Engineering Excellence in Cryogenic Dispensing
Phazent brings multidisciplinary engineering expertise to the challenge of precision cryogenic cooling for industrial applications.
Our Story
Phazent was founded by engineers who recognized a fundamental gap in industrial cryogenic cooling technology. While liquid nitrogen has been used for decades in process cooling applications, the dispensing systems themselves had seen little innovation. Simple pipe outlets and spray nozzles dominated the market, despite their inherent limitations in uniformity, efficiency, and equipment protection.
Our founding team brought together expertise in cryogenic fluid handling, industrial spray technology, materials science, and manufacturable hardware design. This multidisciplinary approach enabled us to rethink cryogenic dispensing from first principles, focusing on the fundamental physics of two-phase flow and heat transfer.
The result was CryoCurtain™—a passive mechanical system that produces uniform laminar sheet flow without electronics or moving parts. This breakthrough in controlled LN₂ distribution addresses the core challenges faced by system integrators, OEMs, and industrial operators: uneven cooling, excessive nitrogen consumption, and equipment damage from thermal shock.
Today, Phazent continues to advance the state of the art in cryogenic dispensing technology, working closely with customers to solve real-world cooling challenges in harsh industrial environments.
Our Mission
To deliver measurable improvements in cryogenic dispensing performance through rigorous engineering, manufacturable hardware, and deep understanding of industrial process requirements.
We believe that industrial equipment should be engineered for the real world: harsh environments, gloves-on operation, minimal maintenance, and quantifiable ROI. Our designs prioritize reliability, efficiency, and integration with existing infrastructure—not complexity for its own sake.
Multidisciplinary Engineering
Cryogenic Fluid Handling
Deep expertise in liquid nitrogen thermodynamics, two-phase flow dynamics, and cryogenic system design for industrial environments.
Industrial Spray Technology
Understanding of fluid dispersion, flow conditioning, and nozzle design principles applied to cryogenic applications.
Materials Science
Selection and specification of materials for extreme temperature cycling, corrosion resistance, and long-term durability.
Manufacturable Hardware
Design for manufacturing principles ensuring consistent quality, reasonable cost, and reliable supply chain.
Process Engineering
Collaboration with customers to understand process requirements, constraints, and success metrics for cooling applications.
Industrial Integration
Practical experience with retrofit installations, existing infrastructure, and real-world operational constraints.
Our Values
Performance Over Complexity
We measure success by quantifiable improvements in cooling uniformity, nitrogen efficiency, and equipment life—not by feature count or technological sophistication.
Engineered for Reality
Our designs account for dust, vibration, moisture, temperature extremes, and gloves-on operation. If it can't survive the real world, it's not ready to ship.
Retrofit-Friendly
Most industrial facilities have existing infrastructure and operational constraints. We design for integration, not replacement.
Transparent Communication
We speak the language of engineers and procurement teams. No marketing hype, no unverified claims—just honest technical information.
Customer Collaboration
Every application is different. We work closely with customers to understand their specific requirements and constraints.