Power: reliable, clean, and simple.

CONFIGURATIONS CAN BE ENGINEERED AND MANUFACTURED TO AGREED UPON SPECIFICATIONS.

One specialty configuration recently completed is the externally fired or Flex Turbine® EX version. The combustor and fuel system are removed so that the Flex Turbine can be powered by an external heat source. Other versions can be engineered and manufactured to agreed-upon specifications.

The Flex Turbine is built with modular main components of a core engine, recuperator, combustor, gearbox, generator, fuel system and enclosure. Lubrication and cooling systems are also included in the enclosure. This modular design philosophy allows special and custom Flex Turbine configurations to be built. Individual main components can be modified or designed out of the custom Flex Turbine configuration.

HEAT RECOVERY SYSTEMS

HEAT EXCHANGERS

FlexEnergy’s Fin Enhanced Shell and Tube design provides exceptional efficiency for heat recovery from high temperature gas streams. The high efficiency design allows for a compact heat exchanger with significant weight savings.

HIGH EFFICIENCY. FlexEnergy’s Fin-Tube Heat Exchanger can run counter-flow, for the best heat transfer, or crossflow, to accommodate piping restraints, requiring minimal space for installation and servicing.

TEMPERATURE RANGE. Fin-Tube heat Exchangers are well suited to high pressure, high temperature, applications of 1,000psi and lower and up to 1,650°F.

PRESSURE DROP. Low pressure drop is a feature of our Plate-Fin Heat Exchangers, perfect for waste gas heat recovery applications.

MATERIALS. Our units are customizable and adaptable to different applications and design constraints. Using a variety of materials and FlexEnergy’s engineering expertise, our systems perform at the highest temperatures when using super alloys, like Inconel, Hastelloy, and many grades of Stainless Steels.

MARKETS SERVED

  • Petrochemical
  • Oil and Gas
  • Inorganic Chemical
  • Steel
  • Pulp and Paper
  • Natural Resources
  • Power Generation

VALUE

  • Reduce energy consumption from waste heat recovery
  • Significant space and weight savings over traditional shell and tube exchangers
  • More reliability with increased uptime
  • Meet rising emission limitations cost effectively

FEATURES AND BENEFITS

  • Efficiency and High Performance
  • High Efficiency: >90% typical design effectiveness significantly improves process efficiency
  • High Temperature: up to 1650°F capable
  • Low Pressure Drop Design

SCALABLE AND DURABLE

  • Design and Manufacturing experience for 500W to 20+ MW applications
  • Single high temperature metal and hybrid high temperature metal combinations
  • High thermal cycle tolerance

CUSTOMIZABLE MATERIALS AND APPLICATIONS

  • Counter flow or cross flow designs depending on requirements or piping layout
  • Compact footprint