基于CIFLog平台磁法孔眼的研究与实现
|
摘要
在石油开采领域,各大研究所都在为如何提高射孔深度的精度犯愁,因为它始终是控制射孔质量的难关,要是射孔深度的精准度提不上去,那么打孔采油就不可能得以实现,地层中的石油就不可能得以开采利用。然而,在测井和射孔作业中导致射孔深度误差的因素又是非常之多,许多设备因素、自然环境因素和人为因素都可能直接导致射孔深度的误差,最可怕的就是诸多因素积累,这样导致的误差更加难以校正。
而射孔在油气田开发中的重要性是众所周知的,它直接关乎着油气井的产量。因此,研究分析造成射孔深度的误差然后采取相应的措施将其降到最小限度是非常重要的,是任何研究所都一直在攻克的难关。本文所研究的磁法孔眼正是帮助用户分析、计算、审核射孔过程中产生深度精准度误差的原因。如果是设备自身误差过大就及时通知试采大队及时更新设备,如果是地层土壤的酸碱性导致误差过大就另寻射孔口或者添加化学成分却减小误差,如果是人为射孔操作导致误差过大就加强对射孔工作人员的培训,提高作者人员的操作熟练度、降低设备自身误差、改造环境自然因素等等,都只是为了提高射孔深度的精准度,确保射孔工作能够准确、顺利的完成,保证既不浪费国家财产又能保证油气井的产量,实现石油的合理开发。
本文以一体化网络测井处理解释软件平台为依托,开发实现了磁法孔眼的功能,磁法孔眼是从实际生产需要出发,在相关技术进行了充分调研的基础上开发的,它要求对射孔的技术原理要有充分的了解,现场观看和学习整个射孔流程,总结统计射孔过程中的各项参数,分析设计出合理的磁法孔眼系统。本系统正是基于采油需要所开发的——磁法孔眼模块,它帮助用户计算、分析、总结孔眼深度的误差,提示用户那些参数过大什么地方应该及时修正等。本系统已经在实际开采中得到应用,为测井人员了解实际射孔情况提供了详实的理论依据,有效的帮助了射孔工作的顺利进行。
In the field of oil exploration, the major Institute for how to improve the accuracy of theperforation depth worry, because it is always the control of perforating the quality of storm, ifthe accuracy of the perforating depth is raised not up, punch oil production can not berealizedthat the oil formation can not be exploitation. However, the factors that lead to perforationdepth error in the logging and perforating operations are many, many equipment factors,natural environment and anthropogenic factors may lead to perforation depth error, the mostfrightening is that many factors accumulation, this has led to the error is more difficult tocorrect.
And the importance of perforating in oil and gas field development is well known, itdirectly for the oil and gas well production. Therefore, the study by the depth of the erroranalysis of perforation and take corresponding measures to minimize the limits are veryimportant, is any research institute has been conquer difficulties. In this paper the research ofmagnetic method is to help users controlled analysis, calculation and audit perforation depthaccuracy produced during the cause of the error. brigade to update equipment, if is thestratigraphic soil acid and alkaline cause error is too large for the perforating mouth or addchemical composition but diminish error, if is the human perforating operation lead toexcessive error is to strengthen the training of workers followed on work, improve the authorof the operators, reduce the equipment itself skilled degree error, to change the environmentof natural factors and so on, is in order to improve the accuracy of perforation depth degreeensure perforating it accurately, work done smoothly, ensure that doesn't waste state propertyand guarantee the production of oil and gas well, and realize the rational development of oil.
Based on the integrated network logging software platform based on the processing andinterpretation, the development achieved the function of the pore magnetic method, and themagnetic method from the need of the actual production controlled, in the related technologybased on the research of the fully developed, it requires followed on the technical principleshould fully understanding, the scene to watch and learn the whole process of perforation, andsummarizes the parameters in the process of perforating statistics, this paper analyzes thereasonable design of magnetic method controlled system. This system was based on thedevelopment of the oil production need-magnetic method pore module, it helps userscalculation, analysis and summary of the depth of pore error, prompt the user thoseparameters in what place should modify too. This system has been used in the practicalmining, logging staff know the actual situation of perforating has provided detailed theoreticalbasis, effective help nuclear work smoothly.
