Investigation of plugging and scaling behaviour of selected sand screen materials under simulated reservoir conditions

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Investigation of plugging and scaling behaviour of selected sand screen materials under simulated reservoir conditions. / Andiappan, Anitha.
2013. 114 S.

Publikationen: Thesis / Studienabschlussarbeiten und HabilitationsschriftenMasterarbeit

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@mastersthesis{451c86b1fadb4c15987ab0bdbbe28efc,
title = "Investigation of plugging and scaling behaviour of selected sand screen materials under simulated reservoir conditions",
abstract = "It is clear that ceramic material is highly erosion and corrosion resistant, more so that common stainless steels. However, it is still not fully understood how the plugging and scaling behaviour of ceramic screens compares with the state of the art stainless steel screens most commonly used in oil and gas wells to prevent the production of sand. The aim of this thesis was to analyse in depth, in a laboratory environment, the plugging due to sand and scaling that occurs in stainless steel and ceramic screens. The plugging behaviour was investigated applying standard sand retention test methodology. The scaling behaviour was analyzed via scaling behaviour evaluation test methodology established in the laboratory. Results of the sand retention test showed that ceramic and stainless steel have generally the same trend in terms of pressure build-up, mass balance and particle size distribution with relatively small differences. Upon closer examination it appears that ceramic screens have a constant differential pressure across screen and filter-cake (representing a gravel pack). Plugging was only observed on roughened stainless steel screens used to simulate eroded screens. The results of the scaling behaviour revealed that in general less scale deposits on ceramic material than stainless steel material; this is due to the lower surface energy of the ceramic material. Additionally it was found that the screen design, i.e. the slot opening pattern caused scale removal to be more cumbersome as compared to a solid coupon without slots regardless of type of screen material. The investigation clarified selected characteristics of ceramic screens and material; however further investigations are required to identify the following: a. Whether or not the differential pressure across a gravel pack is always constant for a ceramic screen b. Whether or not the flow-rate across a gravel pack is always independent of slot size. c. The surface energy of ceramic and stainless steel materials, determined via contact angle measurement.",
keywords = "sandcontrol, plugging, scaling, sandscreens, sand production, ceramic, stainless steel, erosion, corrosion, Gravel Pack, filter cake, silicium carbide, wirewrapped screens, Sandkontrolle, Verstopfung, Ablagerungen, Sandfiltern, Sand Produktion, Keramik, Edelstahl, Erosion, Korrosion, Gravel Pack, Filterkuchen, Siliziumkarbid, Wirewrapped Screens (Wickelliner)",
author = "Anitha Andiappan",
note = "embargoed until 16-10-2014",
year = "2013",
language = "English",
school = "Montanuniversitaet Leoben (000)",

}

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TY - THES

T1 - Investigation of plugging and scaling behaviour of selected sand screen materials under simulated reservoir conditions

AU - Andiappan, Anitha

N1 - embargoed until 16-10-2014

PY - 2013

Y1 - 2013

N2 - It is clear that ceramic material is highly erosion and corrosion resistant, more so that common stainless steels. However, it is still not fully understood how the plugging and scaling behaviour of ceramic screens compares with the state of the art stainless steel screens most commonly used in oil and gas wells to prevent the production of sand. The aim of this thesis was to analyse in depth, in a laboratory environment, the plugging due to sand and scaling that occurs in stainless steel and ceramic screens. The plugging behaviour was investigated applying standard sand retention test methodology. The scaling behaviour was analyzed via scaling behaviour evaluation test methodology established in the laboratory. Results of the sand retention test showed that ceramic and stainless steel have generally the same trend in terms of pressure build-up, mass balance and particle size distribution with relatively small differences. Upon closer examination it appears that ceramic screens have a constant differential pressure across screen and filter-cake (representing a gravel pack). Plugging was only observed on roughened stainless steel screens used to simulate eroded screens. The results of the scaling behaviour revealed that in general less scale deposits on ceramic material than stainless steel material; this is due to the lower surface energy of the ceramic material. Additionally it was found that the screen design, i.e. the slot opening pattern caused scale removal to be more cumbersome as compared to a solid coupon without slots regardless of type of screen material. The investigation clarified selected characteristics of ceramic screens and material; however further investigations are required to identify the following: a. Whether or not the differential pressure across a gravel pack is always constant for a ceramic screen b. Whether or not the flow-rate across a gravel pack is always independent of slot size. c. The surface energy of ceramic and stainless steel materials, determined via contact angle measurement.

AB - It is clear that ceramic material is highly erosion and corrosion resistant, more so that common stainless steels. However, it is still not fully understood how the plugging and scaling behaviour of ceramic screens compares with the state of the art stainless steel screens most commonly used in oil and gas wells to prevent the production of sand. The aim of this thesis was to analyse in depth, in a laboratory environment, the plugging due to sand and scaling that occurs in stainless steel and ceramic screens. The plugging behaviour was investigated applying standard sand retention test methodology. The scaling behaviour was analyzed via scaling behaviour evaluation test methodology established in the laboratory. Results of the sand retention test showed that ceramic and stainless steel have generally the same trend in terms of pressure build-up, mass balance and particle size distribution with relatively small differences. Upon closer examination it appears that ceramic screens have a constant differential pressure across screen and filter-cake (representing a gravel pack). Plugging was only observed on roughened stainless steel screens used to simulate eroded screens. The results of the scaling behaviour revealed that in general less scale deposits on ceramic material than stainless steel material; this is due to the lower surface energy of the ceramic material. Additionally it was found that the screen design, i.e. the slot opening pattern caused scale removal to be more cumbersome as compared to a solid coupon without slots regardless of type of screen material. The investigation clarified selected characteristics of ceramic screens and material; however further investigations are required to identify the following: a. Whether or not the differential pressure across a gravel pack is always constant for a ceramic screen b. Whether or not the flow-rate across a gravel pack is always independent of slot size. c. The surface energy of ceramic and stainless steel materials, determined via contact angle measurement.

KW - sandcontrol

KW - plugging

KW - scaling

KW - sandscreens

KW - sand production

KW - ceramic

KW - stainless steel

KW - erosion

KW - corrosion

KW - Gravel Pack

KW - filter cake

KW - silicium carbide

KW - wirewrapped screens

KW - Sandkontrolle

KW - Verstopfung

KW - Ablagerungen

KW - Sandfiltern

KW - Sand Produktion

KW - Keramik

KW - Edelstahl

KW - Erosion

KW - Korrosion

KW - Gravel Pack

KW - Filterkuchen

KW - Siliziumkarbid

KW - Wirewrapped Screens (Wickelliner)

M3 - Master's Thesis

ER -