Eliminates the need for unsafe gas cylinders in the field , Increasing Safety and Reducing Risk
MI HYDROGEN GENERATOR
MI600 SERIES
Onsite Hydrogen Gas Generator for FID Applications
Safety Comes First
MI Logging Systems Hydrogen Generator provides constant pure hydrogen supply for FID GC in the field without the need for bulky gas cylinders. The usage of compressed hydrogen in the field exposes personnel to high risk both during transportation and usage. Generating Hydrogen onsite provides the highest levels of safety by generating only the needed amount of gas for the analytical device.
Automatic Smart Operation
The MI600 Series H2 Generators works automatically without the need of experienced user to operate. the internal computer unit provides the highest level of safety as well as automating all the necessary operations required inside the device. The device will automatically maintain a constant pressure of Hydrogen gas at the outlet and will adjust its output power with a smart feedback controller according to the consumption of the connected load.
The Highest Levels of Purity
- MI Hydrogen Generators provides the user with 99.9999% Pure Hydrogen Gas at its outlet. The usage of Hydrogen gas from cylinders does not provide a high level of purity due to the methods used generate the gas at the factory, the cylinders may contain contaminants such as hydrocarbons which may provide false readings to the GC and reduces the sensitivity of the device.
Rugged Innovative Design
- Very low MTBF compared to other instruments used for the same applications.
- Easy troubleshooting with internal smart software features.
- Long-life spare parts minimizing preventive maintenance requirements.
Technical Specifications
- Configuration: Bench-top or rack-mount 19″ (Optional)
- Power: 230 V AC, 50/60 Hz, 2 Amp
- Water Supply: Pure Deionized Water
- Output Pressure: Adjustable Up to 6 Bars.
- Peripherals : DB9 (Optional)
Applications
- Surface Logging/Well Logging
- Exploratory Well Drilling (Wild Cats)
- Area monitoring of explosive gases
- Carbon bed breakthrough analysis
- Formation Evaluation
- Natural gas analysis
- Environmental Monitoring
- Hydrocarbon composition analysis