而射孔在油气田开发中的重要性是众所周知的,它直接关乎着油气井的产量。因此,研究分析造成射孔深度的误差然后采取相应的措施将其降到最小限度是非常重要的,是任何研究所都一直在攻克的难关。本文所研究的磁法孔眼正是帮助用户分析、计算、审核射孔过程中产生深度精准度误差的原因。如果是设备自身误差过大就及时通知试采大队及时更新设备,如果是地层土壤的酸碱性导致误差过大就另寻射孔口或者添加化学成分却减小误差,如果是人为射孔操作导致误差过大就加强对射孔工作人员的培训,提高作者人员的操作熟练度、降低设备自身误差、改造环境自然因素等等,都只是为了提高射孔深度的精准度,确保射孔工作能够准确、顺利的完成,保证既不浪费国家财产又能保证油气井的产量,实现石油的合理开发。
本文以一体化网络测井处理解释软件平台为依托,开发实现了磁法孔眼的功能,磁法孔眼是从实际生产需要出发,在相关技术进行了充分调研的基础上开发的,它要求对射孔的技术原理要有充分的了解,现场观看和学习整个射孔流程,总结统计射孔过程中的各项参数,分析设计出合理的磁法孔眼系统。本系统正是基于采油需要所开发的——磁法孔眼模块,它帮助用户计算、分析、总结孔眼深度的误差,提示用户那些参数过大什么地方应该及时修正等。本系统已经在实际开采中得到应用,为测井人员了解实际射孔情况提供了详实的理论依据,有效的帮助了射孔工作的顺利进行。
In the field of oil exploration, the major Institute for how to improve the accuracy of theperforation depth worry, because it is always the control of perforating the quality of storm, ifthe accuracy of the perforating depth is raised not up, punch oil production can not berealizedthat the oil formation can not be exploitation. However, the factors that lead to perforationdepth error in the logging and perforating operations are many, many equipment factors,natural environment and anthropogenic factors may lead to perforation depth error, the mostfrightening is that many factors accumulation, this has led to the error is more difficult tocorrect.
And the importance of perforating in oil and gas field development is well known, itdirectly for the oil and gas well production. Therefore, the study by the depth of the erroranalysis of perforation and take corresponding measures to minimize the limits are veryimportant, is any research institute has been conquer difficulties. In this paper the research ofmagnetic method is to help users controlled analysis, calculation and audit perforation depthaccuracy produced during the cause of the error. brigade to update equipment, if is thestratigraphic soil acid and alkaline cause error is too large for the perforating mouth or addchemical composition but diminish error, if is the human perforating operation lead toexcessive error is to strengthen the training of workers followed on work, improve the authorof the operators, reduce the equipment itself skilled degree error, to change the environmentof natural factors and so on, is in order to improve the accuracy of perforation depth degreeensure perforating it accurately, work done smoothly, ensure that doesn't waste state propertyand guarantee the production of oil and gas well, and realize the rational development of oil.
Based on the integrated network logging software platform based on the processing andinterpretation, the development achieved the function of the pore magnetic method, and themagnetic method from the need of the actual production controlled, in the related technologybased on the research of the fully developed, it requires followed on the technical principleshould fully understanding, the scene to watch and learn the whole process of perforation, andsummarizes the parameters in the process of perforating statistics, this paper analyzes thereasonable design of magnetic method controlled system. This system was based on thedevelopment of the oil production need-magnetic method pore module, it helps userscalculation, analysis and summary of the depth of pore error, prompt the user thoseparameters in what place should modify too. This system has been used in the practicalmining, logging staff know the actual situation of perforating has provided detailed theoreticalbasis, effective help nuclear work smoothly.
引文
[1]中国石油天然气总公司劳资局.射孔取心工[M].中国石油大学(华东)出版社,1996.
[2] Lichtenherg H D.Apparaus for Measuring Magnctic Flux Desulting from Gurrent Flow inSubsurface Csaing Using a Plurality of Fluxgate:US Pat,4.320.340[P],2002.
