APPLICATIONS
Photo-Hydrogen
The Redeem Photo Reactor integrates the capabilities of a PV-Cell, an electrolyzer, and a purification unit into a single system.
THE ALL-IN-ONE SOLUTION TO PRODUCE PHOTO-HYDROGEN
The Redeem Solar Technologies Differentiators
All-In-One Solution
The Redeem Photo Reactor integrates the capabilities of a PV-Cell, an electrolyzer, and a purification unit into a single system. All at ambient temperature, with no need for battery storage, current converters, or special metallurgy. This streamlined approach reduces costs and complexity compared to traditional systems.
Capacity Flexibility
Introducing our revolutionary capacity-flexible hydrogen production unit—the epitome of efficiency and adaptability. Designed to meet the dynamic demands of modern industry, our unit boasts unparalleled flexibility, allowing seamless adjustments to production levels with maximum efficiency. Whether scaling up during peak periods or dialing down to conserve energy, our innovative technology ensures optimal performance every time. Say goodbye to wasted resources and hello to a smarter, more sustainable solution for hydrogen production.
Feed Flexibility
Our Redeem Photo Reactor can produce green hydrogen from different feed sources, including fresh, contaminated, and salt water, ammonia, or liquid organic hydrogen carriers (LOHCs), making it the most versatile solution on the market. Customized catalysts within our distinctive reactor design enable this exceptional adaptability.
Lower Equipement Count
The design principles and operational strategies employed by Redeem Solar Technologies ensure that its Photo Reactor provides a low equipment count while maintaining high performance, reliability, and efficiency in green hydrogen production.
Local Hydrogen Production
The Redeem Photo Reactor's modular design allows for the entire green hydrogen production process to take place locally, thereby minimizing transportation costs and energy losses associated with long-distance transportation.
Affordable Pure Hydrogen
The use of solar energy coupled with an efficient photocatalytic process, scalability and modularity, low maintenance requirements, local production, and economies of scale allows Redeem Solar Technologies to market a photo-panel that produces green hydrogen up to 20% cheaper.
PHOTO-HYDROGEN FOR KEY INDUSTRIES
The Redeem Photo Reactor Brings Long-Term Sustainability to Your Industry.
Speciality Chemical Industry
Zero-carbon hydrogen as chemical feedstock for hydrogenation or fuel for fired heaters.
Utilize locally sourced green hydrogen feeds.
Eliminate transportation costs.
Seamlessly integrate into existing systems.
Aerospace Industry
Can be combusted or used for electricity generation.
Utilize open spaces within airport facilities to meet hydrogen demand.
Versatile for powering future hydrogen-powered planes and ground infrastructure.
Energy Industry
High efficiency production and storage.
Eliminate transportation costs.
Easily expandable when the demand increases.
Versatile application from combustion to electricity generation.
Utilize excess renewable energy and transform it into hydrogen.
Petrochemical Industry
Decrease CO2 emissions through increased hydrogen usage.
Achieve sustainability objectives.
Cut operational costs with in-house gas production.
Mobility Industry
On-site hydrogen production.
Fuels a variety of hydrogen-powered vehicles, from forklifts to trucks.
Decreases the carbon footprint.
HOW WE DO IT
Redeem Photo-reactor Harnesses the Energy of Light for The Release of Hydrogen from Water and Carriers
In the case of water splitting for hydrogen production, a specific catalyst and reactor configuration are chosen. During operation, the liquid, in this case, water, is pumped through the reactor while being exposed to light. This light penetrates the reactor and is absorbed by the photo-catalyst, initiating a photo-chemical reaction. The activated photo-catalyst transfers the energy from light into the water molecules, leading to the splitting of water into oxygen and hydrogen gas.
To separate the hydrogen and oxygen gases, the mixture passes over a membrane within the reactor. This membrane efficiently separates the hydrogen from the remaining stream, which is then directed to the hydrogen consumption site for various applications. The unreacted water is reintroduced into the system while oxygen is vented or sent to downstream processing, completing the cycle.
This process exemplifies how Redeem Photo-reactors facilitate chemical transformations using light as the driving force. Whether it's water splitting, ammonia cracking, liquid carrier de-hydrogenation, this innovative approach offers a sustainable and efficient method for producing zero-carbon fuels while minimizing energy waste.