<em id="t3tdf"></em>

        <sup id="t3tdf"><menu id="t3tdf"></menu></sup>
            <div id="t3tdf"></div>

              <sup id="t3tdf"></sup>
              <em id="t3tdf"><tr id="t3tdf"><mark id="t3tdf"></mark></tr></em>
              <em id="t3tdf"></em><dl id="t3tdf"><meter id="t3tdf"></meter></dl>

                [1]刘涛,朱礼斌,杨先辉,等.基于电磁波的井下压裂无线传输信道性能 分析研究[J].测井技术,2018,42(06):715-719.[doi:10.16489/j.issn.1004-1338.2018.06.020]
                LIU Tao,ZHU Libin,YANG Xianhui,et al.Performance Analysis of Downhole Fracturing Wireless Transmission Channel Based on Electromagnetic Wave[J].WELL LOGGING TECHNOLOGY,2018,42(06):715-719.[doi:10.16489/j.issn.1004-1338.2018.06.020]
                点击复制

                基于电磁波的井下压裂无线传输信道性能 分析研究()
                分享到

                测井技术[ISSN:1004-1338/CN:61-1223/TE]

                卷:
                第42卷
                期数:
                2018年06期
                页码:
                715-719
                栏目:
                测井仪器
                出版日期:
                2018-12-31

                文章信息/Info

                Title:
                Performance Analysis of Downhole Fracturing Wireless Transmission Channel Based on Electromagnetic Wave
                文章编号:
                1004-1338(2018)06-0715-05
                作者:
                刘涛1朱礼斌1杨先辉1任永宏1李拥军2蔡军2程晓东2
                1.中国石油集团渤海钻探工程有限公司油气井测试分公司,河北廊坊065007; 2.中国石油华北油田公?#31350;?#25506;事业部,河北任丘062552
                Author(s):
                LIU Tao1ZHU Libin1YANG Xianhui1REN Yonghong1LI Yongjun2CAI Jun2CHENG Xiaodong2
                1. Well Testing Sub-company, Bohai Drilling Engineering Company Limited, Langfang, Hebei 065007, China; 2. Exploration Department, Huabei Oilfield Company, CNPC, Renqiu, Hebei 062552, China
                关键词:
                测井仪器井下压裂测试无线信道电磁波
                Keywords:
                logging tool downhole fracturing testing wireless channel electrometric wave
                分类号:
                P63183
                DOI:
                10.16489/j.issn.1004-1338.2018.06.020
                文献标志码:
                A
                摘要:
                通过基于电磁波的无线传输技术实?#34987;?#24471;井下数据,可有效完善压裂效果,实时监测提高试井成功率,解决测试的盲目性设计一种基于电磁波的井下数据无线传输系统,以信息标签为媒介,随着液体在井筒内循环,通过改进算法,可实现井下关键时刻数据的实时传输,并对井下无线传输信道进行分析,提出基于多发单收模式的传输模型,并对其性能进行了仿真分析,该模型可以较好地反映信道的特性;进行了样机制作和实验,结果表明该系统可有效实现井下数据的实时传输
                Abstract:
                Real-time acquisition of downhole data through electromagnetic wave wireless transmission technology can effectively improve the fracturing effect, and real-time monitoring can also improve the success rate of test wells and solves the blindness of testing. In this paper, a wireless transmission system based on electromagnetic waves is designed. The system uses information tags as the medium. As the liquid circulates in the wellbore, the real-time transmission of data at critical moments can be realized through improved algorithms. In addition, through the analysis of the underground wireless transmission channel, this paper also proposes a transmission model based on multi-issue single-receive mode and simulates its performance. The model can better reflect the characteristics of the channel. Finally, the prototype is also produced and experimented. The results show that the system can effectively realize the real-time transmission of downhole data.

