150kW Liquid cooled Fuel Cell VL-Series
At 150kW this is currently one of the highest power output fuel cell stacks that Horizon sells. It is designed for heavy-duty applications like Class 8 trucks, ships, and other energy demanding areas. Unlike battery electric vehicles which are really only useable in the light-duty mobility sector, PEM fuel cells are perfectly able to power everything from a remote-control car 1/10th the size of a standard sized light-duty vehicle all the way up to airplanes and container ships. With so many zero emission mobility applications it is easy to see why hydrogen fuel cell technology is not only eco-friendly but also why it is the keystone to achieving a zero emission global economy.
150kW Liquid Cooled Fuel Cell VL-Series
Additional Infromation
Because of the use cases for this fuel cell stack you will need to fill out a quote request form so that we can provide you with any information you need in order to integrate this product into your project. It is important to reach out to us for fuel cell stacks that produce more than 20kW of power, since this enables us to set proper delivery expectations. As with the other liquid cooled stacks, this fuel cell system comes with an air filter, air flow meter, hydrogen intel solenoid valve, humidifier, throttle valve, radiator, ion exchange, controller, fuel cell stack, fill water tank, fuel cell 24V water pump, constant voltage DC, and blower to bring air into the fuel cell stack.
Fuel Cell and Hydrogen
Safety Requirements
Do not attach or detach power cables when the fuel cell stack is turned on.
Warranty is void if the fuel cell stack is dismantled or otherwise modified.
Hydrogen is a colorless, odorless, and flammable substance. Always operate and store the fuel cell stacks and hydrogen storage canisters in an area with ample ventilation.
Fuel cell systems should always be equipped with a highly accurate hydrogen sensor to detect any hydrogen that has escaped within the system or from the hydrogen storage canister.
Please refer to the VL II-120 User Manual to see the full list of the safety requirements for the product.
Fuel Cell and Hydrogen
Safety Requirements
Do not attach or detach power cables when the fuel cell stack is turned on.
Warranty is void if the fuel cell stack is dismantled or otherwise modified.
Hydrogen is a colorless, odorless, and flammable substance. Always operate and store the fuel cell stacks and hydrogen storage canisters in an area with ample ventilation.
Fuel cell systems should always be equipped with a highly accurate hydrogen sensor to detect any hydrogen that has escaped within the system or from the hydrogen storage canister.
Please refer to the VL II-120 User Manual to see the full list of the safety requirements for the product.
150kW Liquid Cooled Fuel Cell VL-Series Quick Product Facts
System Rated Power
This system power output is 150kW.
Stack Rated Power
The fuel cell stack gives 190kW of output power.
DC Output Voltage
Direct current output voltage reaches 450 to 700 volts.
Fuel Cell Efficiency
Minimal fuel cell efficiency at rated power is 43%.
System dimensions
This fuel cell system dimensions are 1015 x 660 x 690mm / 40 x 26 x 27″
Hydrogen Purity
A fuel of gaseous hydrogen at a minimum purity level of 99.97% is required.
List of core VL-120 components and their functionality:
- Air filter (Filter the air)
- Air flow meter (Monitoring feedback of air flow)
- Hydrogen heat exchanger (Increase the temperature of reaction hydrogen)
- Intercooler (Reduce the temperature of the air entering the fuel cell stack)
- Humidifier (Adds moisture to the air entering the stack)
- Bypass valve (Divert excess air from the air compressor and protect the stack in case of emergency)
- Throttle valve (Adjust the internal operating pressure of the stack)
- Radiator (Take away the excess heat from the system)
- PTC heater (Heating for low temperature cold start)
- Water tank (Refill water to and purge air for the system)
- Deionizer (Absorbs the ions in the coolant, reducing the conductivity of the coolant)
- Low voltage distribution box (Provide low voltage distribution to the system)
- Controller (Control system, communication between system and vehicle)
- Fuel cell stack (Oxygen and hydrogen react to produce power)
Packing Information
VL-05 | VL-10 | VL-30 | VL-40 | VL-65 | VL-100 | VL-120 | ||
---|---|---|---|---|---|---|---|---|
System rated power output (kW) * | 5 | 10 | 30 | 40 | 65 | 100 | 120 | *does not include cooling fan power and boost DC efficiency |
Stack rated power output (kW) | 6 | 12 | 36 | 53 | 79 | 120 | 150 | |
Number of cells | 65 | 90 | 150 | 220 | 330 | 500 | 500 | |
Operating ambient temperature (℃) | -10 to +40 | -10 to +40 | -30 to +45 | -30 to +45 | -30 to +45 | -30 to +45 | -30 to +45 | |
Storage ambient temperature (℃) | -40 to +60 | -40 to +60 | -40 to +60 | -40 to +60 | -40 to +60 | -40 to +60 | -40 to +60 | |
Operating ambient humidity (%) | 0 to 95 | 0 to 95 | 0 to 95 | 0 to 95 | 0 to 95 | 0 to 95 | 0 to 95 | |
Operating pressure (kPa) | up to 50 | up to 50 | 80 to 100 | 80 to 100 | 80 to 100 | 80 to 100 | 120 to 150 | |
IP rating | IP54 | IP54 | IP67 | IP67 | IP67 | IP67 | IP67 | |
Vibration noise (dB) | up to 80 | up to 80 | up to 78 | up to 78 | up to 78 | up to 78 | up to 90 | |
Voltage current output | 125A@48V | 222A@54V | 400A@90V | 400A@132V | 400@198V | 400@300V | 500A@300V | |
System dimensions (mm) ** | 630 x 560 x 610 | 630 x 560 x 610 | 742 x 686 x 637 | 890 x 600 x 520 | 970 x 600 x 516 | 1200 x 790 x 520 | 1200 x 680 x 630 | ** radiator, touch screen, booster DC or air compressor not included |
System weight (kg) *** | 170 | 180 | 135 | 145 | 170 | 238 | 290 | *** booster DC not included |
DC output voltage (V) | 48 | 48/80 | ||||||
Boost DC output voltage (V) | 300 to 450 | 500 to 700 | 500 to 700 | 500 to 700 | 500 to 700 | |||
System mass power density (W/kg) **** | 220 | 275 | 382 | 420 | 505 | *** booster DC not included | ||
Fuel cell stack volume ratio power (kW/l) | 3.5 | |||||||
Stack operating temperature (℃) | 60 to 70 | 60 to 70 | 70 to 85 | 70 to 80 | 70 to 80 | 70 to 80 | 70 to 85 | |
H2 purity (% dry hydrogen) | 99,97 | 99,97 | 99,97 | 99,97 | 99,97 | 99,97 | 99,97 | |
Average H2 consumption at rated power (m3/kWh) | up to 0,73 | up to 0,73 | up to 0,73 | up to 0,73 | up to 0,73 | |||
Fuel Cell efficiency at rated power (%) | at least 42 | at least 42 | at leas 47,8 | at least 47,8 | at least 47,8 | at least 47,8 | at least 47,8 | |
Hydrogen inlet pressure (Mpag) | 0,6 to 1.0 | 0,6 to 1.0 | 1,1 to 1,3 | 1,1 to 1,3 | 1,1 to 1,3 | 1,1 to 1,3 | 1,1 to 1,3 |