An ideal power sector scenario for a clean and sustainable future would involve the harvesting of wind and solar energy for electricity, and using the excess energy to power electrolyzers – water splitters that produce hydrogen fuel (H2). The H2 can be stored long-term to provide a means of generating...
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The global electrolyzers industry is projected to reach USD 14.48 billion by 2031 from an estimated USD 2.08 billion in 2025, at CAGR of 38%
The global electrolyzers industry is projected to reach USD 14.48 billion by 2031 from an estimated USD 2.08 billion in 2025, at a CAGR of 38.2%. The electrolyzers industry growth is driven by the increasing adoption of green hydrogen across industrial, mobility, and energy sectors, as well as the rapid integration of renewable energy systems and supportive hydrogen policies. Rising efficiency, safety, and reliability requirements, along with stringent decarbonization targets, are encouraging industries and utilities to invest in advanced electrolyzer technologies.
The global electrolyzers market is projected to grow from USD 2.08 billion in 2025 to USD 14.48 billion by 2031 at a CAGR of 38.2% during th
The global Electrolyzers Market size is expected to grow from USD 2.08 billion in 2025 to USD 14.48 billion by 2031, at a CAGR of 38.2% according to a new report by MarketsandMarkets™. An electrolyzer is a system that uses electricity to split water into hydrogen and oxygen, enabling the production of clean hydrogen for industrial, mobility, and energy applications. It consists of a stack, where the electrochemical reaction occurs, and a balance of plant that includes power electronics, gas handling, cooling, and control systems. Electrolyzers come in different technologies, including alkaline, PEM, solid oxide, and AEM, each tailored for specific scales and operating conditions. Modern electrolyzers offer high efficiency, modular design, and digital monitoring capabilities, enabling real-time performance tracking, flexible load operation, and seamless integration with renewable energy sources for reliable green hydrogen generation.
/PRNewswire/ -- According to MarketsandMarkets™, the global Electrolyzers Market size is projected to grow from USD 2.08 billion in 2025 to
The global electrolyzers market is projected to grow from USD 2.08 billion in 2025 to USD 14.48 billion by 2031 at a compound annual growth rate (CAGR) of 38.2% during the forecast period. An electrolyzer is a system that uses electricity to split water into hydrogen and oxygen, enabling the production of clean hydrogen for industrial, mobility, and energy applications. It consists of a stack, where the electrochemical reaction occurs, and a balance of plant that includes power electronics, gas handling, cooling, and control systems. Electrolyzers come in different technologies, including alkaline, PEM, solid oxide, and AEM, each tailored for specific scales and operating conditions. Modern electrolyzers offer high efficiency, modular design, and digital monitoring capabilities, enabling real-time performance tracking, flexible load operation, and seamless integration with renewable energy sources for reliable green hydrogen generation.
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Tensor's AM300W AEM electrolyzer tester provides comprehensive 300W cell evaluation with anode/cathode flow, pressure & temperature control,
AM300W AEM Electrolyser Tester
AM300W electrolyzer test bench can be used for testing 300W AEM electrolyzer cell. This station can control the flow, pressure and temperature of the anode and cathode of the electrolyzer and simulate the working condition, and collect various data of it.
*Customized products, please send your requirements to [email protected]
Basic Functions of AM300W AEM Electrolyser Tester
● Anode (cathode) KOH solution flow and pressure control
● Gas production rate and concentration measurement
● Stack temperature control
● Water supply conductivity & level control
● Exhaust water recovery and amount/content test
● Pressure regulation at high pressure during flow rate shift
● Electrolyzer work condition simulation and performance test
● Cell Voltage Monitoring
● Intrinsic safety & alarming system
● HMI with Data Acquisition & Analysis
● 24/7 Unattended Operation
Optional Functions of AM300W AEM Electrolyser Tester
Tensor's AM1kW AEM electrolyzer tester provides comprehensive 1kW cell evaluation with anode/cathode flow, pressure & temperature control, s
AM1 AEM Electrolyser Tester
AM1kW electrolyzer test bench can be used for testing 1kW AEM electrolyzer cell. This station can control the flow, pressure and temperature of the anode and cathode of the electrolyzer and simulate the working condition, and collect various data of it.
