Industrial Applications of Our Technology

At EraHymax Energy Co., we have developed a pioneering two-in-one energy and carbon management system, fully powered by hydrogen, that delivers clean, efficient, and scalable solutions across multiple industries.

Our proprietary technology addresses two critical challenges simultaneously: delivering clean energy and capturing carbon emissions at a 70% lower cost, all within a single, integrated system.

Versatile Applications  Across Key Sectors:

Our system is engineered for seamless integration into both new and existing infrastructures, including but not limited to:

1. Data Centers
Powered entirely by hydrogen and waste heat, our two-in-one solution delivers clean, reliable power for data centers and high-performance computing operations while reducing energy costs. Our technology delivers a sustainable and efficient energy solution for data center infrastructure, ensuring maximum uptime and performance, while maintaining environmental responsibility and providing sufficient clean electric power.

2. Fossil Fuel Power Plants
Fossil fuel power plants continue to play an important role in supporting grid stability and meeting current energy demand, yet they face growing pressure to reduce emissions and operate more sustainably. Traditional carbon capture technologies have struggled to provide a workable solution because they require large amounts of energy to capture and process CO₂, increasing operational costs and reducing net power output of the power plant by 30%-70%. As a result, conventional carbon capture can not apply in power plants and has not offered an economically viable path to large-scale decarbonization.

EraHymax’s two-in-one system offers a more practical path forward by integrating with existing power plants to generate independent zero-emission electricity while capturing carbon emissions at substantially lower energy demand. Instead of imposing additional load on the power plant, the system contributes new clean power capacity and reduces carbon capture costs by up to 70%, improving overall efficiency and increasing net electric output. We developed an innovative capturing system and waste-heat powered CO2 Regeneration and Absorption modules, and this replaces the conventional electric heaters and fossil fuel based capturing systems. As a result, this tech breakthrough cuts 70% carbon capture costs, and provides an unparalleled solution to carbon emitter power plants, factories and heavy industries.

(Example: Assume Power Plant A, a 60-MW coal-fired facility that emits approximately 367,920 tonnes of CO₂ annually. To comply with decarbonization goals, the plant must effectively capture and manage these emissions. However, conventional carbon-capture technologies require 30%–70% of the plant’s own power output (18–42 MW), which substantially reduces net generation capacity and makes full decarbonization economically impractical. Our advanced carbon-capture solution directly addresses this challenge. It dramatically lowers the energy required for CO₂ removal, enabling significant reductions in operating costs while preserving the plant’s full power-generation capability. In addition, our integrated “two-in-one” system not only captures carbon more efficiently but also produces clean electricity, increasing the facility’s net output rather than diminishing it.)

Our technology enables fossil-fuel power plants to remain active contributors to the energy mix while operating with a dramatically lower carbon footprint. This provides meaningful emissions reductions from existing power plant assets while complementing long-term investment in renewable and next-generation energy systems.

This allows current power-plant infrastructure to reduce its environmental impact in a cost-effective manner while supporting sustainability and carbon-reduction goals.

By delivering additional clean power, reducing emissions, and eliminating the economic penalties associated with traditional CCS, our technology provides a practical and scalable path to sustainable fossil-fuel-based electricity without modifying or replacing existing infrastructure. It strengthens environmental performance and supports a cleaner energy future without requiring phase-outs or the immediate replacement of today’s essential power resources. EraHymax’s two-in-one technology offers a critical solution for fossil-fuel power plants.

3. Carbon Capture Facilities
Our two-in-one system is designed to capture CO₂ from the air at lower cost while simultaneously generating clean energy for local communities or supplying electricity to the grid. Furthermore, our technology integrates with existing carbon capture infrastructure, increasing capture efficiency, reducing operational costs by up to 70%, and making carbon capture both sustainable and economically viable.

4. Oil & Gas Refiners
Refineries can integrate our system to reduce greenhouse gas emissions and enhance process energy efficiency. The dual benefits of clean energy generation and carbon capture enable refiners to meet regulatory requirements, maintain production performance, and achieve significant energy and cost savings.

5. Heavy Industries
Energy-intensive sectors, such as steel, cement, and chemical manufacturing, can deploy our scalable, hydrogen- and waste-heat-powered technology to lower emissions, enhance energy efficiency, and optimize operational performance across both legacy and new facilities.

6. Waste-to-Energy & Biomass Plants
Our technology integrates with both new and existing biomass plants. By capturing and reusing waste heat in conjunction with our two-in-one hydrogen energy solution, our system maximizes renewable energy output, reduces the cost of carbon capture, and improves operational efficiency, transforming waste into a sustainable energy asset.

