Addition of tartaric acid to prevent delayed setting of oil-well cement containing retarder at high temperatures

被引:26
|
作者
Guo, Shenglai [1 ]
Bu, Yuhuan [1 ]
Lu, Yao [1 ]
机构
[1] China Univ Petr, Sch Petr Engn, Qingdao, Peoples R China
关键词
Oil well cementing; Tetra calcium aluminoferrite; Hydration mechanism; Setting time; CaO; SODIUM GLUCONATE; PERFORMANCE; HYDRATION;
D O I
10.1016/j.petrol.2018.09.053
中图分类号
TE [石油、天然气工业]; TK [能源与动力工程];
学科分类号
0807 ; 0820 ;
摘要
The setting time of the cement containing retarder at high temperature is longer than that at low temperature, which is an abnormal phenomenon and is adverse to the safety of cementing operation. Several kinds of retarders were chosen to demonstrate the abnormal phenomenon and to select the retarder with the ability to eliminate the abnormal phenomenon. Tartaric acid was found to be the only retarder which did not show the abnormal phenomenon. Moreover, it could eliminate the abnormal phenomenon of the cement containing a copolymer retarder. In addition, tartaric acid may also eliminate the abnormal phenomenon in cement containing other retarders, and it may be used with other retarders together to develop a compound retarder without the phenomenon of slow setting at high temperature. The elimination mechanism of the abnormal phenomenon was studied by comparing the hydration products of the cement containing AMPS-IA with the cement containing tartaric acid using XRD. Based on the results, there was a reduction in the hydration rate difference of tetra calcium aluminoferrite (C(4)AF) between low and high temperatures after introducing tartaric acid, which could be the reason why tartaric acid could eliminate the abnormal phenomenon.
引用
收藏
页码:269 / 279
页数:11
相关论文
共 40 条
  • [1] Preparation and mechanism of tartaric acid-intercalated hydrotalcite retarder for oil-well cement
    Guan, Xi
    Wang, Fuyun
    Ren, Qiang
    Zheng, Youzhi
    Mei, Kai Yuan
    Zhang, Chunmei
    Cheng, Xiaowei
    CONSTRUCTION AND BUILDING MATERIALS, 2023, 399
  • [2] Synthesis and evaluation of a new type of oil-well cement temperature-resistant retarder
    Yu, Yang
    Zhang, Chunmei
    Gu, Tao
    Xu, Weining
    Zhang, Jiaying
    Zhang, Gaoyin
    Huang, Sheng
    Liu, Kaiqiang
    Cheng, Xiaowei
    CONSTRUCTION AND BUILDING MATERIALS, 2021, 302
  • [3] Effect of red mud addition on oil well cement at high temperatures
    Cheng, Xiaowei
    Yang, Xuezheng
    Zhang, Chi
    Gao, Xianshu
    Yu, Yongjin
    Mei, Kaiyuan
    Guo, Xiaoyang
    Zhang, Chunmei
    ADVANCES IN CEMENT RESEARCH, 2021, 33 (01) : 28 - 38
  • [4] EFFECT OF IRON-TRIAD COMPLEXONATES ON THE SETTING TIMES OF OIL-WELL CEMENT SLURRIES
    AKHRIMENKO, ZM
    AZHIPA, LT
    AKHRIMENKO, VE
    PANYUSHKIN, VT
    JOURNAL OF APPLIED CHEMISTRY OF THE USSR, 1990, 63 (06): : 1172 - 1175
  • [5] Effect of tartaric acid on the hydration of oil well cement at elevated temperatures between 60?C and 89 ?C
    Sun, Fang
    Pang, Xueyu
    Kawashima, Shiho
    Cheng, Guodong
    Guo, Shenglai
    Bu, Yuhuan
    CEMENT AND CONCRETE RESEARCH, 2022, 161
  • [6] INDUSTRIAL-TESTS OF OIL-WELL CEMENT OF THE TSTPN-TYPE FOR CYCLICALLY CHANGING TEMPERATURES
    ABRAMOV, SA
    MARIAMPOLSKII, NA
    LOGVINENKO, SV
    ZAKKHEEV, AN
    NEFTYANOE KHOZYAISTVO, 1986, (10): : 62 - 64
  • [7] Synthesis and performance evaluation of terpolymer high temperature retarder for oil well cement
    Yu, Yongjin
    Wu, Xiaoying
    Guo, Jintang
    Xia, Xiujian
    Zhou, Ping
    Liu, Huiting
    Li, Ming
    JOURNAL OF DISPERSION SCIENCE AND TECHNOLOGY, 2023, 44 (14) : 2610 - 2618
  • [8] Mechanical performance of oil-well cement slurries cured and tested under high-temperatures and high-pressures for deep-well applications
    Yang, Hanzhi
    Wang, Lei
    Yang, Chunhe
    Zhao, Jian
    Huang, Guangping
    Guo, Yintong
    Liu, Wei Victor
    Cement and Concrete Research, 2024, 175
  • [9] Mechanical performance of oil-well cement slurries cured and tested under high-temperatures and high-pressures for deep-well applications
    Yang, Hanzhi
    Wang, Lei
    Yang, Chunhe
    Zhao, Jian
    Huang, Guangping
    Guo, Yintong
    Liu, Wei Victor
    CEMENT AND CONCRETE RESEARCH, 2024, 175
  • [10] Assessment of the Performances of Carboxylic Acid Monomers as Fluid Loss Additives for Oil-Well Cement
    Liu, Hexing
    Huang, Yi
    Zheng, Jinlong
    Tian, Ye
    Xu, Mengran
    Liu, Huajie
    FDMP-FLUID DYNAMICS & MATERIALS PROCESSING, 2022, 18 (04): : 999 - 1013