*Customized products, please send your requirements to [email protected]
Basic Functions of AM1 AEM Electrolyser Tester
● Anode (cathode) KOH solution flow and pressure control
● Gas production rate and concentration measurement
● Stack temperature control
● Water supply conductivity & level control
● Exhaust water recovery and amount/content test
● Pressure regulation at high pressure during flow rate shift
● Electrolyzer work condition simulation and performance test
Tensor's AEM Electrolyzer Test Bench enables accurate simulation of operating conditions, ensuring robust performance and durability testing
AEM electrolyser Test Benches simulate work condition of AEM electrolyser stack and conduct perfomance test, durability test and electrochemistry analysis of AEM cells/stacks.
AM1 AEM Electrolyser Tester
The AM1kW electrolyzer test bench is designed for evaluating 1kW AEM electrolyzer cells, featuring precise control of anode/cathode flow, pressure, and temperature parameters. The system enables operational condition simulation and comprehensive data acquisition for performance analysis.
AM300W AEM Electrolyser Tester
The AM300W electrolyzer test bench is designed for comprehensive evaluation of 300W AEM electrolyzer cells, featuring independent control of anode/cathode flow rates, pressure, and temperature parameters. The system enables realistic operational condition simulation while performing multi-channel data acquisition for performance analysis.
AM500W AEM Electrolyser Tester
The AM500W electrolyzer test bench is designed for comprehensive performance evaluation of 500W AEM electrolyzer stacks. It features independent control of flow rates, pressure, and temperature for both anode and cathode sides.
AM10 AEM Electrolyser Tester
The AM10kW electrolyzer test bench is engineered for comprehensive evaluation of 10kW AEM electrolyzer stacks. The system provides independent control of anode and cathode parameters including flow rates (0-20 L/min, ±1% accuracy), pressure (0-35 bar), and temperature (20-90°C).
AM20 AEM Electrolyser Tester
AM20kW electrolyzer test bench is designed for evaluating 20kW AEM electrolyzer cells. It controls anode/cathode flow, pressure, and temperature, simulates operating conditions, and collects performance data.
AM50 AEM Electrolyser Tester
The AM50kW electrolyzer test bench is designed for evaluating 50kW AEM electrolyzer cells.
What Are AEM Electrolyser Test Bench Used For?
Anode solution flow and pressure control with dry/wet mode
Optional Cathode solution flow and pressure control with dry/wet mode
Gas production rate and concentration measurement
Stack temperature control
Water supply conductivity& level control
Optional Solution PH level control
Exhaust water separation and amount/content sampling
Pressure regulation at high pressure during flow rate shift
Electrolyser work condition simulation and performance test
Cell Voltage Monitoring
Intrinsic safety& alarming system
HMI with data acquisition& analysis
24/7 Unattained Operation
Pressure boost with nitrogen
How Does AEM Electrolyser Test Bench Work?
The liquid recirculation modules on Anode (and optional Cathode) supplies KOH or other solutions to the DUT (Device-Under-Testing) at demanded temperature and flow rates. After the electrlysis process while reaction pressure and temperature are controlled, H2/O2 mix with liquid and then exit the DUT and then go to the separation module to remove water. After the drying process, the gases enter analyzing modules to measure flow rates and concentrations.
Highlights of AEM Electrolyser Test Bench
1. Cathode gas back pressure control technology: Install a new type of back pressure valve on the cathode gas discharge path of the electrolytic cell to improve the accuracy of back pressure control.
2. Large-span flow rate regulation technology. The test bench is downward compatible and can meet the testing requirements of some unconventional working conditions.
3. Precise control technology for alkali solution concentration. Continuously adjust the supply of pure water or alkali solution based on the real-time alkali solution concentration collected by the alkali solution concentration meter to ensure that the alkali solution concentration remains within a controllable range.
