Our products for renewable energy monitoring and control are designed to make it easier to measure and manage the production and consumption of energy from renewable sources. Our monitoring devices can collect data from renewable energy systems, allowing you to track their performance and optimize their output, giving you more control over your energy production. Additionally, our products can help you integrate multiple renewable energy systems into a larger energy grid, allowing you to balance the output of different renewable energy sources and ensure a reliable and stable energy supply. With our products, you can take advantage of the latest advancements in technology to predict and manage renewable energy production at scale, making it easier to transition to a more sustainable and efficient energy system.
- Dam & turbine monitoring
- Lifetime tracking, monitoring, storage optimization of pumped
- Component and type testing for OEMs and certification institutions
- Performance monitoring of Off-shore wind turbines
- Distributed measurement and recording (dynamic and accuracy mechanical quantities); correlation/dependency with position and meteorological quantities like
- Load measurement
- Lifetime tracking, monitoring
- Transmission, synchronized
- Security & remote control
- Power Quality
- Condition monitoring at pipes, pressure and flow monitoring, controlling of valves
- Enhanced safety requirements for Nuclear power plants require reliable and long-term stable measurement equipment to detect changes in the infrastructure. Specific technical requirements have to be fulfilled.
- Condition Monitoring of Nuclear Fusion Reactors at Max Planck Institute, ITER
- Fusion Research requires stable, reliable data acquisition under severe conditions. The data acquisition concept must not influence a measured signal.
- Monitoring and control of Stationary Energy Storage solutions (ESS)
- Testing and qualification of 2nd live batteries and packs
- Monitoring and control of electrical, chemical and mechanical energy conversion. Real time calculation of signal characteristics to optimize concepts.
- Turn key Utility-scale PV Monitoring and control: PV power plant monitoring and control is necessary to ensure the plant operates safely and efficiently, and identifies any potential issues.
- Monitoring and analytics solutions for PV Technology benchmarking, PV technology improvement, Investment/technology decisions, and bankability reporting
- Gantner Instruments has been winning over its customers with flexible products that enable the lowest running costs available in the PV and ESS industry.
- Supervisory Control and Data Acquisition (SCADA)
- Power Quality analysis of huge data sets with the fastest web platform for Utilities, Industry consortiums, and Universities
- Energy Control and management of:
- PV Power Plant control (cos phi, Ramp rates)
- Virtual Power Plant (VPP)
- Energy Management (grid, self-consumption, energy prices)
- Solutions for effective Operation & Maintenance
Wind Turbine Testing
Wind turbine testing is the process of testing wind turbines for their performance and reliability. The tests typically include measurements of strain, power, torque, electrical output, acoustic noise, and vibration to ensure the turbines meet safety and efficiency standards. The testing process is typically conducted on the ground before the turbines are installed, and can also be conducted in the field after installation to ensure the turbines are operating correctly and efficiently. Testing wind turbines is an important step in ensuring that the turbines are safe, reliable and efficient.
Fusion Reactor Monitoring
Fusion reactor monitoring is the process of monitoring the performance of a fusion reactor. This includes monitoring the temperature, pressure, radiation levels and other parameters in the reactor. Fusion reactor monitoring is necessary to ensure the reactor is operating safely and efficiently. It also helps to identify potential problems and to take corrective action if needed. Monitoring is also used to collect data for research purposes and to optimize the reactor's performance.
Pipeline monitoring is the process of tracking and monitoring the performance of a pipeline system. This includes monitoring the pressure, temperature, flow rate, and other parameters in the system. Pipeline monitoring is necessary to ensure the pipeline is operating safely and efficiently, and to identify any potential issues that may arise. Pipeline monitoring also helps to optimize the system and collect data for research and analysis.
Hydro monitoring is the process of monitoring the performance of a hydroelectric power plant. This includes monitoring of the dam structure, turbines, water level, flow rate, pressure, and other parameters in the system. Hydro monitoring is necessary to ensure the plant is operating safely and efficiently, and to identify any potential issues that may arise. Hydro monitoring also helps to optimize the system and collect data for research and analysis.
PV Power Plant Monitoring & Control
For reliable and optimal energy production from photovoltaic (PV) power plants, monitoring and control is necessary. This includes monitoring the system's solar irradiance, temperature, current, voltage, and other parameters. PV power plant monitoring and control is necessary to ensure the plant is operating safely and efficiently, and to identify any potential issues that may arise. Our Business Unit Gantner Instruments Environment soltions is a world leader in PV Monitoring and control for utility Scale assets.
Why Gantner Instruments
What our clients say
Gantner’s cutting-edge DAQ technology is trusted globally for applications in the mobility, aerospace, civil engineering, and energy sectors. Choose from the following industry examples to discover the most versatile DAQ on the market.