Skyre H2RENEW™ Hydrogen Recovery System: Real-time, safe, and reliable.

H2RENEW™ is suitable for semiconductor manufacturing, electronic component annealing, float glass production, chemical plants, petrochemical facilities, metallurgy, and any industrial application that generates waste hydrogen or tail gas during the production process.

The maximum hydrogen recovery capacity is 100 kg per day (46 Nm³/h), with system availability >90%, hydrogen recovery rate generally >80%, and up to 95% at peak performance.

Output hydrogen purity reaches 99.9999% (6N grade), with a moisture content of only 1 ppm and a dew point as low as -76°C, suitable for high-purity applications in precision electronics, medical, and research fields.

Inlet pressure range is 0–1 psig. The feed gas must be hydrogen-containing waste gas or tail gas, and the environment must be free of corrosive gases. Detailed inlet gas composition requirements should be confirmed with the technical team.

Product hydrogen output pressure ranges from 0–150 psig and can be adjusted based on downstream application requirements.

The cabinet dimensions are 897 × 762 × 1788 mm, with a footprint of 0.68 m² and a weight of approximately 500 kg. Installation should be in a well-ventilated area with at least 1 meter of maintenance clearance at the front, and an external cooling water supply is required (water-cooled heat dissipation).

Input power is 480 VAC three-phase 60 Hz, with a rated power consumption of 10 kW and a maximum of 12 kW. Total harmonic distortion of the power supply must be <5%.

Operating temperature: 15–40°C. Operating humidity: 5–95% RH (non-condensing). Maximum installation altitude: 2,000 m. The environment must be free of corrosive gases.

Yes. The system is equipped with an HMI display and supports Ethernet communication with Modbus/TCP protocol, enabling remote monitoring, status alerts, and data logging.

Yes. Through the Modbus/TCP protocol, H2RENEW™ can be integrated with mainstream factory automation systems. Specific integration methods should be confirmed with the technical team during the project planning phase.

The system features intelligent automatic control and anomaly alerts, resulting in low day-to-day maintenance requirements. Routine maintenance is recommended to be performed by trained technicians. Tellus Materials provides comprehensive after-sales technical support.

Savings depend on the volume of waste hydrogen discharged, current hydrogen procurement costs, and electricity tariff rates. We recommend contacting our consultant team for an implementation cost-benefit calculation.

The system incorporates proprietary electrolysis technology and multiple safety protection measures, with status alerts and automatic safety isolation functions that comprehensively reduce the risk of leaks and explosions, in compliance with industrial safety standards.

Yes. H2RENEW™ can be integrated into Tellus Materials' hydrogen energy system chain, purifying recovered waste hydrogen for reuse in GAIA power generation or other hydrogen-consuming equipment, forming a complete hydrogen energy cycle.

Yes. Recovering and reusing waste hydrogen reduces direct hydrogen emissions, minimizes raw material waste and carbon footprint, and reduces the need for external hydrogen procurement — making it a concrete action for industrial sites to advance circular economy and ESG objectives.

Yes. Tellus Materials provides comprehensive services from needs assessment, system design, and installation integration to after-sales maintenance, helping customers plan the optimal solution for their site conditions.

Yes. H2RENEW™ adopts a modular design, allowing flexible capacity expansion based on future hydrogen demand. We recommend reserving expansion space during the initial planning stage.