Influence of monoethanolamine on thermal stability of starch in water based drilling fluid system

Influence of monoethanolamine on thermal stability of starch in water based drilling fluid system

下载PDF

导出

摘要 To improve the thermal stability of starch in water-based drilling fluid,monoethanolamine(MEA)was added,and the effect was investigated by laboratory experiment.The experimental results show that the addition of monoethanolamine(MEA)increases the apparent viscosity,plastic viscosity,dynamic shear force,and static shear force of the drilling fluid,and reduces the filtration rate of drilling fluid and thickness of mud cake apparently.By creating hydrogen bonds with starch polymer,the monoethanolamine can prevent hydrolysis of starch at high temperature.Starch,as a natural polymer,is able to improve the rheological properties and reduce filtration of drilling fluid,but it works only below 121℃.The MEA will increase the thermal stability of starch up to 160℃.There is a optimum concentration of MEA,when higher than this concentration,its effect declines. To improve the thermal stability of starch in water-based drilling fluid,monoethanolamine(MEA)was added,and the effect was investigated by laboratory experiment.The experimental results show that the addition of monoethanolamine(MEA)increases the apparent viscosity,plastic viscosity,dynamic shear force,and static shear force of the drilling fluid,and reduces the filtration rate of drilling fluid and thickness of mud cake apparently.By creating hydrogen bonds with starch polymer,the monoethanolamine can prevent hydrolysis of starch at high temperature.Starch,as a natural polymer,is able to improve the rheological properties and reduce filtration of drilling fluid,but it works only below 121℃.The MEA will increase the thermal stability of starch up to 160℃.There is a optimum concentration of MEA,when higher than this concentration,its effect declines.

作者 NASIRI Alireza AMERI SHAHRABI Mohammad Javad SHARIF NIK Mohammad Amin HEIDARI Hamidreza VALIZADEH Majid

机构地区 Department of Petroleum Engineering School of Mining Engineering Department of Chemical and Petroleum Engineering Research Institute of Petroleum Industry

出处《Petroleum Exploration and Development》 2018年第1期167-171,共5页 石油勘探与开发（英文版）

关键词 MONOETHANOLAMINE STARCH DRILLING FLUID additives WATER-BASED DRILLING FLUID thermal stability monoethanolamine starch drilling fluid additives water-based drilling fluid thermal stability

分类号 TE254 [石油与天然气工程—油气井工程]

引文网络
相关文献

参考文献1

1AL-MALKI Needaa,POURAFSHARY Peyman,AL-HADRAMI Hamoud,ABDO Jamil.采用海泡石纳米颗粒控制膨润土基钻井液性能[J].石油勘探与开发,2016,43(4):656-661. 被引量：8

二级参考文献12

1iSCIE, TURUTOOLU S I. Stabilization of the mixture of bentonite and sepiolite as a water based drilling fluid[J]. Journal of Petroleum Science & Engineering, 2011, 76(1): 1-5.
2ALTUN G, OSGOUEI A E, OZYURTKAN M H, et al. Sepiolite based muds as an alternate drilling fluid for hot environments[C]// Proceedings of the 2015 World Geothermal Congress. Melbourne: International Geothermal Association, 2015.
3ALTUN G, SERPEN U. Investigating improved rheological and fluid loss performance of sepiolite muds under elevated temperatures[C]// Proceedings of the 2005 World Geothermal Congress. Antalya, Turkey: International Geothermal Association, 2005: 2440-2452.
4OSGOUEI A E, OZYURTKAN M H, ALTUN G. Dynamic filtration properties of flesh water sepiolite-based muds[J]. Energy Sources Part A Recovery Utilization & Environmental Effects, 2014, 36(19): 2079-2086.
5SRIVATSA J T, ZIAJA M B. An experimental investigation on use of nanoparticles as fluid loss additives in a surfactant-polymer based drilling fluids[R]. IPTC 14952-MS, 2011.
6SENSOY T. Use of nanoparticles for maintaining shale stability[D]. Austin: University of Texas at Austin, 2009.
7CAI J, CHENEVERT M, SHARMA M, et at. Decreasing water invasion into Atoka shale using nonmodified silica nanoparticles[J]. SPE Drilling & Completion, 2012, 27( 1 ): 103-112.
8PAIAMAN A M, DURAYA B. Using nanoparticles to decrease differential pipes sticking and its feasibility in Iranian oil fields[J]. NAFTA, 2009, 60(12): 645-647.
9MORONI L P, VICKERS S R, GRAY C, et al. Good things come in little packages: nanotechnology for reduction in pore pressure transmission[R]. SPE 170687-MS, 2014.
10ABDO J, HANEEF M D. Clay nanoparticles modified drilling fluids for drilling of deep hydrocarbon welts[J]. Applied Clay Science, 2013, 86(48): 76-82.

