Working Principle
CHR series applies complementary power supply from wind energy, solar energy andelectricity at night to produce hydrogen.Then, using metal hydrogen storage technology or compressed hydrogen storage technology to store this hydrogen.If lack of electricity,user can use hydrogen fuel cell to convert hydrogen to electricity by configuring DC/AC conerter.lf hydrogen fuel filling station needed, user can configure hydrogen boosting system to fill hydrogen into hydrogen fuel cell car,drone, bus,truck, electric vehicle and forklift.
Apply Scope
CHR series bases on CHG series and fully uses solar energy, wind energy and night electricity to produce hydrogen. It adds metal hydrogen storage technology or compressed hydrogen storage technology. This series appies for fuel cell power station,hydrogen fueling station, industrial hydrogen usage and surplus heat utilzation.It can assimilate the electnicity from wind energy, solar energy and electricity at night, This hydrogen fuel station can solve the problem of renewable energy grid connected and also reduce the cost of producing hydrogen.
Non-metallic Polar Frame Advantages
1. Compatible with renewable energy: quick startup and second level dynamic response at a wide load of 30% -****
2. Stack miniaturization: the volume & weight of non-metalic polar frame cell stack is 1 / 2 reduced comparing with traditional metal one
3. No elecrocarrosion problem:non-metalic polar frame cell stack eliminates electrocorrosion & lye leakage problems
4. Zero carbon environmental protection: no nickel plating & V205 needed
5. Hydrogen qualty: stable hydrogen purity and dew point with optimized & scientific purfication and drying three tower system design
Structure Characteristics
1、 Using hydrogen to store the electricily from renewable energy, the requirement for this series can be adjustable according to electricity load.
2、Stable and adjustable electricity for themal power station.
3、lt can easily achieve the function of combined heat and power.
4、 Through renewable energy, it can reduce the cost of producing hydrogen and expand the application scope for hydrogen usage.
| MODEL | (Nm³/ h)
H2
CAPACITY | (Nm³/ h)
O2
CAPACITY | H2
PURITY | (A)
CURRENT | (V)DC
VOLTAGE | CELL
WORKING
TEMPERATURE | TOTAL
WATER
CONSUMPTION | COOLING
WATER
CONSUMPTION | TOTAL
POWER
CONSUMPTION | PRESSURE
ACCORDING
TO NEEDS |
|
|
CHR-10 | 10 | 5 | 99.999% | 1200 | 37 | ≤85℃ | 10L/h | 4m³/ h | 52Kw*h | ≤0.6MPA
≤1.6MPA |
CHR-20 | 20 | 10 | 99.999% | 1200 | 74 | ≤85℃ | 20L/h | 7m³/ h | 105Kw*h |
CHR-50 | 50 | 25 | 99.999% | 1200 | 185 | ≤85℃ | 50L/h | 16m³/ h | 260Kw*h |
CHR-100 | 100 | 50 | 99.999% | 3800 | 117 | ≤85℃ | 100L/h | 32m³/ h | 512Kw*h |
CHR-200 | 200 | 100 | 99.999% | 3800 | 233 | ≤85℃ | 200L/h | 62m³/ h | 1012Kw*h |
CHR-300 | 300 | 150 | 99.999% | 3800 | 350 | ≤85℃ | 300L/h | 90m³/ h | 1515Kw*h |
CHR-400 | 400 | 200 | 99.999% | 3800 | 466 | ≤85℃ | 400L/h | 123m³/ h | 2115Kw*h |
CHR-500 | 500 | 250 | 99.999% | 10000 | 222 | ≤85℃ | 500L/h | 147m³/ h | 2520Kw*h |
CHR-600 | 600 | 300 | 99.999% | 10000 | 266 | ≤85℃ | 600L/h | 181m³/ h | 2860Kw*h |
CHR-800 | 800 | 400 | 99.999% | 10000 | 355 | ≤85℃ | 800L/h | 237m³/ h | 4040Kw*h |
CHR-1000 | 1000 | 500 | 99.999% | 10000 | 444 | ≤85℃ | 1000L/h | 293m³/ h | 5030Kw*h |
