NOAH Inc.

Our Platform

Dedicated to empowering renewable energy companies and gas suppliers, NOAH introduces the Adaptable Renewable Commodities (ARC) platform, a versatile, modular system for the efficient production of high-quality renewable commodities, including oxygen, hydrogen, and algae — all with zero carbon emissions. Our plug-and-play system seamlessly integrates with any energy source, workflow, or complementary technology. Designed for easy transport, deployment, and scalability, NOAH empowers energy producers to painlessly expand into multi-commodity production.

We offer competitive leasing on our 1 to 10MW configurations. We work with you to survey your site, get permits, and perform installation. Once ARC is in place, you can monitor and control system performance, throttling output to meet your demand. Our ongoing support plans take care of maintenance and electrolyzer upgrades. This way, you can produce high-quality renewables, and NOAH handles the rest.

ARC’s Benefits

  • Integrates with any energy source, workflows, or complementary technologies.
  • Easily transportable, deployable, and scalable – enabling energy producers to also become multi-commodity producers.
  • Captures 4.3% of hydrogen’s mass as CO₂, equaling 8.5 metric tons per ASC module annually.
  • Reduces liquid oxygen costs by 20% and green hydrogen production costs by 75%.
  • Sale of excess byproducts like algae and alkaline water contributes to a 90% overall cost reduction.

ARC’s Carbon Capture

The ARC platform’s ASC modules consume CO2 when cultivating microalgae.

Conventional steam-methane reforming produces ~120 kg CO2 per 16 kg hydrogen.

Using solar energy, our module consumes 1 kg CO2 per 23 kg hydrogen.

The table below shows carbon capture in a 1 AGP to 1 ASC ratio:

Daily Average Carbon CaptureRenewable PowerAC – Grid PowerDC – Direct Power
1Nameplate (MW)111
2Consumption (MWh)8 – 2324.523.75
3CO2 Capture (kg)9 – 262626
* Direct power includes sources such as Land Fill Gas, etc.; carbon capture can be higher based on needs 

ARC’s Modules

NOAH’s ARC platform combines four proprietary modules:

  1. AGP – Electrolzyer
  2. ASC – Microalgae bioreactor
  3. COMP – Gas compression
  4. STR – Cryogenic gas storage

These modules take in water, energy, and chemicals, and output green commodities. Its design supports seamless integration into both existing workflows and new installations, and it is fully compatible with a wide range of energy sources, including solar, wind, nuclear, and natural gas.

AGP – Atmospheric Gas Production

Our Atmospheric Gas Production (AGP) modules split water into pure hydrogen and oxygen. They’re housing in 20′ shipping containers. We split water to produce pure oxygen and hydrogen. Our electrolyzer bays utilize state-of-the-art PEM cells to ensure long lifetimes and high reliability.

H2 output – 610 KG/Day 
O2 output – 4,870 KG/Day 

Annual Revenue Potential per Module:
LH2 – $725,900
LO2 – $1,231,500
Total: $1.96M (@ 85% Throttle & 350 days)

ASC – Algae Solar Cultivation

The Algae Solar Cultivation (ASC) module is our bioreactor. It takes in solar energy, and wastewater from our other modules, for algorithm-controlled microalgae cultivation, and alkaline water production.

Alkaline water output – 800 to 1,600 LPD

Annual Revenue Potential per Module: $201,500 (@85% Throttle & 350 days)

COMP – Compressor

After electrolysis, the Compressor (COMP) cools and compresses the gases into a liquid state.

STR – Cryogenic Gas Storage

When hydrogen and oxygen need to be stored, either for future use or transport, our STR module does the job. These are safe, DOT-compliant storage and transportation units. Not all applications require this module.

These modules come in two types:
Onsite storage
Transport-ready storage

Available sizes are:
STR – 20’ – frame inset horizontal quad-walled cylinder
H2 – 1,450 KG   O2 – 23,730 KG

STR – 40’ – frame inset horizontal quad-walled cylinder
H2 – 2,910 KG   O2 – 47,460 KG

Market Environment

Market forecasts for hydrogen and oxygen indicate significant growth over the next decade. Currently, hydrogen prices are approximately $5/kg. The U.S. Department of Energy has set an ambitious target of $1/kg by 2030. At NOAH, we are targeting a competitive price of less than $2/kg within the next two years, positioning us well ahead of the industry curve.

Our development of the ARC platform was guided by several core principles, laying a solid foundation for sustained growth:

  1. Flexibility & Scalability
  2. Responsiveness
  3. Safety
  4. Ease of Maintenance

Flexibility & Scalability

The ARC platform is a modular and scalable solution designed for seamless integration into existing systems or as a stand-alone option. With its plug-and-play capability, ARC modules can be deployed individually or as part of a larger fleet. We provide optimized configurations with network topologies for one, five, and twenty modules, all of which are easily expandable and managed through the ARC Controller management infrastructure.

Each ARC module is equipped with solar panels that automatically adjust to maximize energy capture. Our modules can connect to any renewable or standard electrical grids, supporting both AC and DC power. To ensure reliable water supply, ARC modules feature patent-pending subcomponents that draw in and purify water, providing a consistent flow of contaminant-free water to prevent system degradation.

The ARC platform’s flexibility and scalability make it an ideal choice for a wide range of applications, offering both efficiency and ease of integration.

Responsiveness

The ARC platform is designed for real-time adaptability, allowing for rapid response to changing operational conditions and demands. Each ARC module is equipped with advanced sensors and automated control systems that continuously monitor performance parameters such as energy input, water quality, and output levels. This data is processed through the ARC Controller management infrastructure, which can make immediate adjustments to optimize efficiency and output. Whether it’s scaling up production to meet increased demand or quickly adapting to grid fluctuations and weather changes, the ARC platform ensures uninterrupted and efficient operation. With built-in predictive analytics, the system can also anticipate potential issues and make preemptive adjustments, minimizing downtime and enhancing overall reliability.

Safety

Safety is a paramount consideration of the ARC platform’s design, with each module incorporating multiple layers of advanced safety features. These include automatic shut-off mechanisms, over-voltage and over-current protection, and rigorous emergency fail-safes. Real-time monitoring systems detect anomalies such as leaks, overheating, or contamination, immediately triggering alerts and corrective actions to maintain operational integrity. In the event of a fire, our proprietary nitrogen fire suppression system swiftly activates to prevent and minimize large-scale hazards and damage.

All components are engineered to meet or exceed industry standards for safety and reliability, ensuring secure operation across diverse environments. The ARC Controller facilitates regular software updates and diagnostic checks, keeping the system aligned with the latest safety regulations and best practices.

Ease of Maintenance

The ARC platform is engineered for minimal maintenance requirements, allowing operators to focus on productivity rather than upkeep. Modular components are designed for easy access and replacement, reducing the time and cost associated with maintenance tasks. The ARC Controller provides a user-friendly interface that allows operators to perform remote diagnostics, monitor system health, and schedule maintenance activities efficiently. Predictive maintenance algorithms further enhance reliability by identifying potential issues before they escalate, enabling timely interventions that prevent unscheduled downtime. This approach not only extends the lifespan of each module but also significantly reduces the total cost of ownership.

Ancillary Modules

CCM – Crypto Currency Mining

Our crypto currency mining module (CCM) augments ARC with high-efficiency crypto mining capabilities. ARC’s carbon offset helps make mining environmentally sustainable, aligning with NOAH’s carbon-negative mission.

More Modules Are In Development…