MCHE Performance Simulation

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  • MCHE DESIGN SOFTWARE

    Microchannel heat exchanger design software

    MCHE selection software

MICROCHANNEL HEAT EXCHANGER DESIGN SOFTWARE

MCHEdesign software provides a complete solution for designing microchannel heat exchangers, including condensers, evaporators, reversible coils, and air-to-fluid coils. This all-in-one selection and performance simulation tool streamlines the design and optimization process across a wide range of applications.

With its advanced capabilities, MCHEdesign allows users to design and rate microchannel heat exchangers using key parameters such as application type, cooling capacity, refrigerant, evaporation and condensation temperatures, airflow, and air temperature. These detailed configuration options enable precise product selection and help ensure optimal performance in refrigeration and HVAC systems.

MCHEdesign

User / Project Data Heat Exchanger Application Heat Exchanger Geometry Heat Exchanger Application Working Point Review / Submit Simulation Results Project Completed

Log in to your MCHEselect account or provide your data for registration.
Select the desired heat exchanger design mode.

AI Mode

USER: %s

PROJECT: %s

Specify the basic coil parameters and the refrigerant to be used.
Press ‘Undo’ to reset your last entry. Use ‘Clear’ to remove all input from the current page.

Expert Mode

USER: %s

PROJECT: %s

Specify the basic coil parameters and the refrigerant to be used.
Press ‘Undo’ to reset your last entry. Use ‘Clear’ to remove all input from the current page.

Heat Exchanger Design

Coil Properties

AI Mode

USER: %s

PROJECT: %s

Provide the geometric specifications, dimensions, and refrigerant flow arrangement of the heat exchanger.
Press ‘Undo’ to reset your last entry. Use ‘Clear’ to remove all input from the current page.

Expert Mode

USER: %s

PROJECT: %s

Provide the geometric specifications, dimensions, and refrigerant flow arrangement of the heat exchanger.
Press ‘Undo’ to reset your last entry. Use ‘Clear’ to remove all input from the current page.

Heat Exchanger Design

Geometry

Dimensions

Flow Arrangement

Condenser Mode

Evaporator Mode

Working point

USER: %s

PROJECT: %s

Please specify the intended application of the coil and the working fluid to be used.

Heat Exchanger Design

Coil Properties

Dimensions

AI Mode

USER: %s

PROJECT: %s

Define the working point of the heat exchanger: inlet states for air and refrigerant.
Default solution criterion: working fluid mass flow.

Expert Mode

USER: %s

PROJECT: %s

Define the working point of the heat exchanger: inlet states for air and refrigerant.
Default solution criterion: working fluid mass flow.

Working point

USER: %s

PROJECT: %s

Define the working point of the heat exchanger: inlet states for air and refrigerant.

Coil Properties

Performance

Air Properties

Fluid Properties

Evaporator Mode

Coil Properties

Performance

Air Properties

Fluid Properties

AI Mode

Expert Mode

USER: %s

PROJECT: %s

Please review the parameters you have provided for the heat exchanger design. Use the 'Back' button to make any changes.
Submit the design for performance simulation when ready.
Please note that calculations may take additional time depending on the selected refrigerant and heat exchanger geometry.

Working point

USER: %s

PROJECT: %s

Please review the parameters you have provided for the heat exchanger design. Use the 'Back' button to make any changes.
Submit the design for performance simulation when ready. Once submitted, our team will prepare the design and contact you with performance simulation results.

AI Mode

Expert Mode

Working point

USER: %s

PROJECT: %s

Please review the simulation results.
Use the 'Back' button to adjust the heat exchanger design or working point.
If you are satisfied with the results, press "Save" to store your heat exchanger design in MCHEselect for future performance simulations.

AI Mode

Expert Mode

Working point

USER: %s

PROJECT: %s

Your heat exchanger design has been successfully created and is now available in MCHEselect for further performance simulations under the model code:

Your heat exchanger design has been successfully created and will become available in MCHEselect for further performance simulations once your registration is complete. Use the following model code:

Your heat exchanger design has been successfully submitted for processing. You will be notified once the process is complete.

Your registration with MCHEselect has been successfully submitted. Our team is currently reviewing your application, and we’ll notify you as soon as it’s approved.

Thank you for using MCHEdesign!

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SUPPORT

MCHE selection software

MCHEselect Webinar – Available On Demand

If you’re new to MCHEdesign and want to streamline your microchannel heat exchanger design process, this on-demand webinar is the ideal place to start. You’ll learn how to request customized heat exchanger designs, choose the right models, and run accurate performance evaluations. We’ll walk you through the key input parameters for different applications – condensers, evaporators, reversible coils, and air-to-fluid coils – and explain the simulation results in detail, helping you get the most out of MCHEdesign and work more efficiently and confidently.

Watch

Disclaimer

MCHEdesign software is provided on an “as is” basis for the intended purposes determined solely by Kaltra, and any use of the Software is at the user’s own risk. The Software, including any results or information it generates, does not constitute technical advice and must be independently verified by the user. These outputs are not guarantees and should not be relied upon as definitive data or analyses.

Kaltra disclaims all warranties and conditions relating to the Software, whether express, implied, or statutory, including but not limited to warranties of merchantability, satisfactory quality, fitness for a particular purpose, accuracy, and non-infringement of third-party rights. Kaltra does not warrant that the Software will meet your requirements or that its operation will be uninterrupted or error-free. To the extent permitted by law, Kaltra shall not be liable for any direct, indirect, special, or consequential damages arising from the use of the Software, including but not limited to property damage, loss of savings or profits, or loss of data.

© 2025 Kaltra