Physical features and influencing factors of elastic velocity of compacted sandy-conglomerates in northern steep slope,Dongying sagChinese Full Text
Luo Hongmei;Luo Xiaorong;Liu Shuhui;Institute of Geology and Geophysics,Chinese Academy of Sciences;
Abstract: There develops compacted sandy-conglomerates with giant-thickness in the northern steep slope of Dongying sag,which arecharacterized by low permeability and porosity and complicated geophysical features,and the reservoirs are difficult to be identified.More than 100 core samples from 10 wells are selected,tested and analyzed by ultrasound.Based on the analysis of the experimental data and results,we determine the reservoir physical characteristics of sandy-conglomerates in the study area and conclude that themain factors which influence the seismic velocity of sandy conglomerates are porosity and lithology,the second is the cement content,and the variation is not obvious whether the micro-fracture exists or not.When different fluids are saturated in the rocks,P-wave veloc-ity changes slightly while S-wave velocity doesn’t change.So,in the ideal state,we can identify fluid by the ratio of P-wave velocityand S-wave velocity.The relationship between the velocity and density of the rock is relatively good when the porosity is greater than 5% whilepoor when porosity less than 5%.
Keywords:
compacted sandy-conglomerate; low permeability and porosity; the reservoir physical characteristics; elastic wave velocity; Dongying sag;
- DOI:
10.13673/j.cnki.cn37-1359/te.2014.02.023
- Series:
- Subject:
- Classification Code:
P618.13
- Mobile Reading
Read on your phone instantly
Step 1Scan QR Codes
"Mobile CNKI-CNKI Express" App
Step 2Open“CNKI Express”
and click the scan icon in the upper left corner of the homepage.
Step 3
Scan QR Codes
Read this article on your phone.
- HTML
- CAJ Download
- PDF Download
Download the mobile appuse the app to scan this coderead the article.
Tips: Please download CAJViewer to view CAJ format full text.
Download: 211 Page: 91-94+117 Pagecount: 5 Size: 1453K
Citation Network
Related Literature
- Similar Article
- Reader Recommendation
- Associated Author