                参考文献/References:

                1刘岩岩. 基于石油井下射频滑套设备的技术研究 D. 沈阳: 沈阳航空航天大学, 2016.
                2张文. 井下信号传输与调理方法研究 D. 哈尔滨: 哈尔滨工程大学, 2013.
                3薛承瑾. 页岩气压裂技术现状及发展建议 J. 石油钻探技术, 2011, 39(3): 24-29.
                4彭成勇. 页岩油气水平井压?#21387;?#33402;技术展望 J. 天然气勘探与开发, 2014, 37(1): 68-71.
                5苏毛弟, 王建博, 齐辉. 斜井高频电磁波传输特性的研究 J. 工矿自动化, 2009, 17(1): 11-15.
                6朱祖扬, 张卫, 杨明清, 等. 基于微芯片技术的全井筒压力温度采集器 J. 测井技术, 2015, 39(3): 339 -342.
                7倪卫宁, 刘建华, 张卫, 等. 基于无线射频识别的井下工具控制技术 J. 石油钻探技术, 2014, 42(6): 10215.
                8徐玉龙, 程智远, 刘志斌. 水平井分段压裂投球滑套承压接触分析 J. 石油机械, 2012, 40(8): 93-96.
                9JONES R. A Systematic Approach to the Integration of Upper and Lower Completion, a Strategy for Deep Gas Application CݡSPE 131774, 2010.
                10罗懿, 周勤. 水平井分段压裂壳开关滑套的研制与应用 J. 特种油气藏, 2013, 20(4): 131-137.
                11朱玉杰, 郭朝辉. 套管固井分段压裂滑套关键技术分析 J. 石油机械, 2013, 41(8): 102-106.
                12GONZALEZ L A, VALVERDE E. RFID provides multiple on-demand activation/deactivation reliability of underreaming CݡSPE 146033, 2011.
                13TOUGH J, MASON J, BIEDERMANN R. Radio frequency identification of remotely operated horizontal frac CݡSPE 143940, 2011.
                14THEODORE S RAPPAPORT. 无线通信原理与应用 M. ?#26412;? 电子工业出版社, 2012.

                相似文献/References:

                [1]岳登台.以经济效益为中心,?#24179;?#25216;术进步,闯出油田开发生产测井仪器设备发展新路CNPC油田开发生产测井仪器设备研讨会开幕词[J].测井技术,1999,23(S1):483.
                [2]赵培华.加强技术攻关,搞好科学管理,闯出市场经济下生产测井仪器设备发展之路CNPC油田开发生产测井仪器设备及应用研讨会总结[J].测井技术,1999,23(S1):485.
                [3].插针式密封导线[J].测井技术,1977,01(02):12.
                [4]朱世和,李哲,周武,等.辽河测井公司固井质?#31185;?#20215;技术[J].测井技术,2004,28(S1):13.
                ZHU Shi-he,LI Zhe,ZHOU Wu,et al.Cement Job Quality Evaluation Technology of Liaohe Wireline Services[J].WELL LOGGING TECHNOLOGY,2004,28(06):13.
                [5]?#31350;?#32534;辑部.国外测井仪器水平[J].测井技术,1978,02(01):86.
                [6]?#31350;?#32534;辑部.困难环境测井[J].测井技术,1978,02(02):70.
                [7].带有若干串接杜瓦瓶的高温测井仪器[J].测井技术,1978,02(02):76.
                [8]郝志兴.苏联七十年代石油测井水平和发展?#36739;[J].测井技术,1978,02(04):51.
                [9].测井技术现状与展望[J].测井技术,1978,02(04):55.
                [10].测井设备高温高压试验装置[J].测井技术,1978,02(05):61.

                备注/Memo

                备注/Memo:
                基金项目:中国石油天然气股份有限公司重大科技专项华北油田?#20013;?#26377;效稳产勘探开发关键技术与应用(2017E-1511) 第一作者:刘涛,男,1980年生,博士后,研究?#36739;?#20026;测井仪器信号检测E-mail:[email protected]
                更新日期/Last Update: 2018-12-31
                588Ʊ

                  <em id="t3tdf"></em>

                      <sup id="t3tdf"><menu id="t3tdf"></menu></sup>
                          <div id="t3tdf"></div>

                            <sup id="t3tdf"></sup>
                            <em id="t3tdf"><tr id="t3tdf"><mark id="t3tdf"></mark></tr></em>
                            <em id="t3tdf"></em><dl id="t3tdf"><meter id="t3tdf"></meter></dl>

                                <em id="t3tdf"></em>

                                    <sup id="t3tdf"><menu id="t3tdf"></menu></sup>
                                        <div id="t3tdf"></div>

                                          <sup id="t3tdf"></sup>
                                          <em id="t3tdf"><tr id="t3tdf"><mark id="t3tdf"></mark></tr></em>
                                          <em id="t3tdf"></em><dl id="t3tdf"><meter id="t3tdf"></meter></dl>