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Summary Fuel Cell Engine Test System (FCTS-M) is designed to provide a stable test platform for fuel cell engine. With system software independently developed by Kewell, the performance, stability, and safety of fuel cell engine can be tested. A great match for Incoming Quality Control (IQC) and Outgoing Quality Control (OQC) of fuel cell engine. | Functions
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Advantages
Complete safety control & monitoring:
Hydrogen concentration detector; Insulation impedance detection; Safety relief valve; Safe PLC
Three-level protection
Selected components
Debugging mode fit for R&D testing; Work step import triggers quick testing
Versatile test curves; Automatic data saving
Compatible with international standards; Flexible setting of protection parameters
Dual operation mode: Manual/Auto; Self-inspection before testing
Summary Fuel Cell Engine Test System (FCTS-M) is designed to provide a stable test platform for fuel cell engine. With system software independently developed by Kewell, the performance, stability, and safety of fuel cell engine can be tested. A great match for Incoming Quality Control (IQC) and Outgoing Quality Control (OQC) of fuel cell engine. | Functions
|
Advantages
Complete safety control & monitoring:
Hydrogen concentration detector; Insulation impedance detection; Safety relief valve; Safe PLC
Three-level protection
Selected components
Debugging mode fit for R&D testing; Work step import triggers quick testing
Versatile test curves; Automatic data saving
Compatible with international standards; Flexible setting of protection parameters
Dual operation mode: Manual/Auto; Self-inspection before testing
Models & Specifications
Models | FCTS-M-100 | FCTS-M-150 | FCTS-M-200 | FCTS-M-250 | FCTS-M-300 | FCTS-M-400 | |||
Rated power | 100kW | 150kW | 200kW | 250kW | 300kW | 400kW | |||
Gas System | Hydrogen flow range | 40-2000 NLPM | 60-3000 NLPM | 80-4000 NLPM | 100-5000 NLPM | 120-6000 NLPM | 160-8000 NLPM | ||
Hydrogen flow resolution | ±1%FS | ||||||||
Nitrogen purging | Yes | ||||||||
Exhaust gas mode | Mixing (water/gas separation) (Can be independently exhausted according to demand.) | ||||||||
Cooling System | Internal circulation cooling | Cooling water circulation | |||||||
Coolant | Deionized water | ||||||||
Temperature control precision | ±1℃ (steady state); ±1.5℃ (dynamic state) | ||||||||
Cooling method | Secondary cooling water | ||||||||
Conductivity monitoring | Precision≤1.5%FS | ||||||||
Water purging | Yes | ||||||||
Protection System | Hydrogen leakage alarm | Editable | |||||||
Insulation detection | Editable | ||||||||
Emergency stop | Emergency stop button; Indicator lights of running status*3 | ||||||||
KDLF | Rated power | 130kW | 225kW | 300kW | 350kW | 400kW | 500kW | ||
Type | Energy Recycling electronic load (Energy recovery is available in full power range.) Complete grid protection (overvoltage/undervoltage/overcurrent) | ||||||||
Current response time | ≤10ms | ||||||||
Voltage range | 24~800Vdc/1000Vdc | ||||||||
Current range | 0~1000A | 0~1000A | 0~1000A | ||||||
General Specifications | Control system | PLC | |||||||
Human-computer interface | LCD | ||||||||
External communication | CAN | ||||||||
Internal communication | LAN | ||||||||
Power supply | AC 380V three-phase five-wire | ||||||||
Low-voltage power supply | ±24V (standard) Other power supplies (optional) | ||||||||
Ambient temperature | 0~40℃ | ||||||||
Dimensions (width*depth*height) (mm) | 2200*1800*2400 | 2600*2000*2400 | 3500*3000*2400 |
Models & Specifications
Models | FCTS-M-100 | FCTS-M-150 | FCTS-M-200 | FCTS-M-250 | FCTS-M-300 | FCTS-M-400 | |||
Rated power | 100kW | 150kW | 200kW | 250kW | 300kW | 400kW | |||
Gas System | Hydrogen flow range | 40-2000 NLPM | 60-3000 NLPM | 80-4000 NLPM | 100-5000 NLPM | 120-6000 NLPM | 160-8000 NLPM | ||
Hydrogen flow resolution | ±1%FS | ||||||||
Nitrogen purging | Yes | ||||||||
Exhaust gas mode | Mixing (water/gas separation) (Can be independently exhausted according to demand.) | ||||||||
Cooling System | Internal circulation cooling | Cooling water circulation | |||||||
Coolant | Deionized water | ||||||||
Temperature control precision | ±1℃ (steady state); ±1.5℃ (dynamic state) | ||||||||
Cooling method | Secondary cooling water | ||||||||
Conductivity monitoring | Precision≤1.5%FS | ||||||||
Water purging | Yes | ||||||||
Protection System | Hydrogen leakage alarm | Editable | |||||||
Insulation detection | Editable | ||||||||
Emergency stop | Emergency stop button; Indicator lights of running status*3 | ||||||||
KDLF | Rated power | 130kW | 225kW | 300kW | 350kW | 400kW | 500kW | ||
Type | Energy Recycling electronic load (Energy recovery is available in full power range.) Complete grid protection (overvoltage/undervoltage/overcurrent) | ||||||||
Current response time | ≤10ms | ||||||||
Voltage range | 24~800Vdc/1000Vdc | ||||||||
Current range | 0~1000A | 0~1000A | 0~1000A | ||||||
General Specifications | Control system | PLC | |||||||
Human-computer interface | LCD | ||||||||
External communication | CAN | ||||||||
Internal communication | LAN | ||||||||
Power supply | AC 380V three-phase five-wire | ||||||||
Low-voltage power supply | ±24V (standard) Other power supplies (optional) | ||||||||
Ambient temperature | 0~40℃ | ||||||||
Dimensions (width*depth*height) (mm) | 2200*1800*2400 | 2600*2000*2400 | 3500*3000*2400 |