[3] Li Ning,Wang Caizhi,Qiao Dexin. A high2efficiency and low2costexploration data management system[R]. SPE104453,2006.
[4]雍世和,张超谟.测井数据处理与综合解释[M],油大学出版社.1996:120-130
[5]夏昕.深入浅出Hibernate[M].电子工业出版社,005:120-160.
[6] Jaroslav Tulach, Greertjan Wielenga.Rich Client Programming Plugging into theNetBeans Platform[M].Prentice Hall PTR,2007.
[7]吴亚峰,王鑫磊.NetBeans-Java桌面、Web与企业级程序开发详解.人民邮电出版社,2007.
[8]唐俊.netbeans平台软件开发单元测试技术的研究[J].电脑知识与技术·学术交流.2008,(16期):1-3.
[9]蒋静萍.中国石油承担“十五”国家科技项目数量同行第一[J].天然气工业,2005,(01)
[10]关于做好2010年度中国石油和化学工业协会科学技术奖申报的通知[J].山东农药信息,2010,(04)
[11] Lichtenherg H D.Apparaus for Measuring Magnctic Flux Desulting from Gurrent Flowin Subsurface Csaing Using a Plurality of Fluxgate:US Pat,4.320.340[P],2002.
[12]2009年度“中国石油和化工自动化行业科学技术奖”获奖公示[J].中国科技奖励,2010,(06)
[13]王春枝.西南油气田公司加速实现“52135”系列报道之一西南油气田雄起——访中国石油西南油气田公司总经理李鹭光[J].中国石油石化,2005,(19)
[14]枕戈.“忠武”传奇——中国石油管道公司攻坚忠武输气管线纪实[J].中国石油石化,2005,(20)
[15]袁伟.中国石油2005年度勘探年会在京召开力求油气勘探取得更大突破[J].国外测井技术,2005,(06)
[16]罗贞礼.“义”无反顾:成为柔性复合管的国际供应商——记河北恒安泰油管有限公司的创新发展之路[J].新材料产业,2011,(01)
[17]殷亚飞,杨庆华,郑玉生.磁法勘探在南马冢铁矿区寻找磁铁石英岩的应用[J].内蒙古石油化工,2011,(04)
[18]向运兵,吴军,叶厚余,孟宪才.谈磁法勘探中标本磁参数测定的必要性[J].西部探矿工程,2007,(03)
[19]王秋军,唐秀静,徐盈娇.磁法勘探在旺清门地区找铁矿中的应用[J].山西建筑,2011,(13)
[29]姜治民.内蒙古中部沉积变质型铁矿床的地质特征及找矿前景[J].河南理工大学学报(自然科学版),2010,(S1)
[21]韦志洪.铜陵—南陵地区航磁异常特征及找矿标志探讨[J].矿产与地质,1985,(01)
[22]黄略,金永新,侯永莉.吉林省白山地区磁异常解释推断[J].辽宁工程技术大学学报(自然科学版),2009,(S1)
[23]郭毅.高精度磁法勘探在广西贺州市富川县莲山镇山瑶田铁矿普查中的应用[J].新疆有色金属,2009,(S1)
[24]于波,翟国君,肖京国,黄谟涛,欧阳永忠.拖鱼起伏变化对磁力测量数据精度影响分析[A].《测绘通报》测绘科学前沿技术论坛摘要集[C],2008.
[25]柯泽贤,赵俊生,任来平,刘雁春.水下小目标磁探测技术数学模型研究[A].第二十一届海洋测绘综合性学术研讨会论文集[C],2009.
[26]肖胜红,边少锋.基于Matlab/GUI的全球地磁参考场计算设计与验证[A].第二十一届海洋测绘综合性学术研讨会论文集[C],2009.
[27]刘强,刘雁春,张志浩,张玉洁.海洋船载和航空磁力测量数据融合方法研究[A].第二十一届海洋测绘综合性学术研讨会论文集[C],2009.
[28]陈百军.井中磁测正演研究及中国大陆科学钻探井中磁测资料处理与解释[D].中国地质大学(北京),2006.
[29]高亚峰.科技基础条件平台下河北省基础地质及土地数据库建设的总体设想与实施[D].河北师范大学,2007.
