全球固井水泥外加剂专利现状分析
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摘要
经过几十年的发展,固井水泥外加剂领域已经进入了发展期,专利申请量持续增加。特别是国外各大油服公司在固井水泥外加剂领域申请了大量专利,开展了全面的专利布局,其中哈里伯顿、斯伦贝谢在该领域占据了行业内的领先地位。固井水泥外加剂技术专利主要涉及化学及化工类专利,并且各种外加剂种类繁多。国内企业应加大该领域专利申请,发展特色技术,保护自有知识产权。
Cementing is one of the most critical steps in the drilling and completion of oil wells. The current patent analysis was conducted to get an overview of patent landscape for oil well cementing, with focus on identifying additives for property enhancement, emerging trends, the major assignees, and applications in this area. All keywords relevant to cementing additives along with possible synonyms, abbreviations were collected by studying full text of selected literatures of this area. Geographical distribution, assignee analysis and technology analysis were also carried out. Cementing additives develop rapidly and enter the growth stage of technological development. The number of patent applications is the largest among international oil service companies. Domestic enterprises should strengthen patent applications in this area and protect their own technologies IP.
Cementing is one of the most critical steps in the drilling and completion of oil wells. The current patent analysis was conducted to get an overview of patent landscape for oil well cementing, with focus on identifying additives for property enhancement, emerging trends, the major assignees, and applications in this area. All keywords relevant to cementing additives along with possible synonyms, abbreviations were collected by studying full text of selected literatures of this area. Geographical distribution, assignee analysis and technology analysis were also carried out. Cementing additives develop rapidly and enter the growth stage of technological development. The number of patent applications is the largest among international oil service companies. Domestic enterprises should strengthen patent applications in this area and protect their own technologies IP.
引文
[1]陈大钧,等.油气田应用化学[M].北京:石油工业出版社,2006.
[2]Nelson E. Well cementing[M]. Amsterdam:Elsevier, 1990.
[3]姚晓,吴叶成,黎学年.国内外固井技术难点及新型水泥外加剂特性评析[J].钻井液与完井液,2005,02:11-16+77.
[4]丁士东.国内外固井技术现状及发展趋势[J].钻井液与完井液,2002,05:38-42+59.
[5]赵琥,邱超,宋茂林,王清顺,罗宇维.深水固井低温水泥外加剂的开发及应用[J].石油钻探技术,2012,04:72-75.
[6]刘爱平.中国石油固井技术现状及发展趋势[J].测井技术,2004,S1:23-26+94.
[7]齐奉忠,杜建平,魏群宝.固井材料技术新进展及研究方向[J].石油科技论坛,2015,04:45-48.
[8]李鹤,黄志强,黄鹏.纤维材料对提高水泥石增韧性能研究进展[J].当代化工,2018,47(01):163-166.
[9]李波,邵鲁华,韩立国,邓春来.固井用水泥外加剂研究进展[J].当代化工,2014,43(05):863-866.
[10]武世新.国内外高温高压井固井用外加剂现状及进展[J].延安职业技术学院学报,2011,05:77-79.
[11]姜晓超.耐200℃油井水泥浆的研制[D].吉林大学,2012.
[12]刘建军.聚合物类油井水泥外加剂的合成与研究[D].天津大学,2012.
[13]焦永强.深井水泥浆体系研究[D].中国石油大学,2007.
[14]邸伟娜,赵汩凡,李婧.哈里伯顿固井水泥外加剂专利分析[J].石油科技论坛,2017,36(01):62-67.
[15]赵汩凡,李婧,邸伟娜,王敏生.专利参考价值评价体系及其在石油工程领域中的应用[J].石油科技论坛,2015,34(02):28-33.
[16]王燕玲.基于专利分析的行业技术创新研究:分析框架[J].科学学研究,2009,27(04):622-628+568.
[17]李潇,王坚,纪展仕.介孔分子筛的研究进展及国内外专利分析[J].现代化工,2012,32(12):6-10+12.
[2]Nelson E. Well cementing[M]. Amsterdam:Elsevier, 1990.
[3]姚晓,吴叶成,黎学年.国内外固井技术难点及新型水泥外加剂特性评析[J].钻井液与完井液,2005,02:11-16+77.
[4]丁士东.国内外固井技术现状及发展趋势[J].钻井液与完井液,2002,05:38-42+59.
[5]赵琥,邱超,宋茂林,王清顺,罗宇维.深水固井低温水泥外加剂的开发及应用[J].石油钻探技术,2012,04:72-75.
[6]刘爱平.中国石油固井技术现状及发展趋势[J].测井技术,2004,S1:23-26+94.
[7]齐奉忠,杜建平,魏群宝.固井材料技术新进展及研究方向[J].石油科技论坛,2015,04:45-48.
[8]李鹤,黄志强,黄鹏.纤维材料对提高水泥石增韧性能研究进展[J].当代化工,2018,47(01):163-166.
[9]李波,邵鲁华,韩立国,邓春来.固井用水泥外加剂研究进展[J].当代化工,2014,43(05):863-866.
[10]武世新.国内外高温高压井固井用外加剂现状及进展[J].延安职业技术学院学报,2011,05:77-79.
[11]姜晓超.耐200℃油井水泥浆的研制[D].吉林大学,2012.
[12]刘建军.聚合物类油井水泥外加剂的合成与研究[D].天津大学,2012.
[13]焦永强.深井水泥浆体系研究[D].中国石油大学,2007.
[14]邸伟娜,赵汩凡,李婧.哈里伯顿固井水泥外加剂专利分析[J].石油科技论坛,2017,36(01):62-67.
[15]赵汩凡,李婧,邸伟娜,王敏生.专利参考价值评价体系及其在石油工程领域中的应用[J].石油科技论坛,2015,34(02):28-33.
[16]王燕玲.基于专利分析的行业技术创新研究:分析框架[J].科学学研究,2009,27(04):622-628+568.
[17]李潇,王坚,纪展仕.介孔分子筛的研究进展及国内外专利分析[J].现代化工,2012,32(12):6-10+12.
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