一种适用于沿海滩涂区的浅层高精度地震探测技术

doi:10.11720/wtyht.2019.0040

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Abstract

Due to the restriction of geological detection equipment and tidal time,the degree of geological exploration in coastal tidal-flat areas is low and the detection accuracy is insufficient,which cannot meet the demand of high-precision geological survey in this area.Conventional shallow seismic exploration technology can effectively detect Quaternary bottom interface and internal horizons in the coastal tidal flats,but it has a complex and inefficient data-acquisition equipment,which directly restricts the progress of seismic exploration in this area.Therefore,this paper proposes a high-precision shallow seismic detection technology which is suitable for coastal tidal-flat areas.It can effectively solve the above difficulties by making full use of the surface characteristics in coastal tidal flats and using modified towed seismic detection equipment to acquire field data,thus providing a new idea for seismic detection in this area.At the same time,a set of seismic signal extraction process and method combinations are made for coastal tidal-flat areas,which can retain effective seismic reflection information to the greatest extent and restore the underground geological structure.The results of the application show that the technology can provide reliable data support for the fine division of subsurface in the coastal tidal flats.

Key words： coastal tidal-flat area towed high-precision shallow seismic detection

Received: 13 February 2019 Published: 28 November 2019

P631.4

Corresponding Authors: Bao-Wei ZHANG E-mail: zhangbaowei@igge.cn

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	Articles by authors
	Hang-Yu YUE
	Bao-Wei ZHANG
	Kai WANG
	Jin-Li LI
	Guang-Ke WANG
	De-Yuan CHEN

Cite this article:

Hang-Yu YUE,Bao-Wei ZHANG,Kai WANG, et al. A technology applied to shallow high-precision seismic detection in coastal tidal flats[J]. Geophysical and Geochemical Exploration, 2019, 43(6): 1225-1235.

URL:

https://www.wutanyuhuatan.com/EN/10.11720/wtyht.2019.0040 OR https://www.wutanyuhuatan.com/EN/Y2019/V43/I6/1225

Study area of coastal tidal flats

Field work map of towed shallow high-precision seismic detection in coastal tidal-flat area

Basic parameters of field seismic acquisition

Daily workload statistics

Continuous single-shot seismic record of field quality control

Spectrum of the effective reflections

The original record of a certain three shots on the seismic survey in coastal tidal-flat area

Extraction flow chart of seismic detected signal in coastal tidal-flat area

Comparison of single-shot record before(a)and after(b) noise attenuation

Comparison of single-shot record before(a)and after(b) true-amplitude recovery

Comparison of single-shot record before(a)and after(b) deconvolution

Spectrum comparison of single-shot record before(a) and after(b) deconvolution

Autocorrelation of single-shot record before(a) and after(b) deconvolution

Velocity spectrum of a CMP control point in detailed velocity analysis

Comparison of single-shot record before and after NMO and cutting
a—before NMO;b—after NMO;c—after cutting

Stack section of towed shallow high-precision seismic detection in coastal tidal-flat area

Stack section spectrum of towed shallow high-precision seismic detection in coastal tidal-flat area

