Rotobooster V3
- Rotobooster V3 is an upgraded version of the previously delivered Rotobooster V1 & V2 with rotating internal construction equipped
- with arrangement to measure and record the internal High-G rotating effect on temperature and pressure at various RPM
- Purpose is to collect more exact data to allow better optimization of the simplified system design for preheating purposes
- The simulation model is aligned with results from actual measurements during testing
Demo Plant
- We are building an industrial scale demo system with all needed components to produce zero CO2 Hydrogen from natural gas in a safe and efficient way
- The demo plant is designed to mirror a full scale modularised system
- The demo plant will be used for additional R&D for long time reliability tests to prove the economics and operability in industrial scale
Rotolyzer Commercialization
- Rotoboost collaboration with NEL to commercialize the design of RotoLyzer for hydrogen production plants
- RotoLyzer High G conditions ensure a cost effective and a compact design:
- Optimal production and flow of hydrogen and oxygen
- Increased active area on electrodes
- Efficient gas-lye separation & short distance between electrodes
- Since it is provided in a compact pressurized stack
- There is no need for 1st stage compression downstream
- The cell works as a centrifugal pump – no need for alkali pumps
Rotobooster V3
- Rotobooster V3 is an upgraded version of the previously delivered Rotobooster V1 & V2 with rotating internal construction equipped
- with arrangement to measure and record the internal High-G rotating effect on temperature and pressure at various RPM
- Purpose is to collect more exact data to allow better optimization of the simplified system design for preheating purposes
- The simulation model is aligned with results from actual measurements during testing
Demo Plant
- We are building an industrial scale demo system with all needed components to produce zero CO2 Hydrogen from natural gas in a safe and efficient way
- The demo plant is designed to mirror a full scale modularised system
- The demo plant will be used for additional R&D for long time reliability tests to prove the economics and operability in industrial scale
Rotolyzer Commercialization
- Rotoboost collaboration with NEL to commercialize the design of RotoLyzer for hydrogen production plants
- RotoLyzer High G conditions ensure a cost effective and a compact design:
- Optimal production and flow of hydrogen and oxygen
- Increased active area on electrodes
- Efficient gas-lye separation & short distance between electrodes
- Since it is provided in a compact pressurized stack
- There is no need for 1st stage compression downstream
- The cell works as a centrifugal pump – no need for alkali pumps