Acoustic monitoring of two phase feed nozzles
First Claim
Patent Images
1. A passive acoustic nozzle monitoring process for correcting the operating conditions of a feed nozzle injecting a liquid gas mixture into a process vessel or chamber so as to maintain the correct mixing of said liquid and gas exiting the nozzle comprising:
- determining a Reference Power Spectrum (RPS) showing vibrational resonances from a vibrational resonances from a nozzle when said nozzle is performing at a standard mixing or flow condition which is the desired operating state of the nozzle and where the vibrational resonances that characterize the the flow through the nozzle in the range over which the Power Spectrum is determined,(b) determining a current Power Spectrum (CPS) showing vibrational resonances at a later time from said vibrational sensor in close proximity to said nozzle,(c) comparing said CPS with said RPS, so as to determine a change in said vibrational resonances, and(d) correcting the flow state of the nozzle by changing the variables controlling the relative volumes of gas and liquid entering the nozzle so as to return said nozzle to said desired operating state.
4 Assignments
0 Petitions
Accused Products
Abstract
Passive acoustic method for monitoring and controlling flow state of two phase fluids through feed nozzles and thereby improving operating stability and high product value yields in major refinery processes or any other process where a finely atomized liquid stream exiting the nozzle is important.
50 Citations
6 Claims
-
1. A passive acoustic nozzle monitoring process for correcting the operating conditions of a feed nozzle injecting a liquid gas mixture into a process vessel or chamber so as to maintain the correct mixing of said liquid and gas exiting the nozzle comprising:
-
determining a Reference Power Spectrum (RPS) showing vibrational resonances from a vibrational resonances from a nozzle when said nozzle is performing at a standard mixing or flow condition which is the desired operating state of the nozzle and where the vibrational resonances that characterize the the flow through the nozzle in the range over which the Power Spectrum is determined, (b) determining a current Power Spectrum (CPS) showing vibrational resonances at a later time from said vibrational sensor in close proximity to said nozzle, (c) comparing said CPS with said RPS, so as to determine a change in said vibrational resonances, and (d) correcting the flow state of the nozzle by changing the variables controlling the relative volumes of gas and liquid entering the nozzle so as to return said nozzle to said desired operating state. - View Dependent Claims (2, 3, 4, 5, 6)
-
Specification