Case Study

Condenser

When an aerospace technology company's R&D group was developing a personal microclimate cooling system designed to be worn by pilots, they needed a very small condenser to circulate cold water through the microclimate cooling system. Niagara Thermal Products designed a unique, two heat exchanger system that integrated into the aircraft operating system and met all of the company's exacting requirements for compact size, light weight and high performance. Niagara Thermal is now in full production of this condenser for this company's successful personal cooling system.


Aviation/Aerospace

Niagara Thermal Products is a worldwide leader in the design, development and manufacture of heat management systems and key heat transfer components for the aviation and aerospace industries.

Niagara Thermal produces a comprehensive range of products including air to air, air to liquid and liquid to liquid heat exchangers specifically designed for split wing piston aircraft, helicopter and jet applications.

Long Experience

Niagara Thermal's first aviation cooling systems sold in 1986. Since that time, Niagara Thermal has supplied cooling systems for split wing planes and helicopters for manufacturers such as:

  • Teledyne Continental Motors
  • Piper Aircraft
  • Sikorsky Helicopter

And heat exchangers for major aerospace/aviation companies such as:

  • Lockheed Martin
  • Northrop Grumman
  • Raytheon

Performance and Quality

Niagara Thermal designs meet the rugged demands of the aerospace customer while offering superb performance and unmatched reliability in a compact, lightweight and cost effective package. Its manufacturing facilities are FAA-certified.

Custom Design

Our engineering staff does their best work from a blank piece of paper. Give us your application parameters and space claim requirements and we will develop the most efficient heat exchanger available.

Niagara Thermal Products' reputation for quality, performance and value is recognized throughout the aerospace/aviation industry.