Engineering the future of natural gas and liquefied natural gas infrastructure with precision separation and high-pressure compression technology.
Our core expertise lies in the sophisticated handling of natural gas and liquefied natural gas, ensuring maximum purity and operational safety through cutting-edge compression and separation modules.
Implementing ultra-low temperature distillation to achieve 99.9% purity in LNG processing units.
Custom-engineered compressors designed for volatile gas streams with maximum energy efficiency.
Plug-and-play separation modules that reduce on-site installation time by up to 40%.
Using advanced sealing technology to eliminate fugitive emissions in high-pressure gas environments.
Integrated heat recovery systems that lower the overall energy cost of LNG liquefaction.
Pre-fabricated skids ensure rapid scaling and deployment for emergency energy needs.
| Model Series | Max Pressure | Separation Rate | Power Input | Temperature Range | Material Grade |
|---|---|---|---|---|---|
| LNG-Prime 100 | 250 Bar | 99.99% | 150 kW | -162°C to 40°C | SS 316L |
| LNG-Prime 200 | 350 Bar | 99.97% | 280 kW | -165°C to 50°C | SS 316L |
| GasFlow-X1 | 150 Bar | 98.5% | 90 kW | -50°C to 80°C | Alloy 625 |
| GasFlow-X2 | 200 Bar | 98.8% | 120 kW | -60°C to 90°C | Alloy 625 |
| Sepura-Max 50 | 100 Bar | 99.1% | 75 kW | -100°C to 60°C | Titanium Gr2 |
| Sepura-Max 100 | 180 Bar | 99.4% | 110 kW | -110°C to 70°C | Titanium Gr2 |
| CryoComp-V1 | 400 Bar | 99.9% | 320 kW | -170°C to 40°C | Inconel 718 |
| CryoComp-V2 | 500 Bar | 99.95% | 400 kW | -180°C to 50°C | Inconel 718 |
Deployed 12 high-pressure compression units to stabilize output for offshore LNG terminals.
Supplied advanced cryogenic separation skids, increasing daily throughput by 15%.
Custom separation modules implemented to remove impurities from raw feed gas streams.
Integrated 500 Bar compression stations to enable long-distance transmission to Europe.
Rapid deployment of modular compression skids for temporary shale gas gathering sites.
Optimized regasification compressors reducing electricity consumption by 12%.
First-stage compression for raw natural gas extracted from deep well reservoirs.
High-volume compressor stations ensuring constant pressure across continental pipelines.
Precision cooling and compression to transform natural gas into liquid for sea transport.
Compressors designed to handle the rapid phase change from liquid back to gaseous state.
Providing high-purity gas streams for chemical synthesis and metallurgical processes.
Strategic gas injection systems for underground salt cavern storage facilities.
All pressure vessels and compression chambers strictly follow ASME BPVC standards for extreme safety.
End-to-end traceability and rigorous testing protocols for every component in the gas chain.
Explosion-proof designs certified for hazardous zones (Zone 0/1) in LNG facilities.
Our systems optimize the cooling cycle of natural gas and liquefied natural gas, resulting in a 12% reduction in energy overhead compared to traditional methods.
Yes, we utilize Alloy 625 and Inconel 718 materials specifically for high-sulfur and corrosive gas environments.
Standard modular units are delivered within 6-8 weeks, while custom-engineered solutions vary based on complexity.
Yes, our global engineering team provides full turnkey services from site survey to final commissioning.
We employ double-block and bleed valve systems combined with helium leak testing to guarantee absolute integrity.
Absolutely. Our adaptive flange systems and pressure control valves are designed for seamless integration with global pipeline standards.
Partner with the industry leader in natural gas and liquefied natural gas processing for unmatched efficiency and safety.