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Shell & Tube Heat Exchangers

We have a suite of tools for thermal and mechanical design of shell & tube heat exchangers, incorporating over thirty years of HTFS heat transfer research.

Aspen Tasc+™

Program for thermal design, checking, or simulation of shell & tube heat exchangers.
These optimize shell-and-tube heat exchanger configuration for specified heat duty, allowable pressure drop, and maximum velocity. When used with AES process simulators, it enables engineers to optimize overall plant design for required operating conditions, to identify bottlenecks in operating processes, model process improvements, and optimize maintenance schedules.

Aspen Teams^®

Mechanical design or rating of shell & tube heat exchangers, or basic pressure vessels
These support mechanical design and rating of shell-and-tube heat exchangers and basic pressure vessels to ASME, CODAP, EN 13445 and AD Merkblätter standards. They cover all categories defined by the Tubular Exchanger Manufacturers Association (TEMA), as well as specialized units, handles expansion joints and external loading mechanisms, also providing complete bills of materials, detailed drawings, and cost estimates.

Aspen FRAN™

Feed Water Heaters
FRAN models and rates the thermal performance of conventional closed loop shell and tube feedwater heaters used in power applications. Its rigorous models rapidly resolve complex interactions between desuperheating, condensing and subcooling zones and high-pressure feedwater.

CURRENT VERSIONS