MCHE Performance Simulation

MCHE PERFORMANCE SIMULATION
Microchannel heat exchanger online design software

MICROCHANNEL HEAT EXCHANGER DESIGN SOFTWARE

User / Project Data Heat Exchanger Application Heat Exchanger Geometry Working Point Review / Submit Submission Successful

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

MCHEselect Registered User? * No Yes

AI Mode

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

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.

Coil Application *

Coil Type *

Coil Orientation *

Working Pressure *

Working Fluid *

AI Mode

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

Multiport Tube Geometry *

Tube Port Geometry *

Fin Geometry *

Fins Extend Beyond First/Last Tubes

Header Geometry *

Finned Area Width [mm]Finned Area Height [mm] *

Overall Coil Width [mm]Overall Coil Height [mm] *

Overall Coil Height [mm]Overall Coil Width [mm] *

Number of TubesNumber of U-Bends *

Flow Arrangement *

AI Mode

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

Expert Mode

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

Working point

Please specify the intended application of the coil and the working fluid to be used.
Define the working point of the heat exchanger: inlet states for air and refrigerant.

Coil Properties

Coil Application *

Working Fluid *

Solution Criteria *

Performance

Capacity [kW] *

Dimensions

Length [mm]Width [mm] *

Width [mm]Height [mm] *

Air Properties

Inlet Dry Bulb Temperature [°C] *

Inlet Air Humidity [%rH] *

Air Flow Rate [m³/h] *

Altitude ASL [m] *

Dehumidification Model * No Condensate Retention Condensate Retention Effectiveness Based

Fluid Properties

Condensing Temperature [°C] *

Inlet Gas Temperature [°C]Evaporating Temperature [°C]Fluid Inlet Temperature [°C] *

Fluid Outlet Temperature [°C] *

Refrigerant Quality [0-1] *

Mass Flow [kg/h] *

Subcooling [°C] *

Superheat [°C] *

AI Mode

Expert Mode

Please review the parameters you have provided for the heat exchanger design.
Once submitted, the heat exchanger based on your design will be generated and made available in MCHEselect for further simulations.

AI Mode

Expert Mode

Please review the parameters you have provided for the heat exchanger design.
After submission, your application for MCHEselect will be reviewed.
Once approved, the heat exchanger based on your design will be created and available in MCHEselect for further simulations.

Working point

Please review the parameters you have provided for the heat exchanger design.
Once submitted, our team will prepare the design and contact you with performance simulation results.

AI Mode

Expert Mode

Working point

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

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!

Should you have any inquiries regarding MCHEdesign or wish to request additional refrigerants, please contact our Software Administration Team at [email protected].

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