[30]杨云涛,石志勇,吕建刚,关贞珍.适于地磁导航的高精度区域地磁场建模研究[J].兵工学报,2009,(03).
[31]殷智武,金永新.综合物探方法在内蒙隐伏铅锌矿勘查中的应用[J].辽宁科技学院学报,2009,(01).
[32]张英利,孟庆任.燕山构造带中段早白垩世盆地特征[J].吉林大学学报(地球科学版),2008,(04).
[33]卢焱,李健,白雪山,李永占.地面磁法在隐伏铁矿勘查中的应用──以河北滦平Ⅱ号铁矿为例[J].吉林大学学报(地球科学版),2008,(04).
[34]祁光,吴燕冈,严加永.磁法勘探在寻找金属非爆炸物中的应用[J].吉林大学学报(地球科学版),2008,(S1).
[35]卢焱,李健,白雪山,车延安,李永占,裴尧,宋运红.河北围场五道沟地区地面磁异常及其特征[J].吉林大学学报(地球科学版),2008,(S1).
[36]耿美霞,杨庆节.利用Welch功率谱估计方法求埋深的参数选择[J].吉林大学学报(地球科学版),2010,(S1).
[37]于波,翟国君,刘雁春,肖付民.基于小波阈值的海洋磁力测量数据消噪方法[J].测绘科学,2009,(05).
[38]卞光浪,刘雁春,翟国君,边刚,于波.基于纬差加权法的海洋磁力测量多站地磁日变改正值计算[J].测绘科学,2010,(03).
[39]田素月,王勤华,廖鸿龙.射孔深度计算的计算机处理方法[J].油气井测试.2003,12(4):41-44.
[40]许德树.航磁综合解释在中石化东北新区油气勘探中的应用[D].中国地质大学(北京),2006.
[41]陶果,多雪峰.我国地球物理测井技术的发展与战略初探.地球物理学进展.200116(3),2-3页.
[2] Lichtenherg H D.Apparaus for Measuring Magnctic Flux Desulting from Gurrent Flow inSubsurface Csaing Using a Plurality of Fluxgate:US Pat,4.320.340[P],2002.
[3] Li Ning,Wang Caizhi,Qiao Dexin. A high2efficiency and low2costexploration data management system[R]. SPE104453,2006.
[4]雍世和,张超谟.测井数据处理与综合解释[M],油大学出版社.1996:120-130
[5]夏昕.深入浅出Hibernate[M].电子工业出版社,005:120-160.
[6] Jaroslav Tulach, Greertjan Wielenga.Rich Client Programming Plugging into theNetBeans Platform[M].Prentice Hall PTR,2007.
[7]吴亚峰,王鑫磊.NetBeans-Java桌面、Web与企业级程序开发详解.人民邮电出版社,2007.
[8]唐俊.netbeans平台软件开发单元测试技术的研究[J].电脑知识与技术·学术交流.2008,(16期):1-3.
[9]蒋静萍.中国石油承担“十五”国家科技项目数量同行第一[J].天然气工业,2005,(01)
[10]关于做好2010年度中国石油和化学工业协会科学技术奖申报的通知[J].山东农药信息,2010,(04)
[11] Lichtenherg H D.Apparaus for Measuring Magnctic Flux Desulting from Gurrent Flowin Subsurface Csaing Using a Plurality of Fluxgate:US Pat,4.320.340[P],2002.
