WDMFC-5
Electricity Type
Reforming Type
PEMFC
<100°C
Methanol Fuel Cell
Dmfc
Direct Type
High-Temperature Proton Exchange Membrane Fuel Cel
5kw
DC+50~80V
76.5L
54% Methanol: 46% Water
≥46%
≥85%
>5000h
WOBO
Wooden Case or Container
850x450x200mm
China
8419899090
Product Description
Direct Methanol Fuel Cell
Methanol Reformer Hydrogen Fuel Cell is a technology that utilizes methanol-water as fuel to produce hydrogen on-site at a concentration of 75% by increasing the temperature of the membrane electrode reactions within the fuel cell stack. The generated hydrogen gas doesn't require a purification process or storage; it can be directly used for power generation in the fuel cell, ensuring safety and reliability. This technology offers benefits such as low noise, high automation, and strong continuous operational capabilities, effectively enhancing the kinetics and performance of the electrochemical reactions in the battery.
This innovative approach uses "liquid sunshine" methanol as a carrier for hydrogen, providing a sustainable and scalable supply solution. It addresses the current challenges faced by hydrogen energy development, such as a shortage of hydrogen sources, high transportation and storage costs, and certain safety risks. It proves to be an essential pathway for efficiently utilizing renewable energy and facilitating carbon dioxide recycling and reuse.
| Fuel Cell Type | High-temperature Proton Exchange Membrane Fuel Cell | Hydrogen Source | Methanol Reforming for Hydrogen Production, Atmospheric Pressure, On-Demand |
| Rated Power | 5kW | Power Range | 0~5.4kW |
| Rated Voltage | 72V | Rated Current | 70A |
| Output Voltage Range | DC+50~80V | Output Current Range | 0~80A |
| Size | 850x450x200mm | Weight | 65KG |
| Normal Startup Time | ≤15min | Cold Start Time | <30min |
| Operating Temperature | -40ºC~+50ºC | -40°ºCStartup | Feasible with the addition of insulation and other components for maintaining temperature. |
| Standby Power Consumption | <100W | Tailpipe Emissions | CO2+water vapor,no NOx or SOx emissions |
| Volume | 76.5L | Fuel Consumption | ≤1L/kWh |
| Methanol-Water Ratio | 54% methanol: 46% water | Cooling System | Air-cooled |
| Fuel Cell Stack Efficiency | ≥46% | Overall System Efficiency | >62.45% |
| Combined Heat and Power Efficiency | ≥85% | Operating Mode | Can be operated individually, in a network, or controlled remotely. |
| Service Life | >5000H | Noise Limit | ≤70dB |
| Altitude | ≤4000M | Maintenance Components | Equipped with air filters and methanol-water filter elements. |
| Fuel Tank Capacity | 40L/80L/120L/… | Integrated Lithium Battery Pack | 5kWh/10kWh/… |
| * Customizing products according to customer requirements. | |||
The Methanol Reformer Hydrogen Fuel Cell operates by utilizing methanol-water as fuel to produce hydrogen on-site. To achieve this, the fuel cell stack's membrane electrode reactions are conducted at an elevated temperature. This process leads to the generation of hydrogen gas with a concentration of 75%. The generated hydrogen gas is used directly for power generation within the fuel cell, eliminating the need for purification or storage. This approach ensures safety, reliability, and efficient power generation, enhancing the kinetics and performance of the fuel cell's electrochemical reactions.
1. Low Noise: The operation of methanol fuel cells produces minimal noise, making them suitable for various applications where noise reduction is essential.
2. Low Pollution: Methanol fuel cells offer a clean energy solution with low emissions, contributing to reduced air pollution and a smaller environmental footprint.
3. Low Infrared Radiation: Methanol fuel cells exhibit low infrared radiation levels, making them suitable for applications where heat generation needs to be minimized.
4. High Reliability: Methanol fuel cells are known for their high reliability and stable performance, providing a dependable source of power.
5. Small Size: The compact design of methanol fuel cells allows for efficient space utilization, making them suitable for applications with limited space.
6. Extensibility: Methanol fuel cells can be easily scaled or expanded to meet varying power demands, offering flexibility in different applications.
7. Easy Assembly: The assembly and integration of methanol fuel cells are relatively straightforward, facilitating their implementation and use in various devices and systems.
| Mesidential Micro-CHP Systems | Electric Vehicles | Portable Electronics |
| Methanol fuel cells can provide long flight times for UAVs and drones, making them suitable for surveillance, monitoring,and reconnaissance applications. | Methanol fuel cells have the potential to be used in electric vehicles as an alternative power source, offering extended driving range and faster refueling times compared to battery electric vehicles. | Methanol fuel cells can power a wide range of portable electronic devices, such as smartphones, laptops, tablets, and cameras, providing longer runtimes compared to traditional batteries. |
| Mesidential Micro-CHP Systems | Combined Heat and Power (CHP) Systems | Marine Applications |
| Methanol fuel cells can be integrated into residential micro-combined heat and power systems,allowing homeowners to generate electricity and heat for their homes. | Methanol fuel cells can be integrated into CHP systems to simultaneously produce electricity and utilize waste heat for heating or cooling purposes, enhancing energy efficiency. | Methanol fuel cells can power boats and marine vessels, providing a more environmentally friendly alternative to conventional diesel engines. |
