Heat Exchangers
Why ToffeeX:
- Optimize heat exchanger design for maximum heat transfer and efficiency.
- Reduce pressure drop and pumping costs.
- Design compact and lightweight heat exchangers for space-constrained applications.
Traditional heat exchanger designs use standard geometries that proved to be effective in the past, such as shell-and-tube, plate or finned. They have suboptimal performance since their design is not tailored to the specific operating conditions of the component.
ToffeeX enables designers to create more efficient heat exchangers, leveraging advanced topology optimization to generate compact and lightweight designs that maximize heat transfer, while minimizing pressure losses.
If you think you need Additive Manufacturing to achieve better performance, think again: ToffeeX optimizes for conventional manufacturing too.
Better performance, same manufacturing costs.
Customer Say’s
Those of us in machine learning are really good at doing well on a test set, but of-concept-to-production gap .
Why Toffee
Those of us in machine learning are really good at doing well on a test set, but of-concept-to-production gap .
We put the expert team’s interest ahead of our own
Those of us in machine learning are really good at doing well on a test set, but unfortunately deploying a system than on set. has a proof-of-concept.
Time to time project Handoff to Clients
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Get going when the going gets tough
Those of us in machine learning are really good at doing well on a test set, but unfortunately deploying a system than on set. has a proof-of-concept.
24/7 Support Team
Those of us in machine learning are really good at doing well on a test set, but unfortunately deploying a system than on set. has a proof-of-concept.
Other Applications
Those of us in machine learning are really good at doing well on a test set, but of-concept-to-production gap .
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Aerospace
Aircraft rely on heat exchangers for a range of primary and secondary functions that ensure in-flight efficiency and safety, from heating fuel before injection into the combustion chamber to de-icing and anti-icing systems to APUs for power generation and more. Thermal efficiency, safety, and light weight are the requirements engineers design for in this industry.
Automotive
Whether for air conditioning or to dissipate excess heat produced during the combustion of an engine, heat exchangers are key components in the automotive industry. Radiators, intercoolers and air-conditioning units all rely on efficient heat exchange systems, which enable vehicles to perform at their best and increase their lifespan.
Energy
The energy industry makes extensive use of heat exchangers and has often driven innovation in their design. They work by transferring heat between fluids without mixing, and are employed in a wide range of applications, from heating and cooling to waste heat recovery, carbon capture, and power generation. Improving heat exchangers' efficiency translates directly into cost savings, reduced emissions, and increased power generation.
Shell-and-tube
Explore a case study on a shell-and-tube heat exchanger used in syngas production. See how ToffeeX’s “Velocity Target” feature is used to design for an optimal and specific flow profile in industries such as power generation, chemical processing, oil and gas, HVAC, and more.