[12]2009年度“中国石油和化工自动化行业科学技术奖”获奖公示[J].中国科技奖励,2010,(06)
[13]王春枝.西南油气田公司加速实现“52135”系列报道之一西南油气田雄起——访中国石油西南油气田公司总经理李鹭光[J].中国石油石化,2005,(19)
[14]枕戈.“忠武”传奇——中国石油管道公司攻坚忠武输气管线纪实[J].中国石油石化,2005,(20)
[15]袁伟.中国石油2005年度勘探年会在京召开力求油气勘探取得更大突破[J].国外测井技术,2005,(06)
[16]罗贞礼.“义”无反顾:成为柔性复合管的国际供应商——记河北恒安泰油管有限公司的创新发展之路[J].新材料产业,2011,(01)
[17]殷亚飞,杨庆华,郑玉生.磁法勘探在南马冢铁矿区寻找磁铁石英岩的应用[J].内蒙古石油化工,2011,(04)
[18]向运兵,吴军,叶厚余,孟宪才.谈磁法勘探中标本磁参数测定的必要性[J].西部探矿工程,2007,(03)
[19]王秋军,唐秀静,徐盈娇.磁法勘探在旺清门地区找铁矿中的应用[J].山西建筑,2011,(13)
[29]姜治民.内蒙古中部沉积变质型铁矿床的地质特征及找矿前景[J].河南理工大学学报(自然科学版),2010,(S1)
[21]韦志洪.铜陵—南陵地区航磁异常特征及找矿标志探讨[J].矿产与地质,1985,(01)
[22]黄略,金永新,侯永莉.吉林省白山地区磁异常解释推断[J].辽宁工程技术大学学报(自然科学版),2009,(S1)
[23]郭毅.高精度磁法勘探在广西贺州市富川县莲山镇山瑶田铁矿普查中的应用[J].新疆有色金属,2009,(S1)
[24]于波,翟国君,肖京国,黄谟涛,欧阳永忠.拖鱼起伏变化对磁力测量数据精度影响分析[A].《测绘通报》测绘科学前沿技术论坛摘要集[C],2008.
[25]柯泽贤,赵俊生,任来平,刘雁春.水下小目标磁探测技术数学模型研究[A].第二十一届海洋测绘综合性学术研讨会论文集[C],2009.
[26]肖胜红,边少锋.基于Matlab/GUI的全球地磁参考场计算设计与验证[A].第二十一届海洋测绘综合性学术研讨会论文集[C],2009.
[27]刘强,刘雁春,张志浩,张玉洁.海洋船载和航空磁力测量数据融合方法研究[A].第二十一届海洋测绘综合性学术研讨会论文集[C],2009.
[28]陈百军.井中磁测正演研究及中国大陆科学钻探井中磁测资料处理与解释[D].中国地质大学(北京),2006.
[29]高亚峰.科技基础条件平台下河北省基础地质及土地数据库建设的总体设想与实施[D].河北师范大学,2007.
[30]杨云涛,石志勇,吕建刚,关贞珍.适于地磁导航的高精度区域地磁场建模研究[J].兵工学报,2009,(03).
[31]殷智武,金永新.综合物探方法在内蒙隐伏铅锌矿勘查中的应用[J].辽宁科技学院学报,2009,(01).
[32]张英利,孟庆任.燕山构造带中段早白垩世盆地特征[J].吉林大学学报(地球科学版),2008,(04).
[33]卢焱,李健,白雪山,李永占.地面磁法在隐伏铁矿勘查中的应用──以河北滦平Ⅱ号铁矿为例[J].吉林大学学报(地球科学版),2008,(04).
[34]祁光,吴燕冈,严加永.磁法勘探在寻找金属非爆炸物中的应用[J].吉林大学学报(地球科学版),2008,(S1).
[35]卢焱,李健,白雪山,车延安,李永占,裴尧,宋运红.河北围场五道沟地区地面磁异常及其特征[J].吉林大学学报(地球科学版),2008,(S1).
[36]耿美霞,杨庆节.利用Welch功率谱估计方法求埋深的参数选择[J].吉林大学学报(地球科学版),2010,(S1).
[37]于波,翟国君,刘雁春,肖付民.基于小波阈值的海洋磁力测量数据消噪方法[J].测绘科学,2009,(05).
[38]卞光浪,刘雁春,翟国君,边刚,于波.基于纬差加权法的海洋磁力测量多站地磁日变改正值计算[J].测绘科学,2010,(03).
[39]田素月,王勤华,廖鸿龙.射孔深度计算的计算机处理方法[J].油气井测试.2003,12(4):41-44.
[40]许德树.航磁综合解释在中石化东北新区油气勘探中的应用[D].中国地质大学(北京),2006.
[41]陶果,多雪峰.我国地球物理测井技术的发展与战略初探.地球物理学进展.200116(3),2-3页.