Hydrogen Fuel Cell , Electric Power Supply,  Applicable Industry, City, Trucks,

Fuel Cell Products, Zero-Emission 
A fuel cell is an electrochemical power generator. Fuel cells combine hydrogen and oxygen to produce electricity with water and heat generated as byproducts. Fuel cells, like a battery, create energy via an electrochemical process and not combustion. But like an internal combustion engine, fuel cells also intake fuel sources and generate a chemical reaction to produce power, yielding energy in an array of use cases. That fuel resource, in Plug's case, is hydrogen.



Fuel Cell function by passing hydrogen through the anode side of the mechanism mentioned above. Oxygen, from the air around us, is passed through the cathode side. Hydrogen molecules then split into electrons and protons on the anode side. Protons next pass through an electrolyte membrane (hence PEM). From there, electrons move through a circuit, generating current and excess heat. At the cathode side, the protons, electrons, and oxygen combine to produce water.

Technical Highlights

A small scene, whole chain, self-development of technology: for multiple application scenarios of small and medium-sized fuel cell systems, self-development of a series of technology from basic material optimization, membrane electrode module development and production, reactor assembly, testing, etc.




Main Types Of Fuel Cells Exist , Detailed In Here:

Proton Exchange Membrane or Polymer Electrolyte Membrane (PEM) Fuel Cells are mainly used for mobility purposes, such as micro-mobility, forklifts, and other materials handling machines of the sort, the marquee market for Plug's PEM fuel cells. They are also used in e-mobility and stationary power applications. PEM fuel cells require a low operational temperature, making them the most sensible for vehicles needing short periods of time between ignition and start-up. A PEM fuel cell generally operates at a temperature of 80°C (176°F). This low temperature, the U.S. Department of Energy notes, also "results in less wear on system components, resulting in better durability."

Solid Oxide Fuel Cells (SOFCs), more traditional for stationary primary power usages, require a temperature of 1000°C (1,830°F) for usage and energy production. Unlike a PEM fuel cell, SOFCs utilize a solid electrolyte (most times a ceramic) sitting between an anode and cathode. Fuel, generally natural gas, gets delivered to the anode. Oxidant, generally air, gets delivered to the cathode. Combined, this creates a chemical interaction releasing electrons through a circuit producing electricity. Because of their higher startup temperature, SOFCs exist mostly for energy needed on a longer-lasting basis, often as a source of backup power generation.

Alkaline Fuel Cells are widely used for outer space voyages, utilizing a potassium hydroxide solution in water as the electrolyte. Several types of metals, in turn, can serve as the catalyst at the anode and cathode. They operate at a temperature of 60-80°C (140-176°F).
Phosphoric Acid Fuel Cells (PAFCs), operational at 200°C (392°F), utilize liquid phosphoric acid as their electrolyte and electrodes, containing a platinum catalyst material. They are typically used in "hotels, hospitals, grocery stores, and office buildings, where waste heat can also be used," the U.S. Department of Energy notes.

 Molten Carbonate Fuel Cells, which operate at a temperature of 600°-700°C (1112°F-1292°F), are similar to SOFCs in that they are most useful for stationary purposes due to their mandated high ignition temperature. They primarily function today as a combined heat and power source within natural gas- and coal-based power plants for electricity-generating functionality. Different from the other fuel cell types and due to their high operational temperature, external fuel is not needed as an input and hydrogen can still be yielded as an output via a process called internal reforming.

Small And Medium-sized Fuel Cell Systems
Within 500W, it can be used in electric bicycles, mini emergency standby power supply, etc


Typical 30KW, range 10-60KW, mainly used for forklift, small logistics vehicles,, and other special vehicles, emergency power generation, etc








3kw Emergency Power Supply
For outdoor activities, standby power supply, and other electricity demand scenarios, this product has durable, small in size, easy to carry, etc. This set of energy storage emergency power supply system is pollution-free, clean, and environmentally friendly, and can support rapid deployment; It is a set of safe and fast emergency power supply, guarantee emergency fast power supply when there is no main power supply or power supply is difficult to find this field.
Features: Hydrogen fuel cell emergency power supply, the maximum output power is 3kW, output voltage support 48V, 12V, 5V interface, the system supports one button start; Fast power response, automatic power regulation; Support can/RS485 communication; Support touch screen display control.


 
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