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Designing of Cold Turbine Aftercooler for a Cryogenic Plant

Cold-Turbine-After-Cooler-Design.jpg

Project Information

Cold Turbine Aftercooler Design for a Cryogenic Plant

Client

A manufacturer of engineered cryogenic gas processing equipment

Software

AspenTech’s Exchanger Design & Rating (EDR)™

Category

Manufacturing

Project Duration

2 Weeks

Location

North America

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Description

Client

A US-based manufacturer of engineered cryogenic gas processing equipment and small-scale process plants for liquefied natural gas (LNG), well services, and industrial gas industries with a significant presence in Southeast Asia.

Engineering Requirement

The project focused on enhancing the thermal efficiency of a cryogenic plant’s cooling system, particularly the heat exchange process between water and dry air within a Shell and Tube Heat Exchanger. The aim was to achieve optimal cooling effects by efficiently exchanging heat between the two mediums with a cold turbine aftercooler design.

Rishabh Engineering team utilized AspenTech’s Exchanger Design & Rating (EDR)™ and undertook the following tasks:

Thermal Design and Rating for Cold Turbine Aftercooler:

Our team conducted a comprehensive thermal design and rating analysis for the Shell and Tube-type aftercooler, utilizing advanced tools like ASPEN EDR. A detailed Thermal Design Report documented key parameters such as design specifications, simulation results, and performance recommendations for cold turbine after-cooler thermal design.

TEMA Type Compatibility:

Ensuring adherence to BXM TEMA-type standards was paramount to guarantee compatibility and compliance with industry norms.

Rishabh Engineering’s specialization in equipment engineering services significantly helped enhance the cryogenic plant’s cooling system efficiency for shell and tube after-cooler design, meeting the client’s expectations for high-quality engineering solutions.

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