Standard

Test results of active thermometry technology using a distributed temperature measurement system. / Rymarenko, Konstantin; Nukhaev, Marat; Grishchenko, Sergey et al.

Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020. Society of Petroleum Engineers, 2020. (Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020).

Research output: Chapter in Book/Report/Conference proceedingConference contributionResearchpeer-review

Harvard

Rymarenko, K, Nukhaev, M, Grishchenko, S, Zaytsev, A, Golubtsov, A, Aitkaliev, G & Dadakin, N 2020, Test results of active thermometry technology using a distributed temperature measurement system. in Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020. Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020, Society of Petroleum Engineers, SPE Russian Petroleum Technology Conference 2020, RPTC 2020, Virtual, Online, 26.10.2020.

APA

Rymarenko, K., Nukhaev, M., Grishchenko, S., Zaytsev, A., Golubtsov, A., Aitkaliev, G., & Dadakin, N. (2020). Test results of active thermometry technology using a distributed temperature measurement system. In Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020 (Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020). Society of Petroleum Engineers.

Vancouver

Rymarenko K, Nukhaev M, Grishchenko S, Zaytsev A, Golubtsov A, Aitkaliev G et al. Test results of active thermometry technology using a distributed temperature measurement system. In Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020. Society of Petroleum Engineers. 2020. (Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020).

Author

Rymarenko, Konstantin ; Nukhaev, Marat ; Grishchenko, Sergey et al. / Test results of active thermometry technology using a distributed temperature measurement system. Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020. Society of Petroleum Engineers, 2020. (Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020).

BibTeX

@inproceedings{be2804dac96c400abc3fb697ce10fd35,
title = "Test results of active thermometry technology using a distributed temperature measurement system",
abstract = "One of the most important tasks when developing oil fields with horizontal or directional wells is the inflow distribution monitoring along the wellbore. Possible irregularities in the inflow are primarily associated with heterogeneity in the filtration distribution and capacitive properties along the wellbore, unevenness in the depression distribution, possible overfilling of the wellbore, partial or complete blockage of sand filters by mechanical impurities or clay material, imperfect development of the wells (when part of the mud cake remains on the wall of the well), gradual clogging of the bottomhole zone pores, water breakthroughs and gas outs, or other reasons. Inflow profile monitoring allows identifying why the well performance has decreased and timely planning and carrying out appropriate geological and technical measures. Also, this information allows timely updating hydrodynamic models of field development to properly make strategic decisions. This paper presents the results of bench tests of a new active thermometry technology using a distributed temperature measurement system.",
author = "Konstantin Rymarenko and Marat Nukhaev and Sergey Grishchenko and Alexander Zaytsev and Alexander Golubtsov and Galymzhan Aitkaliev and Nikita Dadakin",
note = "Publisher Copyright: Copyright 2020, Society of Petroleum Engineers.; SPE Russian Petroleum Technology Conference 2020, RPTC 2020 ; Conference date: 26-10-2020 Through 29-10-2020",
year = "2020",
language = "English",
series = "Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020",
publisher = "Society of Petroleum Engineers",
booktitle = "Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020",

}

RIS

TY - GEN

T1 - Test results of active thermometry technology using a distributed temperature measurement system

AU - Rymarenko, Konstantin

AU - Nukhaev, Marat

AU - Grishchenko, Sergey

AU - Zaytsev, Alexander

AU - Golubtsov, Alexander

AU - Aitkaliev, Galymzhan

AU - Dadakin, Nikita

N1 - Publisher Copyright: Copyright 2020, Society of Petroleum Engineers.

PY - 2020

Y1 - 2020

N2 - One of the most important tasks when developing oil fields with horizontal or directional wells is the inflow distribution monitoring along the wellbore. Possible irregularities in the inflow are primarily associated with heterogeneity in the filtration distribution and capacitive properties along the wellbore, unevenness in the depression distribution, possible overfilling of the wellbore, partial or complete blockage of sand filters by mechanical impurities or clay material, imperfect development of the wells (when part of the mud cake remains on the wall of the well), gradual clogging of the bottomhole zone pores, water breakthroughs and gas outs, or other reasons. Inflow profile monitoring allows identifying why the well performance has decreased and timely planning and carrying out appropriate geological and technical measures. Also, this information allows timely updating hydrodynamic models of field development to properly make strategic decisions. This paper presents the results of bench tests of a new active thermometry technology using a distributed temperature measurement system.

AB - One of the most important tasks when developing oil fields with horizontal or directional wells is the inflow distribution monitoring along the wellbore. Possible irregularities in the inflow are primarily associated with heterogeneity in the filtration distribution and capacitive properties along the wellbore, unevenness in the depression distribution, possible overfilling of the wellbore, partial or complete blockage of sand filters by mechanical impurities or clay material, imperfect development of the wells (when part of the mud cake remains on the wall of the well), gradual clogging of the bottomhole zone pores, water breakthroughs and gas outs, or other reasons. Inflow profile monitoring allows identifying why the well performance has decreased and timely planning and carrying out appropriate geological and technical measures. Also, this information allows timely updating hydrodynamic models of field development to properly make strategic decisions. This paper presents the results of bench tests of a new active thermometry technology using a distributed temperature measurement system.

UR - http://www.scopus.com/inward/record.url?scp=85096615458&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:85096615458

T3 - Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020

BT - Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020

PB - Society of Petroleum Engineers

T2 - SPE Russian Petroleum Technology Conference 2020, RPTC 2020

Y2 - 26 October 2020 through 29 October 2020

ER -

ID: 35676335