A thermomechanical technology of borehole wall isolation using a thermoplastic composite material

A thermomechanical technology of borehole wall isolation using a thermoplastic composite material

Loss of drilling fluid in wells is one of the most important drilling challenges. To prevent this problem an insulation of borehole wall is requiring. The results of study of an innovative technology of isolation of borehole using a new thermomechanical plugging material are presented herein. The ma...

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Main Authors: Sudakov Andrii, Dreus Andrii, Kuzin Yurii, Sudakova Diana, Ratov Boranbay, Khomenko Oleh
Format: Article
Language:English
Published: EDP Sciences 2019-01-01
Series:E3S Web of Conferences
Online Access:https://www.e3s-conferences.org/articles/e3sconf/pdf/2019/35/e3sconf_rmget18_00098.pdf
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spelling doaj-8335e4dec7f64b0b8ef8029daaf4e2e52021-02-02T08:20:59ZengEDP SciencesE3S Web of Conferences2267-12422019-01-011090009810.1051/e3sconf/201910900098e3sconf_rmget18_00098A thermomechanical technology of borehole wall isolation using a thermoplastic composite materialSudakov Andrii0Dreus Andrii1Kuzin Yurii2Sudakova Diana3Ratov Boranbay4Khomenko Oleh5National Technical University Dnipro PolytechnicOles Honchar Dnipro National UniversityNational Technical University Dnipro PolytechnicNational Technical University Dnipro PolytechnicSatbayev Kazakh National Research Technical UniversityNational Technical University Dnipro PolytechnicLoss of drilling fluid in wells is one of the most important drilling challenges. To prevent this problem an insulation of borehole wall is requiring. The results of study of an innovative technology of isolation of borehole using a new thermomechanical plugging material are presented herein. The material considered is solid composite consisting secondary polyethylene terephthalate and gravel. Theoretically and experimentally shown the possibility to use this material to borehole isolation. The technology of manufacturing and isolation of absorbing horizons by thermomechanical material has been developed. Dependence of the regime parameters of thethermomechanical process melting of material on the thermophysical properties and technical characteristics was established. Dependence of the penetrating ability of material melt on the fractures was established. The results of work can be used to recommend technology parameters providing the efficient melting rate.https://www.e3s-conferences.org/articles/e3sconf/pdf/2019/35/e3sconf_rmget18_00098.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Sudakov Andrii
Dreus Andrii
Kuzin Yurii
Sudakova Diana
Ratov Boranbay
Khomenko Oleh
spellingShingle Sudakov Andrii
Dreus Andrii
Kuzin Yurii
Sudakova Diana
Ratov Boranbay
Khomenko Oleh
A thermomechanical technology of borehole wall isolation using a thermoplastic composite material
E3S Web of Conferences
author_facet Sudakov Andrii
Dreus Andrii
Kuzin Yurii
Sudakova Diana
Ratov Boranbay
Khomenko Oleh
author_sort Sudakov Andrii
title A thermomechanical technology of borehole wall isolation using a thermoplastic composite material
title_short A thermomechanical technology of borehole wall isolation using a thermoplastic composite material
title_full A thermomechanical technology of borehole wall isolation using a thermoplastic composite material
title_fullStr A thermomechanical technology of borehole wall isolation using a thermoplastic composite material
title_full_unstemmed A thermomechanical technology of borehole wall isolation using a thermoplastic composite material
title_sort thermomechanical technology of borehole wall isolation using a thermoplastic composite material
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2019-01-01
description Loss of drilling fluid in wells is one of the most important drilling challenges. To prevent this problem an insulation of borehole wall is requiring. The results of study of an innovative technology of isolation of borehole using a new thermomechanical plugging material are presented herein. The material considered is solid composite consisting secondary polyethylene terephthalate and gravel. Theoretically and experimentally shown the possibility to use this material to borehole isolation. The technology of manufacturing and isolation of absorbing horizons by thermomechanical material has been developed. Dependence of the regime parameters of thethermomechanical process melting of material on the thermophysical properties and technical characteristics was established. Dependence of the penetrating ability of material melt on the fractures was established. The results of work can be used to recommend technology parameters providing the efficient melting rate.
url https://www.e3s-conferences.org/articles/e3sconf/pdf/2019/35/e3sconf_rmget18_00098.pdf
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