[1]	章志, 宋晓村, 邱宇 , 等. 江苏沿海滩涂资源开发利用研究[J]. 海洋开发与管理, 2015,3:45-49.
[1]	Zhang Z, Song X C, Qiu Y , et al. Study on development and utilization of coastal mudflat resources in Jiangsu[J]. Ocean Development and Management, 2015,3:45-49.
[2]	张晓祥, 严长清, 徐盼 , 等. 近代以来江苏沿海滩涂围垦历史演变研究[J]. 地理学报, 2013,68(11):1549-1558.
[2]	Zhang X X, Yan C Q, Xu P , et al. Historical evolution of tidal flat reclamation in the Jiangsu coastal areas[J]. Acta Geographica Sinica, 2013,68(11):1549-1558.
[3]	刘康, 陈伟, 吴群 . 沿海滩涂耕地后备资源开发适宜性评价——以江苏省盐城市为例[J]. 农业现代化研究, 2014,35(4):430-436.
[3]	Liu K, Chen W, Wu Q . Suitability of reserved coastal mudflat for land development-a case study in Yancheng,Jiangsu Province[J]. Research of Agricultural Modernization, 2014,35(4):430-436.
[4]	徐彩瑶, 濮励杰, 朱明 . 沿海滩涂围垦对生态环境的影响研究进展[J]. 生态学报, 2018,38(3):1148-1161.
[4]	Xu C Y, Pu L J, Zhu M. Effect of reclamation activity on coastal ecological environment:progress and perspectives[J]. Acta EcologicaSinica, 2018,38(3):1148-1161.
[5]	崔汝国, 王彦春, 曹国滨 , 等. 胜利油田滩浅海地区地震勘探技术[J]. 物探与化探, 2006,30(5):441-445.
[5]	Cui R G, Wang Y C, Cao G B . The application of seismic exploration technique to the beach and shallow sea area of the Shengli Oilfield[J]. Geophysical and Geochemical Exploration, 2006,30(5):441-445.
[6]	LaFehr E D, Blume F, Weber W S , et al. Seismic acquisition and processing in the tidal zone,Cook Inlet,Alaska:an integrated approach[J]. SEG Technical Program Expanded Abstracts, 1990: 899-902.
[7]	崔汝国, 曹国滨 . 垦东滩浅海地区地震勘探技术[J]. 石油地球物理勘探, 2008,43(s2):21-24.
[7]	Cui R G, Cao G B . Seismic exploration technique in Kendong beach and shallow-sea area[J]. Oil Geophysical Prospecting, 2008,43(s2):21-24.
[8]	朱健, 王瑞雪 . 滩浅海地震勘探几种常见问题探讨[J]. 复杂油气藏, 2012,5(2):32-35.
[8]	Zhu J, Wang R X . Discussion of several common problems encountered in seismic exploration of paralic zone[J]. Complex Hydrocarbon Reservoirs, 2012,5(2):32-35.
[9]	陈新荣, 李继光, 顾庆雷 , 等. 胜利青东5探区滩浅海资料处理技术[J]. 物探与化探, 2011,35(3):393-397.
[9]	Chen X R, Li J G, Gu Q L , et al. Research on processing techniques for seismic data from the tidal zone and shallow water area of Qingdong5 exploration zone in the Shengli Oilfield[J]. Geophysical and Geochemical Exploration, 2011,35(3):393-397.
[10]	李丕龙, 宋玉龙, 王新红 , 等. 滩浅海地区高精度地震勘探技术[M]. 北京: 石油工业出版社, 2006.
[10]	Li P L, Song Y L, Wang X H , et al. High-precision seismic exploration technology in shoals and shallow seas[M]. Beijing: Petroleum Industry Press, 2006.
[11]	陈浩林, 张保庆, 叶苑权 , 等. 滩浅海地震勘探关键技术及其应用[M]. 北京: 石油工业出版社, 2014.
[11]	Chen H L, Zhang B Q, Ye Y Q , et al. Key techniques and applications of seismic exploration in shoals and shallow seas[M]. Beijing: Petroleum Industry Press, 2014.
[12]	徐明才, 高景华, 刘建勋 , 等. 城市地震勘探[M]. 北京: 地质出版社, 2011.
[12]	Xu M C, Gao J H, Liu J X , et al. Urban seismic exploration[M]. Beijing: Geological Publishing House, 2011.
[13]	赵镨, 姜杰, 王秀荣 . 城市地下空间探测关键技术及发展趋势[J]. 中国煤炭地质, 2017,29(9):61-66.
[13]	Zhao P, Jiang J, Wang X R , et al. Urban underground space exploration key technologies and development trend[J]. Coal Geology of China, 2017,29(9):61-66.
[14]	李万伦, 田黔宁, 刘素芳 , 等. 城市浅层地震勘探技术进展[J]. 物探与化探, 2018,42(4):653-661.
[14]	Li W L, Tian Q N, Liu S F , et al. Progress in the study of shallow seismic exploration technology in urban areas[J]. Geophysical and Geochemical Exploration, 2018,42(4):653-661.
[15]	聂碧波, 赵建明, 郦逸根 , 等. 浅层地震勘探在城市活断层探测中的应用[J]. 工程地球物理学报, 2015,12(1):15-21.
[15]	Nie B B, Zhao J M, Li Y G , et al. The comprehensive application of shallow seismic prospecting method to urban active fault detection[J]. Chinese Journal of Engineering Geophysics, 2015,12(1):15-21.
[16]	Pujol J, Bartholomew M J, Mickelson A , et al. Shallow seismic detection of the fault zone associated with a high scarp in southwestern Montana[J]. Interpretation, 2015,3(1):25-41.
[17]	Li D H, Liao H, Ding Z F , et al. Detection of the Shuangshi-Dachuan fault using shallow seismic reflection in the southern section of the Longmenshan fault zone[J]. Journal of Environmental and Engineering Geophysics, 2016,21(4):161-172.
[18]	刘建勋, 张保卫, 王小江 , 等. 羌塘盆地浅层地震探测方法技术[J]. 物探与化探, 2015,39(4):678-685.
[18]	Liu J X, Zhang B W, Wang X J , et al. The method for shallow seismic exploration in Qiangtang basin[J]. Geophysical and Geochemical Exploration, 2015,39(4):678-685.
[19]	徐明才, 刘建勋, 柴铭涛 , 等. 青海木里地区天然气水合物反射地震试验研究[J]. 地质与勘探, 2012,48(6):1180-1187.
[19]	Xu M C, Liu J X, Chai M T , et al. An experimental study of natural gas hydrates in the Muli region,Qinghai Province by the seismic reflection method[J]. Geology and Exploration, 2012,48(6):1180-1187.
[20]	王新全, 刘晖, 王林 , 等. 南祁连盆地天然气水合物地震勘探技术[J]. 石油地球物理勘探, 2017,52(4):644-650.
[20]	Wang X Q, Liu H, Wang L , et al. Seismic exploration for natural gas hydrate in the South Qilian basin[J]. Oil Geophysical Prospecting, 2017,52(4):644-650.
[21]	岳航羽, 张凯, 王小江 , 等. 陆域冻土区地震探测信号提取技术——以青海哈拉湖地区为例[J]. 物探与化探, 2017,41(6):1183-1189.
[21]	Yue H Y, Zhang K, Wang X J , et al. Extraction technology of seismic detection signal in land permafrost area:a case study of Halahu area in Qinghai[J]. Geophysical and Geochemical Exploration, 2017,41(6):1183-1189.
[22]	徐明才, 高景华, 柴铭涛 , 等. 金属矿地震勘探[M]. 北京: 地质出版社, 2009.
[22]	Xu M C, Gao J H, Chai M T , et al. Seismic survey for mineral exploration[M]. Beijing: Geological Publishing House, 2009.
[23]	张保卫, 张凯, 岳航羽 , 等. 江苏滩涂区浅层地震探测方法技术应用[J]. 物探与化探, 2018,42(1):144-153.
[23]	Zhang B W, Zhang K, Yue H Y , et al. Application of shallow seismic exploration method in tidal-flat region of Jiangsu Province[J]. Geophysical and Geochemical Exploration, 2018,42(1):144-153.