物探与化探
物探與化探
물탐여화탐
GEOPHYSICAL AND GEOCHEMICAL EXPLORATION
2014年
3期
582-586
,共5页
白旭明%崔宏良%袁胜辉%刘江涛%程展展%胡清
白旭明%崔宏良%袁勝輝%劉江濤%程展展%鬍清
백욱명%최굉량%원성휘%류강도%정전전%호청
折射静校正%时距曲线%高频静校正量%山体速度调查%综合静校正
摺射靜校正%時距麯線%高頻靜校正量%山體速度調查%綜閤靜校正
절사정교정%시거곡선%고빈정교정량%산체속도조사%종합정교정
refraction statics%time-distance curve%high frequency statics%mountain speed survey%comprehensive statics
复杂地区地表结构复杂,表层速度和厚度呈现非均质性的特点。随着勘探工作的深入和勘探地区的复杂化,静校正问题变得越来越突出,甚至严重地困扰了地震采集工作的开展。为了大幅度地提高复杂探区的地震资料处理成果精度,满足精细油气藏勘探的需求,笔者针对复杂探区表层结构的多解性、表层吸收衰减的严重性、资料的信噪比和分辨率低、成像困难等勘探难点,开展了大量的静校正方法攻关研究,形成了基于单炮初至折射波的高低频分离和综合静校正技术。通过应用,地震资料的信噪比得到大幅度提高,成像效果好,解决短波长问题的同时,较好地解决了长波长问题,取得了良好的勘探效果。
複雜地區地錶結構複雜,錶層速度和厚度呈現非均質性的特點。隨著勘探工作的深入和勘探地區的複雜化,靜校正問題變得越來越突齣,甚至嚴重地睏擾瞭地震採集工作的開展。為瞭大幅度地提高複雜探區的地震資料處理成果精度,滿足精細油氣藏勘探的需求,筆者針對複雜探區錶層結構的多解性、錶層吸收衰減的嚴重性、資料的信譟比和分辨率低、成像睏難等勘探難點,開展瞭大量的靜校正方法攻關研究,形成瞭基于單砲初至摺射波的高低頻分離和綜閤靜校正技術。通過應用,地震資料的信譟比得到大幅度提高,成像效果好,解決短波長問題的同時,較好地解決瞭長波長問題,取得瞭良好的勘探效果。
복잡지구지표결구복잡,표층속도화후도정현비균질성적특점。수착감탐공작적심입화감탐지구적복잡화,정교정문제변득월래월돌출,심지엄중지곤우료지진채집공작적개전。위료대폭도지제고복잡탐구적지진자료처리성과정도,만족정세유기장감탐적수구,필자침대복잡탐구표층결구적다해성、표층흡수쇠감적엄중성、자료적신조비화분변솔저、성상곤난등감탐난점,개전료대량적정교정방법공관연구,형성료기우단포초지절사파적고저빈분리화종합정교정기술。통과응용,지진자료적신조비득도대폭도제고,성상효과호,해결단파장문제적동시,교호지해결료장파장문제,취득료량호적감탐효과。
Surface velocity and thickness show heterogeneity in complex areas. With the increasingly deep exploration and the complexi-ty of the surveyed areas, static correction problems become more and more prominent and even seriously trouble the seismic acquisition. In order to greatly improve the data quality and imaging precision in the complex seismic exploration areas and meet the needs of the fine oil and gas accumulation exploration in these complex exploration areas characterized by multiple solutions of the surface structure, serious surface adsorption attenuation, low S/N ratios and resolutions and difficult imaging, the authors carried out detailed studies of the statics method based on the FBT of a single source, performed the high and low frequency static separation and integrated the static correction technology. The application of the statics technology shows that S/N can be greatly improved, and good imaging effects can be obtained. The technology can solve not only short wavelength problems but also the long wavelengths problem, thus achieving good exploration results.