电子设计工程
電子設計工程
전자설계공정
ELECTRONIC DESIGN ENGINEERING
2012年
23期
187-189,192
,共4页
张会先%尚海燕%周静%彭琰举
張會先%尚海燕%週靜%彭琰舉
장회선%상해연%주정%팽염거
钻杆信道%声波传输%S参数%Simulink仿真
鑽桿信道%聲波傳輸%S參數%Simulink倣真
찬간신도%성파전수%S삼수%Simulink방진
drill pipe channel%acoustic transmission%S parameter%Simulink simulation
为利用钻杆有效地随钻传输地面与井下之间的数据。本文应用声波无缝传输模型将任意钻柱组合分解为单个声波无缝传榆模型级联方法.根据某单个典型钻具无缝传输模型系统函数的S参数和声波钻井信道的传输特性,推导了在信道通带内某一频点等效传输函数.在Simulink环境下仿真了该S参数的等效传输函数,并仿真了将双口网络S参数构成单钻具系统函数进行级联构成多个钻具的联接的系统函数。最后根据双口网络参数性质,多钻具级联的系统函数等效为各级T参数的连乘,将S参数转化为T参数,得到多个相同钻杆级联后的模型系统函数特性,仿真结果将对随钻声波传输仪器的方案设计提供有力的技术支持。
為利用鑽桿有效地隨鑽傳輸地麵與井下之間的數據。本文應用聲波無縫傳輸模型將任意鑽柱組閤分解為單箇聲波無縫傳榆模型級聯方法.根據某單箇典型鑽具無縫傳輸模型繫統函數的S參數和聲波鑽井信道的傳輸特性,推導瞭在信道通帶內某一頻點等效傳輸函數.在Simulink環境下倣真瞭該S參數的等效傳輸函數,併倣真瞭將雙口網絡S參數構成單鑽具繫統函數進行級聯構成多箇鑽具的聯接的繫統函數。最後根據雙口網絡參數性質,多鑽具級聯的繫統函數等效為各級T參數的連乘,將S參數轉化為T參數,得到多箇相同鑽桿級聯後的模型繫統函數特性,倣真結果將對隨鑽聲波傳輸儀器的方案設計提供有力的技術支持。
위이용찬간유효지수찬전수지면여정하지간적수거。본문응용성파무봉전수모형장임의찬주조합분해위단개성파무봉전유모형급련방법.근거모단개전형찬구무봉전수모형계통함수적S삼수화성파찬정신도적전수특성,추도료재신도통대내모일빈점등효전수함수.재Simulink배경하방진료해S삼수적등효전수함수,병방진료장쌍구망락S삼수구성단찬구계통함수진행급련구성다개찬구적련접적계통함수。최후근거쌍구망락삼수성질,다찬구급련적계통함수등효위각급T삼수적련승,장S삼수전화위T삼수,득도다개상동찬간급련후적모형계통함수특성,방진결과장대수찬성파전수의기적방안설계제공유력적기술지지。
For making the drill pipes work effectively with oil rig on the transmission of data between well bottom and the surface, this article analyzes random drill column combination to be single Acoustic seamless transfer of model cascade methods by using acoustic transmission model, According to one typical S-parameter form of drill seamless transfer of model function and the characteristics of Sonic drilling channel ,which analyzes S-parameters of a frequency transfer function inside the Channel pass band, imitating the characteristics of S-parameters under the environment of Simulink along with the multiple drill connected system functions which cascaded by the Single drill system functions constituted by Dual-port network S- parameters. Lastly according to the characteristics of Dual-port network parameters, Multiple drill cascade system functions are equivalent to All levels of T parameter multiplicative, exchanging S-parameters to T-parameters, then it will show the characteristics of model system functions cascaded by dozens of the same drill pipe, the outcome of imitation will provide strong technical support to the project of while-drilling the acoustic transmission equipment.