Abstract
Compact separators have significant application for subsea separation and offshore application. However, their operating envelope is usually narrow due to physical phenomena such as liquid carryover and gas carry-under. Before the occurrence of liquid carryover, the separator operates in what is termed zero-net liquid flow (ZNLF). Though there is an efficient separation during ZNLF; there is also liquid holdup in the upper section of the separator, which is termed as ZNLF holdup. The ZNLF holdup in a cyclonic separator during an actual gas-liquid separation was studied experimentally. The ZNLF holdup was measured directly using electrical resistance tomography (ERT). The direct measurement approach is an improvement of the existing method, which depends on measuring the pressure drop across the stagnant liquid column. The results showed that increasing gas flow rate at a constant liquid flow rate increase zero-net liquid holdup in the upper part of the separator. An empirical correction was developed, and the correlation predicted the experimental results with a ±10% error margin. The correlation could be useful as part of the input into a pressure drop model for calculating pressure drop across the gas leg of the cylindrical cyclonic separator. This correlation will be useful to process engineers for optimum design and operation of a gas-liquid compact separator.
Highlights
Gravity separators are used in the oil field for splitting the produced fluids into gas, oil and water
The measurement of zero-net liquid holdup in the separator using electrical resistance tomography (ERT) in the case of stagnant liquid and flowing gas was carried out to compare with the previous measurement approaches used by other researchers
Direct measurement of the zero-net liquid flow (ZNLF) holdup under flowing conditions obviously accounts for the effect of the liquid and gas on ZNLF holup unlike the previous approach of ‘simultaneously stopping’ the flow of gas to measure the liquid height while ignoring the presence of bubbles in the liquid
Summary
Gravity separators are used in the oil field for splitting the produced fluids into gas, oil and water. The separator is said to experience a zero-net liquid flow (ZNLF) when two-phase flow exists in the upper part of the separator without any liquid droplets flowing out with the gas stream. Kolla et al, conducted an experiment and obtained zero-net liquid holdup under actual separator operating condition [9]. The remaining liquid churns up and down as the gas bubbles through it, and the liquid holdup under this condition is obtained by differential pressure measurement or by liquid volume trap method.
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