高电压技术
高電壓技術
고전압기술
HIGH VOLTAGE ENGINEERING
2012年
7期
1711-1718
,共8页
严辉%黄逸凡%裴彦良%刘振%王揆洋%刘保华%闫克平
嚴輝%黃逸凡%裴彥良%劉振%王揆洋%劉保華%閆剋平
엄휘%황일범%배언량%류진%왕규양%류보화%염극평
等离子体震源(PSS)%海洋勘探%水中放电%等离子体%气泡脉动%声波辐射
等離子體震源(PSS)%海洋勘探%水中放電%等離子體%氣泡脈動%聲波輻射
등리자체진원(PSS)%해양감탐%수중방전%등리자체%기포맥동%성파복사
plasma seismic source (PSS)%seismic exploration%underwater discharge%plasma%bubble oscillation%acoustic emission
为了满足现代海洋高分辨率地震勘探对发射震源在声信号特性、重复性、稳定性等方面的要求,介绍了一种等离子体震源(PSS)系统及在该方面的应用。针对基于海水中脉冲电晕放电技术开发的等离子体震源设备,分别从电路基础分析、等离子体放电过程和气泡脉动、脉冲声波辐射3个方面进行了理论分析和实验研究,给出了单电极条件下电源能量效率、气泡脉动、声波辐射的实验结果。同时介绍了近9a来等离子体震源的研发历程,单脉冲能量为500J、10kJ、50kJ等典型样机的设计参数和设备特点,阐述了设备在高分辨率海洋地震勘探领域的成功应用,以及在水声领域的应用前景。
為瞭滿足現代海洋高分辨率地震勘探對髮射震源在聲信號特性、重複性、穩定性等方麵的要求,介紹瞭一種等離子體震源(PSS)繫統及在該方麵的應用。針對基于海水中脈遲電暈放電技術開髮的等離子體震源設備,分彆從電路基礎分析、等離子體放電過程和氣泡脈動、脈遲聲波輻射3箇方麵進行瞭理論分析和實驗研究,給齣瞭單電極條件下電源能量效率、氣泡脈動、聲波輻射的實驗結果。同時介紹瞭近9a來等離子體震源的研髮歷程,單脈遲能量為500J、10kJ、50kJ等典型樣機的設計參數和設備特點,闡述瞭設備在高分辨率海洋地震勘探領域的成功應用,以及在水聲領域的應用前景。
위료만족현대해양고분변솔지진감탐대발사진원재성신호특성、중복성、은정성등방면적요구,개소료일충등리자체진원(PSS)계통급재해방면적응용。침대기우해수중맥충전훈방전기술개발적등리자체진원설비,분별종전로기출분석、등리자체방전과정화기포맥동、맥충성파복사3개방면진행료이론분석화실험연구,급출료단전겁조건하전원능량효솔、기포맥동、성파복사적실험결과。동시개소료근9a래등리자체진원적연발역정,단맥충능량위500J、10kJ、50kJ등전형양궤적설계삼수화설비특점,천술료설비재고분변솔해양지진감탐영역적성공응용,이급재수성영역적응용전경。
To meet the requirements of modern marine high resolution seismic exploration where sound source can generate repetitive, stable and specific acoustic emission, plasma seismic source (PSS) for marine high resolution seismic exploration is described which is based on plasma corona discharge in sea water. Intensive shockwaves are produced when electrical energy stored in capacitors is dumped through electrohydraulic discharge. Pulsed power technology, pulsed corona discharge process, dynamics of bubble oscillation and acoustical emissions are theoretically and experimentally studied. Experimental results of power efficiency of power source, bubble dynamics and acoustical emissions are presented and discussed. After 9 years research and development, PSS has been successfully applied in high resolution seismic exploration, showing a good prospect in underwater acoustic applications. Three typical prototypes of PSS with discharge energies of 500 J per pulse, 10 kJ per pulse and 50 kJ per pulse have been developed, their parameters and advantages are also presented.