Why Our Technology Unlocks the Next Generation of Scalable, Low-Carbon Data Centers:
Data centers are facing unprecedented challenges: exploding AI workloads, strained grid capacity, rising energy costs, and intensifying pressure to decarbonize. Our two-in-one hydrogen- and waste-heat-powered technology directly addresses these issues by delivering clean on-site power and ultra-efficient CO₂ capture without relying on the grid. Key Benefits Designed Specifically for Data Centers:

1. Solves the Grid Capacity Crisis

• Our solution provides clean, reliable on-site power generation, reducing dependency on congested utility grids.

• Enables new data center projects in regions with grid connection delays or capacity shortages.

• Supports rapid scaling without waiting for multi-year grid upgrades.

2. Fully Powered by Waste Heat + Hydrogen

• Unlike traditional systems, our solution uses 100% waste heat—including waste heat released from data center cooling operations to drive CO₂ capture system.

• Hydrogen+ waste heat energy, powers clean electricity generation, offering stable, high-density power for AI workloads.

3. Cuts Total Energy Use and Improves Power Usage Effectiveness (PUE):

• Captures CO₂ using reclaimed waste heat— significantly reduces electrical load on an already strained power budget.

• Reduces overall facility energy demand and improves PUE, which is increasingly difficult as rack densities rise.

4. Enables High-Density AI Expansion:

• Provides scalable, high-capacity power for GPU clusters where traditional utilities cannot keep up.

• Supports resilient, uninterrupted operations, a necessity for real-time AI inference and training.

5. Dramatically Lowers Carbon-Capture and Operating Costs:

• Waste-heat-driven capturing system reduces CO₂ capture costs by up to 70%.

• Eliminates electric heaters and fossil-fuel-based regeneration systems common in conventional solutions.

6. Strengthens Sustainability & ESG Performance:

• Reduces the carbon intensity of data center operations without requiring major infrastructure changes.

• Helps facilities meet net-zero, Scope 1/2/3, and upcoming regulatory requirements.

7. Creates a New Revenue Stream (Carbon Credit Revenue Stream)

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  Our solution significantly reduces CO₂ emissions while generating clean power and enabling data centers to generate verified carbon credits, creating a new, scalable revenue stream while supporting sustainability targets.

8. Zero Disruption to Existing Infrastructure

• Integrates with current cooling, power, and backup architectures.

• No need for redesigning or modifying the data hall, electrical room, or mechanical systems.

9. Future-Proof Energy Strategy: 

• Meets the power reliability and sustainability standards demanded by hyperscalers.

• Positions data centers for long-term growth as electricity demand is projected to rise by hundreds of terawatt-hours by 2030.

Example of Practical Deployment:
Our two-in-one system can be seamlessly integrated with small- or medium-sized fossil-fuel-based power generators to supply clean, on-site electricity for data centers—providing flexible, localized energy without modification or infrastructure changes. For example, a configuration such as 10 MW from our solution combined with 10 MW from fossil-fuel generators or a plant can generate a total of 20 MW and fully power a medium-size data-center facility, and the total capacity can be tailored to meet specific project requirements.

Summary:
We provide data centers with something the industry urgently needs but currently lacks: clean, scalable, grid-independent power plus ultra-low-cost CO₂ capture that grows with AI demand. Our solution transforms data centers into self-powered, low-emission, high-reliability facilities, unlocking expansion and sustainability simultaneously.

Open Collaboration Opportunities: If you own or operate data-center facilities, or support data-center projects facing power constraints, or if you are strategic investor, or if you are stakeholders, we invite you to contact us to explore collaboration opportunities for project development and demonstration, and to partner in creating the energy solutions that will power tomorrow’s data centers. To learn more contact us via our contact form.

Our Current Focus and Our Primary Market Targets

We are prioritizing the delivery of scalable, clean, and highly reliable power solutions for data centers—addressing one of the fastest-growing sources of electricity demand in the United States. In parallel, we are expanding strategic partnerships across multiple sectors to accelerate deployment and enable the transition to low-carbon infrastructure worldwide.

According to the International Energy Agency, U.S. electricity demand is increasing faster than anticipated due to rapid data-center expansion (IEA, Electricity 2025: https://www.iea.org/reports/electricity-2025). Data centers consumed roughly 180 TWh of electricity in the U.S. in 2024, and demand is projected to rise by an additional 240 TWh by 2030 (IEA, Electricity Mid-Year Update 2025: https://www.iea.org/reports/electricity-mid-year-update-2025). Globally, data-center electricity consumption is expected to more than double to approximately 945 TWh by 2030, with the U.S. driving nearly half of that growth (IEA, Energy & AI Report: https://www.iea.org/news/ai-is-set-to-drive-surging-electricity-demand-from-data-centres-while-offering-the-potential-to-transform-how-the-energy-sector-works).

Erahymax Energy is committed to delivering clean, reliable, and scalable energy solutions that power high-density, mission-critical data centers, meeting the nation’s growing electricity needs while our innovative two-in-one solution makes a significant contribution to the sector.