Ejector Design Calculation Xls Jun 2026

| A | B | C | D | |---|---|---|---| | | Value | Unit | Remarks | | Motive pressure (P1) | 6.0 | bar_g | | | Suction pressure (P2) | 0.5 | bar_abs | | | Discharge pressure (P3) | 1.2 | bar_abs | | | Motive flow (W1) | 500 | kg/h | Steam | | Suction flow (W2) | 150 | kg/h | Air | | Calculations | | | | | Entrainment ratio (R) | 0.30 | | =W2/W1 | | Compression ratio (CR) | 2.40 | | =P3/P2 | | Expansion ratio (ER) | 12.0 | | =P1/P2 | | Recommended area ratio (K) | 8.5 | | Lookup table | | Nozzle throat area (At) | 28.3 | mm² | Formula | | Mixing throat area (Am) | 240 | mm² | =At K | | Nozzle throat dia (Dt) | 6.0 | mm | =SQRT(4 At/π) | | Mixing throat dia (Dm) | 17.5 | mm | =SQRT(4*Am/π) | | Diffuser outlet dia | 35 | mm | User rule-of-thumb |

A detailed ejector calculation XLS typically includes the following logical sheets or sections: Operating Conditions Input : Users define the Motive fluid pressure ( cap P sub p ), Suction/Entrained fluid pressure ( cap P sub e ), and Discharge/Condenser pressure ( cap P sub c Compression & Expansion Ratios Compression Ratio ( cap C sub r The ratio of discharge pressure to suction pressure ( Expansion Ratio ( cap E sub r The ratio of motive pressure to suction pressure ( Entrainment Ratio ( ejector design calculation xls

A robust Excel template typically follows these computational steps: | A | B | C | D

cap C r equals the fraction with numerator cap P sub c and denominator cap P sub e end-fraction cap P sub c : Pressure of exiting vapor (condenser inlet). cap P sub e : Pressure of entrained (suction) vapor. 2. Determine the Entrainment Ratio ( choked flow ), use the empirical correlation: Determine the Entrainment Ratio ( choked flow ),