Hi,
It should the pressure of the saturated steam entering the HX minus the head loss in the HX and minus the head loss from the discharge of the HX to the sampling point of condensate.
My 2 cents
Pierre
Sorry, didn't get what OP was asking the first time around.
Provided there's ample cross sectional area in the tubes, I'd agree with LittleInch; why would there be very much pressure differential at all between the steam admission box and the condensate collection box?
And why steam in the tubes? Is this a vertical unit?
CR
"As iron sharpens iron, so one person sharpens another." [Proverbs 27:17, NIV]
Thank you for your replies. I have spent much of this summer in hospital and find it hard to concentrate, rationalize or think logically very well. Plus the ago old problem of passing 74 this year must have something to do with it. I should stick with playing with our Grandson and finally retiring.
Now that I have been inspired by all your comments I believe it goes something like this.
Depending on the length of tube required to fully condense the steam, the now condensate [liquid] flows through the balance of the tube which is where the pressure loss occurs.
Even with tubes of different lengths it will average out at the exit location. Yes it is a vertical design with helically coiled 8mm tubes.
Thanks again. Regards Peter
The vapor pressure of the condensate leaving the coil will depend on the extent of liquid subcooling inside the coil. How is temperature control enabled in this unit ?