Engineering the Future of Green Hydrogen

Advanced alkaline electrolyzer systems built for industrial-scale hydrogen production. Designed for high efficiency, long lifecycle, and seamless integration with renewable energy sources.

⚡ 80%+ Efficiency 🛠 100,000+ Hour Life 🌱 Renewable Ready

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Built for Scale

From pilot systems to utility-scale hydrogen production.

Optimized Cost

Low CapEx with high operational efficiency.

Engineered Reliability

Designed for long-term industrial deployment.

Our Electrolyzer Systems

Engineered green hydrogen systems delivering breakthrough efficiency, reliability, and cost-effective industrial deployment. Designed, built, and commissioned for scalable hydrogen production.

SW-1 Series

200 Nm³/hr Hydrogen

O₂ Output: 100 Nm³/hr
Entry-level industrial system
Optimized for pilot deployments

Industrial Entry

SW-10M

2000 Nm³/hr Hydrogen

O₂ Output: 1000 Nm³/hr
Modular stack architecture
Scalable mid-size plants

Most Scalable

SW-100M

20,000 Nm³/hr Hydrogen

O₂ Output: 10,000 Nm³/hr
Utility-scale deployment
Large hydrogen infrastructure

Utility Scale

Complete Product Range

Model	H₂ Capacity	O₂ Capacity
SW-0.5	100	50
SW-1	200	100
SW-5	1000	500
SW-10M*	2000	1000
SW-50M*	10,000	5000
SW-100M*	20,000	10,000

*Modular configuration enables scalable capacity expansion.

Our Electrolyzer Technology Advantage

Built for efficiency, durability, and real-world industrial deployment. Engineered to deliver consistent hydrogen output under dynamic operating conditions.

Best-in-Class Efficiency

Over 80% stack efficiency ensures optimized energy utilization and lower operating cost per unit hydrogen.

Pressurized Alkaline System

Compact stack architecture with pressurized operation enables higher output density and reduced footprint.

High Hydrogen Purity

Advanced separation ensures high-purity hydrogen suitable for industrial and energy applications.

Advanced Cell Materials

Non-metallic polar frame eliminates electro-corrosion, improving system stability and longevity.

100,000+ Hour Lifecycle

Low degradation rate ensures long operational life with minimal performance drop over time.

Dynamic Load Response

Quick response to renewable energy fluctuations with faster start/stop cycles for operational flexibility.

Electrolyzers Working Principle

Alkaline Water Electrolyzers

Alkaline water electrolyzers split water into hydrogen and oxygen using electrical energy. Splitwaters systems use advanced bipolar stack architecture, where multiple electrolysis cells are arranged in series to maximize efficiency and output.

⚡

KOH electrolyte circulates through the stack enabling efficient ion transfer.

🔬

Hydrogen is generated at the cathode, while oxygen is produced at the anode.

⚙️

Biphasic mixtures are separated using gas-electrolyte separation systems.

💧

Water vapor and electrolyte are removed to ensure high purity output gases.

Industries We Power

Scalable green hydrogen solutions across sectors where decarbonization, reliability, and cost efficiency matter most.

Transportation

Fuel cell mobility for heavy-duty fleets, rail, and logistics.

High Impact

Energy & Power

Grid balancing, storage, and renewable energy integration.

Core Sector

Metals & Steel

Low-carbon steel production and industrial heat replacement.

Decarbonization

Aviation

Future-ready sustainable aviation fuels and hydrogen propulsion.

Emerging

Fertilizers

Green ammonia production replacing fossil-based hydrogen.

Process Industry

Clean hydrogen feedstock for chemical and refining processes.

Space

High-purity hydrogen for propulsion and cryogenic systems.

Hydrogen Infrastructure

Large-scale production hubs and distribution ecosystems.