物探与化探
物探與化探
물탐여화탐
Geophysical and Geochemical Exploration
2015年
5期
994-1000
,共7页
李培培%刘志国%杨松岭%闫青华%李春鹏
李培培%劉誌國%楊鬆嶺%閆青華%李春鵬
리배배%류지국%양송령%염청화%리춘붕
时深转换%虚拟井%速度场%海水校正%地层约束
時深轉換%虛擬井%速度場%海水校正%地層約束
시심전환%허의정%속도장%해수교정%지층약속
time-depth conversion%virtual well%velocity field%water correction%stratigraphic constraint
针对海外新区新领域勘探时面临的地质条件复杂、水深变化大、钻井稀缺且分布不均、速度资料缺乏等问题,常规的方法往往难以进行精细的时深转换。为了有效落实构造,笔者提出借用地震资料和仅有的井资料来构建虚拟井进行无井区域的定量化表征,合理构建虚拟井,有效降低速度场建立的不确定性。利用虚拟井约束速度场建立,为无井或少井、水深变化大、地层变化剧烈地区的时深转换提供了一种切实可行的选择,有效地提高了时深转换的精度,为圈闭优选以及有利目标评价奠定坚实的基础,从而降低勘探风险。
針對海外新區新領域勘探時麵臨的地質條件複雜、水深變化大、鑽井稀缺且分佈不均、速度資料缺乏等問題,常規的方法往往難以進行精細的時深轉換。為瞭有效落實構造,筆者提齣藉用地震資料和僅有的井資料來構建虛擬井進行無井區域的定量化錶徵,閤理構建虛擬井,有效降低速度場建立的不確定性。利用虛擬井約束速度場建立,為無井或少井、水深變化大、地層變化劇烈地區的時深轉換提供瞭一種切實可行的選擇,有效地提高瞭時深轉換的精度,為圈閉優選以及有利目標評價奠定堅實的基礎,從而降低勘探風險。
침대해외신구신영역감탐시면림적지질조건복잡、수심변화대、찬정희결차분포불균、속도자료결핍등문제,상규적방법왕왕난이진행정세적시심전환。위료유효락실구조,필자제출차용지진자료화부유적정자료래구건허의정진행무정구역적정양화표정,합리구건허의정,유효강저속도장건립적불학정성。이용허의정약속속도장건립,위무정혹소정、수심변화대、지층변화극렬지구적시심전환제공료일충절실가행적선택,유효지제고료시심전환적정도,위권폐우선이급유리목표평개전정견실적기출,종이강저감탐풍험。
In the light of the geological conditions of the new exploration field abroad characterized by complexity,varying water depth, scarcity and uneven distribution of drill holes,and lack of velocity data,it is often difficult for conventional methods to carry out fine time depth conversion.In order to effectively detect the structure,this paper proposes using seismic data and the available well data to build virtual wells for quantitative characterization in no?well area.The reasonable construction of virtual wells can effectively reduce the uncertainty of the velocity field's establishment,ultimately improve the time?depth conversion accuracy of the study area,and lay a solid foundation for the optimization of traps and evaluation of favorable targets,so as to reduce the risk of exploration.Using the establishment of virtual well constrained velocity field,such a means provides a feasible choice of time depth conversion in the area characterized by no or few wells,remarkable varying water depth,and drastic stratigraphic change,thus effectively improving the accuracy of time?depth conversion.