Numerical Study of Swab and Surge Pressures in Wellbores

Research output: ThesisMaster's Thesis

Standard

Numerical Study of Swab and Surge Pressures in Wellbores. / Eisengschirr, Daniel.
2019.

Research output: ThesisMaster's Thesis

Harvard

Eisengschirr, D 2019, 'Numerical Study of Swab and Surge Pressures in Wellbores', Dipl.-Ing., Montanuniversitaet Leoben (000).

APA

Eisengschirr, D. (2019). Numerical Study of Swab and Surge Pressures in Wellbores. [Master's Thesis, Montanuniversitaet Leoben (000)].

Bibtex - Download

@mastersthesis{ce14b3685d874e219cb851eaba282bbd,
title = "Numerical Study of Swab and Surge Pressures in Wellbores",
abstract = "An accurate calculation of surge and swab pressures is of utmost importance as pressure changes during tripping are one of the leading causes of well control incidents. The thesis presents numerical investigations of swab and surge pressures in concentric and eccentric annuli. A series of concentric and eccentric simulation cases, mimicking a straight section of the wellbore, is defined. As a non-Newtonian incompressible drilling fluid, 1% polyanionic cellulose is selected. Tripping speeds range from 0.1 to 0.8 ft./s. Hexahedral and, in the case of complex geometries, polyhedral computational meshes are used. The numerical investigations are conducted with the solver pimpleFoam from the computational fluid dynamics (CFD) toolbox OpenFOAM{\textregistered} and post-processed with the software ParaView. The simulation results of different concentric cases are successfully validated with existing laboratory experiments. The thesis presents additional eccentric cases with pressure-reducing effects of up to 38% and the associated annular flow profiles. The effect of a linear drill string acceleration on the surge and swab pressure is shown. The impact of drill string rotation and a bottom-hole-assembly on the pressure behavior in the annulus as well as the occurrence of turbulence are discussed. Results of the numerical investigations are compared with an analytical swab and surge pressure model by Srivastav et al. and the model is extended for eccentric annuli by a correcting term based on the simulation results. The thesis presents an application of CFD to swab and surge pressure modeling. It states a novel analytical pressure model that allows the direct calculation of pressure changes in an eccentric annulus.",
keywords = "numerical investigations, swab, surge, concentric annulus, eccentric annulus, pressure model, CFD simulation, analytical pressure model, OpenFOAM{\textregistered}, pressure reducing effects, Numerische Studie, konzentrischer Ringraum, exzentrischer Ringraum, Druckmodell, Swab, Surge, CFD Simulation, OpenFOAM{\textregistered}, Druckreduzierung, Berechnungsgitter",
author = "Daniel Eisengschirr",
note = "no embargo",
year = "2019",
language = "English",
school = "Montanuniversitaet Leoben (000)",

}

RIS (suitable for import to EndNote) - Download

TY - THES

T1 - Numerical Study of Swab and Surge Pressures in Wellbores

AU - Eisengschirr, Daniel

N1 - no embargo

PY - 2019

Y1 - 2019

N2 - An accurate calculation of surge and swab pressures is of utmost importance as pressure changes during tripping are one of the leading causes of well control incidents. The thesis presents numerical investigations of swab and surge pressures in concentric and eccentric annuli. A series of concentric and eccentric simulation cases, mimicking a straight section of the wellbore, is defined. As a non-Newtonian incompressible drilling fluid, 1% polyanionic cellulose is selected. Tripping speeds range from 0.1 to 0.8 ft./s. Hexahedral and, in the case of complex geometries, polyhedral computational meshes are used. The numerical investigations are conducted with the solver pimpleFoam from the computational fluid dynamics (CFD) toolbox OpenFOAM® and post-processed with the software ParaView. The simulation results of different concentric cases are successfully validated with existing laboratory experiments. The thesis presents additional eccentric cases with pressure-reducing effects of up to 38% and the associated annular flow profiles. The effect of a linear drill string acceleration on the surge and swab pressure is shown. The impact of drill string rotation and a bottom-hole-assembly on the pressure behavior in the annulus as well as the occurrence of turbulence are discussed. Results of the numerical investigations are compared with an analytical swab and surge pressure model by Srivastav et al. and the model is extended for eccentric annuli by a correcting term based on the simulation results. The thesis presents an application of CFD to swab and surge pressure modeling. It states a novel analytical pressure model that allows the direct calculation of pressure changes in an eccentric annulus.

AB - An accurate calculation of surge and swab pressures is of utmost importance as pressure changes during tripping are one of the leading causes of well control incidents. The thesis presents numerical investigations of swab and surge pressures in concentric and eccentric annuli. A series of concentric and eccentric simulation cases, mimicking a straight section of the wellbore, is defined. As a non-Newtonian incompressible drilling fluid, 1% polyanionic cellulose is selected. Tripping speeds range from 0.1 to 0.8 ft./s. Hexahedral and, in the case of complex geometries, polyhedral computational meshes are used. The numerical investigations are conducted with the solver pimpleFoam from the computational fluid dynamics (CFD) toolbox OpenFOAM® and post-processed with the software ParaView. The simulation results of different concentric cases are successfully validated with existing laboratory experiments. The thesis presents additional eccentric cases with pressure-reducing effects of up to 38% and the associated annular flow profiles. The effect of a linear drill string acceleration on the surge and swab pressure is shown. The impact of drill string rotation and a bottom-hole-assembly on the pressure behavior in the annulus as well as the occurrence of turbulence are discussed. Results of the numerical investigations are compared with an analytical swab and surge pressure model by Srivastav et al. and the model is extended for eccentric annuli by a correcting term based on the simulation results. The thesis presents an application of CFD to swab and surge pressure modeling. It states a novel analytical pressure model that allows the direct calculation of pressure changes in an eccentric annulus.

KW - numerical investigations

KW - swab

KW - surge

KW - concentric annulus

KW - eccentric annulus

KW - pressure model

KW - CFD simulation

KW - analytical pressure model

KW - OpenFOAM®

KW - pressure reducing effects

KW - Numerische Studie

KW - konzentrischer Ringraum

KW - exzentrischer Ringraum

KW - Druckmodell

KW - Swab

KW - Surge

KW - CFD Simulation

KW - OpenFOAM®

KW - Druckreduzierung

KW - Berechnungsgitter

M3 - Master's Thesis

ER -