共引文献7

1刘合,金旭,丁彬.纳米技术在石油勘探开发领域的应用[J].石油勘探与开发,2016,43(6):1014-1021. 被引量：40
2范宜仁,吴俊晨,吴飞,周灿灿,李潮流.地层模块尺度下的新型钻井液侵入物理模拟系统[J].石油勘探与开发,2017,44(1):125-129. 被引量：10
3ETTEHADI Ali,ALTUN Gursat.含碳酸钙的海泡石钻井液的封堵性能[J].石油勘探与开发,2017,44(3):446-455. 被引量：6
4NASIRI Alireza,NIK Mohammad Amin Sharif,HEIDARI Hamidreza,VALIZADEH Majid.单乙醇胺对水基钻井液体系中淀粉热稳定性的影响[J].石油勘探与开发,2018,45(1):157-160. 被引量：2
5杨小华,林永学.无机聚合物材料及其在油田中的应用[J].应用化工,2019,48(2):424-429. 被引量：2
6Aleksander Lekomtsev,Amin Keykhosravi,Mehdi Bahari Moghaddam,Reza Daneshfar,Omid Rezvanjou.On the prediction of filtration volume of drilling fluids containing different types of nanoparticles by ELM and PSO-LSSVM based models[J].Petroleum,2022,8(3):424-435. 被引量：3
7张玉文,张洋,宋涛.高温下水基钻井液核心组分微观行为分析[J].钻井液与完井液,2024,41(1):39-44.

1Xuewei Fu,Yu Wang,Louis Scudiero,Weihong Zhong.Review:Natural Polymer Electrolytes for Lithium Ion Batteries[J].Journal of Harbin Institute of Technology(New Series),2018,25(1):1-17. 被引量：1
2Xiangrong Xing.Analysis of Reservoir Sensitivity and Optimization of Drilling Fluid System in Block H9 of Tarim Oilfield[J].石油天然气学报,2017,39(3):69-77.
3Bo PENG,Dongyan KONG,Yu PENG,Lulu HE,Yue JIANG,Jingbo YU,Mengshi SUN,Qin DAI,Yuchen LIU,Qingqing XIN,Ruihua PANG,Yanfang SUN,Xiaohua SONG,Huilong LI,Juan PENG,Qiying ZHOU,Jintao LI,Quanxiu WANG,Bin DUAN,Shizhi SONG,Hongyu YUAN.Expression Regulation of Starch and Storage Protein Synthesis Related Genes in Rice Grains[J].Asian Agricultural Research,2019,11(1):47-53.
4LIU Qiang,WU Shuhai.Design of Stay Space Based on Street Renewal: A Case Study of East Guangchang Road in Nanchang[J].Journal of Landscape Research,2019,11(1):4-6.
5罗登贵,祁爱蓉,徐缘钊,傅博,杨俊,杨栋.1233例维持性血液透析患者高脂血症的危险因素分析[J].临床肾脏病杂志,2019,19(1):44-48. 被引量：3
6Ren-kun Wang,Lin Chen,Chong Zhang.Seismic design of Xiluodu ultra-high arch dam[J].Water Science and Engineering,2018,11(4):288-301. 被引量：4
7QI Cailing,RAO Qiuhua,LIU Qi,MA Wenbo.Traction rheological properties of simulative soil for deep-sea sediment[J].Journal of Oceanology and Limnology,2019,37(1):62-71. 被引量：3
8Yi He,Bin Men,Xiaofang Yang,Yaxuan Li,Hui Xu,Dongsheng Wang.Relationship between heavy metals and dissolved organic matter released from sediment by bioturbation/bioirrigation[J].Journal of Environmental Sciences,2019,31(1):216-223. 被引量：13
9Peng Tao,Lei Shu,Jingyi Zhang,Chiahsun Lee,Qinxian Ye,Huaixin Guo,Tao Deng.Silicone oil-based solar-thermal fluids dispersed with PDMS-modified Fe3O4@graphene hybrid nanoparticles[J].Progress in Natural Science:Materials International,2018,28(5):554-562. 被引量：4
10ZENG Zhu,JIANG Jun-jie,YU Jie,MAO Xiang-bing,YU Bing,CHEN Dai-wen.Effect of dietary supplementation with mulberry(Morus alba L.) leaves on the growth performance,meat quality and antioxidative capacity of finishing pigs[J].Journal of Integrative Agriculture,2019,18(1):143-151. 被引量：24

Petroleum Exploration and Development

2018年第1期

浏览历史

内容加载中请稍等...

Influence of monoethanolamine on thermal stability of starch in water based drilling fluid system

参考文献1

二级参考文献12

共引文献7

相关作者

相关机构

相关主题

浏览历史