Gilbert choke equation

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Brief

The most common used formula for multiphase flow through surface chokes by Gilbert [1].

Echometer is used to measure the fluid level in the wells.

Fluid level is used to calculate and monitor the bottom hole pressure of the wells.

Math and Physics

P_{wh}=\frac{435 GLR^0.546}{D^1.89}q

Flowing well fluids segregation

When the well is flowing with the pump this is how fluids segregate in the well bore:

  • Oil, gas and water are produced through the tubing from the reservoir to the surface
  • Gas is in the annulus from the surface to the fluid level, Hd
  • Oil and gas are between the fluid level Hd, and the pump setting depth, Hd
  • Water, oil and gas are between pump, Hd and the top of the perforations, Hperfs
  • Water is in the rathole

Equation to calculate the BHP from the fluid level

P_{wf}=P_{ann}+\frac{(H_{perfs}-H_{pump})(SG_o(1-WCUT)+SG_w WCUT)+(H_{pump}-H_d)SG_o}{10.32}

Note that for the deviated wells TVD depths should be used.

Nomenclature

g = 9.81, m/s^2
h = depth, m
H_d = fluid level, m
H_{perfs} = top of the perforations, m
H_{pump} = pump setting depth, m
P = pressure, atm
P_{ann} = annulus presssure, atm
P_{wf} = well flowing bottomhole pressure, atm
\rho = density, kg/m^3
SG_o = oil specific gravity, dimensionless
SG_w = water specific gravity, dimensionless
WCUT = well water cut, fraction

References

  1. Brown, Kermit (1984). The Technology of Artificial Lift Methods. Volume 4. Production Optimization of Oil and Gas Wells by Nodal System Analysis. Tulsa, Oklahoma: PennWellBookss.