Methanol reforming hydrogen production and palladium membrane purification are highly integrated equipment
MSR,0.3-12 Nm³/h
Technical parameters
Parameters | MSR | |||
Hydrogen production (Nm³/h) | 0.3 | 3 | 5 | 12 |
Output pressure (MPa). | ≥0.1 | |||
Hydrogen purity (Vol%) | ≥ 99.999 | |||
Product Hydrogen Temperature (°C) | ≤40 | |||
Cold Start Time (min) | ≤30 | |||
Operating Power Consumption (kWh) | 0.05 | 0.5 | 0.6 | 2.5 |
Methanol consumption (kg/Nm³ H₂). | 0.65-0.75 | |||
Fuel Ratio (Wt.) | Methanol 60%, Pure Water 40% | |||
Operating Ambient Temperature (°C) | -40-60 | |||
Mode of operation | One-button start, remote control | |||
Device Size (L*W*HMM) | 350*200*300 | 680*740*930 | 900*850*950 | |
Device Weight (kg) | ~10 | ~200 | ~300 | |
Note: | Standard model indicators, accept batch customized requirements for development | |||
Technological innovation
- Self-developed high-performance hydrogen production catalyst
- Self-developed "hand-torn steel" grade palladium film hydrogen purification technology, replacing traditional PSA technology
The advantages are significant
- Fast cold start (≤ 30 min) with frequent start-stops without special maintenance
- Small size, light weight, and high system integration
- Self-heating reforming, off-grid hydrogen production, independent of external power supply
High economy
- Raw materials are easy to obtain, easy to transport and store, and stable prices
- Mature technology, low energy consumption, and high hydrogen production efficiency
- Short payback cycle and low comprehensive operating costs
Potential applications
- Distributed hydrogen production and hydrogen refueling for hydrogen two-wheelers and drones
- Distributed hydrogen power system highly integrated with hydrogen fuel cells, replacing diesel engines and generating electricity silently
Methanol reforming hydrogen production and palladium membrane purification are highly integrated equipment
MSR,0.3-12 Nm³/h
Technical parameters
Parameters | MSR | |||
Hydrogen production (Nm³/h) | 0.3 | 3 | 5 | 12 |
Output pressure (MPa). | ≥0.1 | |||
Hydrogen purity (Vol%) | ≥ 99.999 | |||
Product Hydrogen Temperature (°C) | ≤40 | |||
Cold Start Time (min) | ≤30 | |||
Operating Power Consumption (kWh) | 0.05 | 0.5 | 0.6 | 2.5 |
Methanol consumption (kg/Nm³ H₂). | 0.65-0.75 | |||
Fuel Ratio (Wt.) | Methanol 60%, Pure Water 40% | |||
Operating Ambient Temperature (°C) | -40-60 | |||
Mode of operation | One-button start, remote control | |||
Device Size (L*W*HMM) | 350*200*300 | 680*740*930 | 900*850*950 | |
Device Weight (kg) | ~10 | ~200 | ~300 | |
Note: | Standard model indicators, accept batch customized requirements for development | |||
Technological innovation
- Self-developed high-performance hydrogen production catalyst
- Self-developed "hand-torn steel" grade palladium film hydrogen purification technology, replacing traditional PSA technology
The advantages are significant
- Fast cold start (≤ 30 min) with frequent start-stops without special maintenance
- Small size, light weight, and high system integration
- Self-heating reforming, off-grid hydrogen production, independent of external power supply
High economy
- Raw materials are easy to obtain, easy to transport and store, and stable prices
- Mature technology, low energy consumption, and high hydrogen production efficiency
- Short payback cycle and low comprehensive operating costs
Potential applications
- Distributed hydrogen production and hydrogen refueling for hydrogen two-wheelers and drones
- Distributed hydrogen power system highly integrated with hydrogen fuel cells, replacing diesel engines and generating electricity silently
