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HydroVitality Product Summary
Overview
Specification
Features
User Overview
Laboratory tested and academically proven
HydroVitality creates a mixture of oxygen and hydrogen gases called oxyhydrogen. The product utilises a process called electrolysis by using electricity and a catalyst.
Product Purpose
Client Feedback
Academic Backing
HydroVitality Product Summary
Overview
Specification
Features
User Overview
Laboratory tested and academically proven
HydroVitality creates a mixture of oxygen and hydrogen gases called oxyhydrogen. The product utilises a process called electrolysis by using electricity and a catalyst.
Product Purpose
Client Feedback
Academic Backing
HydroVitality Product Summary
Overview
Specification
Features
User Overview
Laboratory tested and academically proven
HydroVitality creates a mixture of oxygen and hydrogen gases called oxyhydrogen. The product utilises a process called electrolysis by using electricity and a catalyst.
Product Purpose
Client Feedback
Academic Backing
HydroVitality Technology
How electrolysis works
Process variables
Optimising efficiency
Our uniqueness
Electrolysis generates oxygen and hydrogen gases from water.
Got a question? We're ready to answer! If you don't see your question listed here, please book an appointment.
What is electrolysis?
What happens inside an electrolysis device?
Why does electrolysis require electricity?
Why use electrolysis instead of other methods of generating hydrogen?
HydroVitality Technology
How electrolysis works
Process variables
Optimising efficiency
Our uniqueness
Electrolysis generates oxygen and hydrogen gases from water.
Got a question? We're ready to answer! If you don't see your question listed here, please book an appointment.
What is electrolysis?
What happens inside an electrolysis device?
Why does electrolysis require electricity?
Why use electrolysis instead of other methods of generating hydrogen?
HydroVitality Technology
How electrolysis works
Process variables
Optimising efficiency
Our uniqueness
Electrolysis generates oxygen and hydrogen gases from water.
Got a question? We're ready to answer! If you don't see your question listed here, please book an appointment.
What is electrolysis?
What happens inside an electrolysis device?
Why does electrolysis require electricity?
Why use electrolysis instead of other methods of generating hydrogen?
Why choose HydroVitality over a PEM device?
Reliability
Consistency
Proton exchange membranes (PEMs) function by separating the hydrogen from the oxygen during the electrolysis process. This type of technology tends to have a shorter lifespan due to the susceptibility of the membrane to clogging over time.
When these membranes get obstructed, they hinder the device’s efficiency, often requiring regular maintenance to restore functionality. This upkeep increases operational costs and device downtime, often making PEMs more costly and less reliable over time.
HydroVitality produces a mixture of hydrogen and oxygen directly without using a proton exchange membrane. By eliminating this vulnerable component, our product requires minimal maintenance and is designed to operate effectively for a significantly longer period. This ensures that HydroVitality has greater reliability, reduced operational costs and uninterrupted efficiency.
HydroVitality has lower maintenance requirements and will function for longer than most PEM devices.
Why choose HydroVitality over a PEM device?
Reliability
Consistency
Proton exchange membranes (PEMs) function by separating the hydrogen from the oxygen during the electrolysis process. This type of technology tends to have a shorter lifespan due to the susceptibility of the membrane to clogging over time.
When these membranes get obstructed, they hinder the device’s efficiency, often requiring regular maintenance to restore functionality. This upkeep increases operational costs and device downtime, often making PEMs more costly and less reliable over time.
HydroVitality produces a mixture of hydrogen and oxygen directly without using a proton exchange membrane. By eliminating this vulnerable component, our product requires minimal maintenance and is designed to operate effectively for a significantly longer period. This ensures that HydroVitality has greater reliability, reduced operational costs and uninterrupted efficiency.
HydroVitality has lower maintenance requirements and will function for longer than most PEM devices.
Why choose HydroVitality over a PEM device?
Reliability
Consistency
Proton exchange membranes (PEMs) function by separating the hydrogen from the oxygen during the electrolysis process. This type of technology tends to have a shorter lifespan due to the susceptibility of the membrane to clogging over time.
When these membranes get obstructed, they hinder the device’s efficiency, often requiring regular maintenance to restore functionality. This upkeep increases operational costs and device downtime, often making PEMs more costly and less reliable over time.
HydroVitality produces a mixture of hydrogen and oxygen directly without using a proton exchange membrane. By eliminating this vulnerable component, our product requires minimal maintenance and is designed to operate effectively for a significantly longer period. This ensures that HydroVitality has greater reliability, reduced operational costs and uninterrupted efficiency.
HydroVitality has lower maintenance requirements and will function for longer than most PEM devices.
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Contact Us
Office:
Church Street
Wakefield, West Yorkshire
WF1 5QY United Kingdom
© 2024 Water Fuel Engineering Ltd.
Office:
Church Street
Wakefield,
West Yorkshire
WF1 5QY
United Kingdom
© 2024 Water Fuel Engineering Ltd.
Office:
Church Street
Wakefield, West Yorkshire
WF1 5QY United Kingdom
© 2024 Water Fuel Engineering Ltd.