Quantitative method for determining the solution error of the inverse problem in the electrometry of oil and gas wells

Quantitative method for determining the solution error of the inverse problem in the electrometry of oil and gas wells

Determining the quantitative degree of connection between logging error and the corresponding error of oil and gas wells electrometry inverse problem solving is considered. A quantitative method to determine the magnitude of the error of solving the inverse problem depending on the magnitude of the...

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Main Authors: Myrontsov Mykyta, Karpenko Oleksiy, Horbulin Volodymyr
Format: Article
Language:English
Published: EDP Sciences 2021-01-01
Series:E3S Web of Conferences
Online Access:https://www.e3s-conferences.org/articles/e3sconf/pdf/2021/56/e3sconf_icsf2021_09003.pdf
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spelling doaj-dff7a309c8cb40bb8a595826a333c52d2021-07-07T11:34:18ZengEDP SciencesE3S Web of Conferences2267-12422021-01-012800900310.1051/e3sconf/202128009003e3sconf_icsf2021_09003Quantitative method for determining the solution error of the inverse problem in the electrometry of oil and gas wellsMyrontsov Mykyta0Karpenko Oleksiy1Horbulin Volodymyr2Institute of telecommunications and global information space of NAS of UkraineTaras Shevchenko National University of KyivInstitute of telecommunications and global information space of NAS of UkraineDetermining the quantitative degree of connection between logging error and the corresponding error of oil and gas wells electrometry inverse problem solving is considered. A quantitative method to determine the magnitude of the error of solving the inverse problem depending on the magnitude of the logging error for a given model of a single layer or section as a whole is described. Examples of determining the error of the inverse problem for real well materials, taking into account the actual measurement error, are given. A method for determining the characteristics of the spatial resolution of electrometry methods is described. Examples of its use for low-frequency induction logging equipment are given. The proposed methods allow to determine the areas of equivalent solutions and the areas of existence of stable / unstable solutions of the inverse electrometry problem.https://www.e3s-conferences.org/articles/e3sconf/pdf/2021/56/e3sconf_icsf2021_09003.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Myrontsov Mykyta
Karpenko Oleksiy
Horbulin Volodymyr
spellingShingle Myrontsov Mykyta
Karpenko Oleksiy
Horbulin Volodymyr
Quantitative method for determining the solution error of the inverse problem in the electrometry of oil and gas wells
E3S Web of Conferences
author_facet Myrontsov Mykyta
Karpenko Oleksiy
Horbulin Volodymyr
author_sort Myrontsov Mykyta
title Quantitative method for determining the solution error of the inverse problem in the electrometry of oil and gas wells
title_short Quantitative method for determining the solution error of the inverse problem in the electrometry of oil and gas wells
title_full Quantitative method for determining the solution error of the inverse problem in the electrometry of oil and gas wells
title_fullStr Quantitative method for determining the solution error of the inverse problem in the electrometry of oil and gas wells
title_full_unstemmed Quantitative method for determining the solution error of the inverse problem in the electrometry of oil and gas wells
title_sort quantitative method for determining the solution error of the inverse problem in the electrometry of oil and gas wells
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2021-01-01
description Determining the quantitative degree of connection between logging error and the corresponding error of oil and gas wells electrometry inverse problem solving is considered. A quantitative method to determine the magnitude of the error of solving the inverse problem depending on the magnitude of the logging error for a given model of a single layer or section as a whole is described. Examples of determining the error of the inverse problem for real well materials, taking into account the actual measurement error, are given. A method for determining the characteristics of the spatial resolution of electrometry methods is described. Examples of its use for low-frequency induction logging equipment are given. The proposed methods allow to determine the areas of equivalent solutions and the areas of existence of stable / unstable solutions of the inverse electrometry problem.
url https://www.e3s-conferences.org/articles/e3sconf/pdf/2021/56/e3sconf_icsf2021_09003.pdf
work_keys_str_mv AT myrontsovmykyta quantitativemethodfordeterminingthesolutionerroroftheinverseproblemintheelectrometryofoilandgaswells
AT karpenkooleksiy quantitativemethodfordeterminingthesolutionerroroftheinverseproblemintheelectrometryofoilandgaswells
AT horbulinvolodymyr quantitativemethodfordeterminingthesolutionerroroftheinverseproblemintheelectrometryofoilandgaswells
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