Ejector Design Calculation Xls ✮ <TESTED>

For conditions (typically where the compression ratio is >1.8is greater than 1.8

A comprehensive article on ejector design identifies these sequential steps for calculation: Archive ouverte HAL Step 1: Entrainment Ratio ( Ejectors (2022) | Ipieca ejector design calculation xls

You have three options:

| Row | Column A (Label) | Column B (Value) | Column C (Units) | | :--- | :--- | :--- | :--- | | | SUCTION CONDITIONS | | | | 2 | Suction Pressure ($P_s$) | [Input Value] | bar(a) | | 3 | Suction Temperature ($T_s$) | [Input Value] | °C | | 4 | Suction Mass Flow ($M_s$) | [Input Value] | kg/hr | | 5 | Molecular Weight (MW) | [Input Value] | kg/kmol | | 6 | MOTIVE STEAM CONDITIONS | | | | 7 | Motive Pressure ($P_m$) | [Input Value] | bar(a) | | 8 | Motive Temperature ($T_m$) | [Input Value] | °C | | 9 | DISCHARGE CONDITIONS | | | | 10 | Discharge Pressure ($P_d$) | [Input Value] | bar(a) | For conditions (typically where the compression ratio is >1

Before diving into spreadsheet formulas, we must establish the core physics. we must establish the core physics.