural waste, wood, etc.) to produce energy.
• **Integration with Existing Infrastructure**: Ensuring that new installations work harmoniously with traditional energy systems and that energy management is optimized.
• **Wind Turbine Installation**: Installation of small or large wind turbines according to needs and site weather conditions.
• **Geothermal Systems**: Installation of geothermal pumps to harness earth heat and convert it into usable energy for heating or air conditioning.
• **Biomass Systems**: Installation of boilers or production units using organic materials (agricultural waste, wood, etc.) to produce energy.
• **Integration with Existing Infrastructure**: Ensuring that new installations work harmoniously with traditional energy systems and that energy management is optimized.
• **Preventive Maintenance**: Planning and conducting regular system inspections to prevent failures and extend equipment lifespan.
• **Troubleshooting and Repairs**: Rapid intervention in case of malfunction or failure to restore energy production.
• **Remote Monitoring**: Implementation of monitoring systems to track real-time production and installation performance via online platforms.
• **System Updates and Optimization**: Adjustments and improvements to existing installations to integrate new technologies or respond to evolving energy needs.
• **Troubleshooting and Repairs**: Rapid intervention in case of malfunction or failure to restore energy production.
• **Remote Monitoring**: Implementation of monitoring systems to track real-time production and installation performance via online platforms.
• **System Updates and Optimization**: Adjustments and improvements to existing installations to integrate new technologies or respond to evolving energy needs.
• **Technical Team Training**: Training of internal teams of client companies in the management and maintenance of installed systems so they can be autonomous in daily operations monitoring.
• **Energy Transition Awareness**: Educational sessions to help businesses and individuals understand the benefits of renewable energies and best practices for their implementation.
• **Energy Transition Awareness**: Educational sessions to help businesses and individuals understand the benefits of renewable energies and best practices for their implementation.
• **Electric Vehicle Charging Station Installation**: Installation of charging stations for individuals, businesses, or local communities.
• **Solar Charging Systems for Electric Vehicles**: Combination of solar panels with charging stations to create grid-independent charging solutions.
• **Solar Charging Systems for Electric Vehicles**: Combination of solar panels with charging stations to create grid-independent charging solutions.
• **Energy Management Systems (EMS)**: Installation of software and platforms to manage energy production, consumption, and storage efficiently and intelligently.
• **Consumption Optimization**: Analysis of energy demand distribution to reduce consumption peaks and avoid overloads.
• **Consumption Optimization**: Analysis of energy demand distribution to reduce consumption peaks and avoid overloads.