The western part of south China sea is characterized by high geothermal gradient, abnormal overpressure development and narrow formation pressure window in the deep part of the basin. In the process of cementing, the annulus has high pressure consumption, high risk of leakage, and significant influence of temperature on the rheology and hydration of cement slurry. In order to accurately determine the rheological and rheological parameters of cement slurry and prevent possible well leakage, overflow and even blowout accidents in the process of cementing, it is necessary to establish a wellbore temperature field model in the process of cementing. Based on the data of the actual drilling well, the variation of wellbore temperature under different pump displacement and circulation time is analyzed. The results show that the annular temperature is larger than the annular temperature at the beginning, and the annular temperature is larger than the annular temperature with the increase of depth. With the increase of displacement, the bottom hole temperature decreases and the outlet temperature increases. With the extension of the cycle time, the bottom hole temperature decreases and the outlet temperature increases. When the cycle time reaches a certain value, the bottom hole and outlet temperature remain basically unchanged.
| Published in | Science Discovery (Volume 7, Issue 1) |
| DOI | 10.11648/j.sd.20190701.19 |
| Page(s) | 39-44 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2024. Published by Science Publishing Group |
Western South China Sea, The Cementing, Risk of Leakage, Cement Slurry, Wellbore Temperature Field Model
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APA Style
Pan Rui, Guan Zhichuan, Luo Ming, Ma Xianming, Wang Kai, et al. (2019). Establishment of Wellbore Temperature Field During High Temperature and High Pressure Well Cementing in Western South China Sea. Science Discovery, 7(1), 39-44. https://doi.org/10.11648/j.sd.20190701.19
ACS Style
Pan Rui; Guan Zhichuan; Luo Ming; Ma Xianming; Wang Kai, et al. Establishment of Wellbore Temperature Field During High Temperature and High Pressure Well Cementing in Western South China Sea. Sci. Discov. 2019, 7(1), 39-44. doi: 10.11648/j.sd.20190701.19
AMA Style
Pan Rui, Guan Zhichuan, Luo Ming, Ma Xianming, Wang Kai, et al. Establishment of Wellbore Temperature Field During High Temperature and High Pressure Well Cementing in Western South China Sea. Sci Discov. 2019;7(1):39-44. doi: 10.11648/j.sd.20190701.19
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Download@article{10.11648/j.sd.20190701.19,
author = {Pan Rui and Guan Zhichuan and Luo Ming and Ma Xianming and Wang Kai and Wang Bin},
title = {Establishment of Wellbore Temperature Field During High Temperature and High Pressure Well Cementing in Western South China Sea},
journal = {Science Discovery},
volume = {7},
number = {1},
pages = {39-44},
doi = {10.11648/j.sd.20190701.19},
url = {https://doi.org/10.11648/j.sd.20190701.19},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.sd.20190701.19},
abstract = {The western part of south China sea is characterized by high geothermal gradient, abnormal overpressure development and narrow formation pressure window in the deep part of the basin. In the process of cementing, the annulus has high pressure consumption, high risk of leakage, and significant influence of temperature on the rheology and hydration of cement slurry. In order to accurately determine the rheological and rheological parameters of cement slurry and prevent possible well leakage, overflow and even blowout accidents in the process of cementing, it is necessary to establish a wellbore temperature field model in the process of cementing. Based on the data of the actual drilling well, the variation of wellbore temperature under different pump displacement and circulation time is analyzed. The results show that the annular temperature is larger than the annular temperature at the beginning, and the annular temperature is larger than the annular temperature with the increase of depth. With the increase of displacement, the bottom hole temperature decreases and the outlet temperature increases. With the extension of the cycle time, the bottom hole temperature decreases and the outlet temperature increases. When the cycle time reaches a certain value, the bottom hole and outlet temperature remain basically unchanged.},
year = {2019}
}
TY - JOUR T1 - Establishment of Wellbore Temperature Field During High Temperature and High Pressure Well Cementing in Western South China Sea AU - Pan Rui AU - Guan Zhichuan AU - Luo Ming AU - Ma Xianming AU - Wang Kai AU - Wang Bin Y1 - 2019/04/28 PY - 2019 N1 - https://doi.org/10.11648/j.sd.20190701.19 DO - 10.11648/j.sd.20190701.19 T2 - Science Discovery JF - Science Discovery JO - Science Discovery SP - 39 EP - 44 PB - Science Publishing Group SN - 2331-0650 UR - https://doi.org/10.11648/j.sd.20190701.19 AB - The western part of south China sea is characterized by high geothermal gradient, abnormal overpressure development and narrow formation pressure window in the deep part of the basin. In the process of cementing, the annulus has high pressure consumption, high risk of leakage, and significant influence of temperature on the rheology and hydration of cement slurry. In order to accurately determine the rheological and rheological parameters of cement slurry and prevent possible well leakage, overflow and even blowout accidents in the process of cementing, it is necessary to establish a wellbore temperature field model in the process of cementing. Based on the data of the actual drilling well, the variation of wellbore temperature under different pump displacement and circulation time is analyzed. The results show that the annular temperature is larger than the annular temperature at the beginning, and the annular temperature is larger than the annular temperature with the increase of depth. With the increase of displacement, the bottom hole temperature decreases and the outlet temperature increases. With the extension of the cycle time, the bottom hole temperature decreases and the outlet temperature increases. When the cycle time reaches a certain value, the bottom hole and outlet temperature remain basically unchanged. VL - 7 IS - 1 ER -
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