High Temperature Corrosion Resistant Cement Slurry Used in Fire Soaked Well Cementing
-
摘要: 火烧吞吐采油技术是近年来发展很快的一种具有明显优势和潜力的热力采油方法,其特殊的采油工艺需要开发一种同时具有抗550℃以上高温和耐CO2腐蚀性能的水泥浆体系。从水泥石耐高温和抗腐蚀机理出发,研发了一种磷铝酸盐水泥GWC-500S,该水泥通过对铝酸盐水泥加入磷酸盐、氧化铝粉、耐腐蚀材料、激活材料等进行改性而得,同时研发了配套的多元单体聚合的液体降失水剂GWF-500L及无机酸缓凝剂GWR-500S,并配制出了适用于火烧油层固井的水泥浆体系。对50、300和600℃不同温度下水泥石进行XRD实验,分析了不同温度下水泥水化产物和水化产物随着温度变化的情况;对600℃煅烧后水泥石剖面进行了扫描电镜分析;对磷铝酸盐水泥经过550℃高温煅烧7 d后的强度变化进行了评价;在120℃、CO2分压约为6.9 MPa条件下,对水泥石耐CO2腐蚀性能进行了评价。研究结果表明,该体系具有在40~100℃范围内稠化时间可调,API失水量小于50 mL,水泥浆流变性能良好等特点,且该水泥石可耐550℃高温强度不衰退、抗CO2腐蚀性能良好、密度可调、稠度适中、稳定性良好,与钻井液、隔离液相容性良好。该水泥浆在××油田火烧油层吞吐试验区块英试×井进行了试验应用,经室内实验和现场应用证明,其满足火烧油层固井工艺要求。Abstract: Fire soaking production is an advantageous thermal production technology fast developed in recent years. This technology requires cement slurry to have the thermal stability above 550℃ and resistance to CO2 corrosion, such as GWC-500S, a phosphoaluminate cement which was developed by adding phosphate, alumina powder, corrosion resistant agent and activator into an aluminate cement. A liquid filter loss reducer GWF-500L and an inorganic acid retarder GWR-500S have also been developed for use in the cement. A cement slurry was developed with these materials and the set cement was tested using XRD at 50℃, 300℃ and 600℃. Hydrates of the cement and their changes with temperature were analyzed. Set cement calcinated at 600℃ was analyzed using SEM for its profile. Changes in the strength of the phospho-aluminate cement after calcination at 550℃ for 7 d were evaluated. Resistance to CO2 corrosion of set cement at 120℃ and a CO2 partial pressure of 6.9 MPa was evaluated. It is understood through these studies and evaluations that the phospho-aluminate cement slurry has thickening time adjustable between 40℃ and 100℃, API filter loss of less than 50 mL, and good rheology. The set cement has the advantages such as:resistance to high temperature to 550℃, resistance to CO2 corrosion, adjustable density, moderate thickness, good stability, and good compatibility with drilling fluids and spacers. The cement slurry has been successfully tried on well Yingshi X in a fire soak test block in XX oilfield. Laboratory experiments and field application prove that the phospho-aluminate cement slurry satisfies the needs for fire soak well cementing.
-
Key words:
- Fire soak /
- High temperature resistant /
- Corrosion resistant /
- Cement slurry
-
刘海,潘一,冷俊,等. 国内外火烧油层研究进展与应用[J]. 当代化工,2015,44(3):545-547. Liu Hai, Pan Yi, Leng Jun. Research progress and application of the in-situ combustion technology at home and aboard[J]. Contemporary Chemical Industry, 2015, 44(3):545-547. 汪子昊,李治平,赵志花,等. 火烧油层采油技术的应用前景[J]. 内蒙古石油化工,2008,7:11-15. Wang Zihao, Li Zhipin, Zhao Zhihua, et al. Application prospect of ISC production technology[J]. Inner Mongolia Petrochemical, 2008,7:11-15. 王景建,冯克满,许前富,等. 高温下加砂G级油井水泥强度发展规律研究[J]. 长江大学学报,2011,8(3):52-54. Wang Jingjian, Feng Keman, Xu Qianfu,et al. Research of Strength development law of class G oilwell cement with sand under high temperatures[J]. Journal of Yangtze university, 2011, 8(3):52-54. 李早元,伍鹏,吴东奎,等. 稠油热采井固井用铝酸盐水泥浆体系的研究与应用[J]. 钻井液与完井液, 2014,31(5):71-74. Li Zaoyuan, Wu Peng,Wu Dongkui,et al. Research and application of aluminate cement slurry in heavy oil thermal recovery well[J]. Drilling Fluid & Completion Fluid, 2014, 31(5):71-74. 李仕群,胡佳山,王琦,等. 磷铝酸盐水泥耐高温性能的初步研究[J]. 硅酸盐通报,2001,20(4):54-56. Li Shiqun,Hu Jiashan,Wang Qi, et al. Preliminary research of high temperature performance of MPC[J]. Bulletin of the Chinese Ceramic Society, 2001,20(4):45-49. 张景富, 徐明, 闫占辉, 等. 高温条件下G级油井水泥原浆及加砂水泥的水化和硬化[J]. 硅酸盐学报,2008, 36(7):939-945. Zhang Jingfu, Xu Ming,Yan Zhanhui, et al. Hydration and hardening of class G oilwell cement with an without silica sands under high temperatures[J]. Jouranl of the Chinese creamic society, 2008, 36(7):939-945. 王宝山. 硅酸盐与铝酸盐水泥的对比分析[J]. 中国新技术新产品,2012(15):177-179. Wang Baoshan. Comparative analysis of silicate and aluminate cement[J]. China New Technologies and New Products, 2012(15):177-179. 郭辛阳, 步玉环, 郭胜来, 等. 耐CO2腐蚀磷铝酸盐固井水泥浆的研制[J]. 钻井液与完井液,2014,31(5):67-70. Guo Xinyang, Bu Yuhuan,Guo Shenglai, et al. Develop of CO2 corrosion resistance MPC slurry[J]. Drilling Fluid & Completion Fluid, 2014, 31(5):67-70. 步玉环, 马聪, 步万荣, 等. 适用于改性磷铝酸盐水泥的复合缓凝剂实验研究[J]. 石油钻探技术,2013,41(1):14-19. Bu Yuhuan, Ma Cong,Bu Wanrong, et al. Experimental study on the composite retarder for MPC[J]. Petroleum Drilling Techniques, 2013, 41(1):14-19. -
点击查看大图
计量
- 文章访问数: 640
- HTML全文浏览量: 118
- PDF下载量: 179
- 被引次数: 0
下载:
