Geological radar probing technology finds wide application in engineering projects. The high-precision characteristics of geologic radar should be studied in connection with fine processing and interpretation. This ar...Geological radar probing technology finds wide application in engineering projects. The high-precision characteristics of geologic radar should be studied in connection with fine processing and interpretation. This article discusses such issues as (1) geologic radar noise source and (2) fine processing and interpretation of radar data. It is focused on how to achieve fine processing and interpretation.展开更多
Shallow Guantao Group channel sand body oil and gas reservoir is an important part of Shengli Oilfields oil and gas reserves upgrading, and also an important practical position to increase oil reserves and production ...Shallow Guantao Group channel sand body oil and gas reservoir is an important part of Shengli Oilfields oil and gas reserves upgrading, and also an important practical position to increase oil reserves and production for a period of time. For the evaluation of Guantao Group channel sand body type oil and gas reservoirs, accurate description of oil and gas traps is the key. However, affected by the quality of seismic data, the accuracy of structural interpretation of Guantao Group has always been low, especially the large error of the fault system combination of low order faults, which directly led to the deviation of the subsequent comprehensive evaluation of oil reservoirs and target selection. Therefore, it is urgent to summarize and improve a set of targeted structural interpretation scheme of Guantao Group, and realize the oil and gas evaluation of target reservoirs under the guidance of the accurate interpretation mode, so as to improve the quality of exploration and development. Based on this, this paper takes the Guantao Group in Chengdong area of Zhanhua sag in Jiyang sag as an example, aiming at the difficulties of structural interpretation in this area, with the help of Bonan-2021 full node high-density 3D seismic data, effectively uses high-precision coherence, dip angle, ant body, fault coherence enhancement and other technologies, and finely implements the structural pattern of Guantao Group in Chengdong area through hierarchical control mode, so as to provide detailed basic seismic data for the subsequent fine evaluation of oil and gas reservoirs in this area.展开更多
基金This project is sponsored by The Special Fund of Scientific Instruments of National Natural Science Foundation of China(50127402) and The Geophysical Responses to The High-resolution Exploration for Coal-methane of 973 Program(2002CB211707).
文摘Geological radar probing technology finds wide application in engineering projects. The high-precision characteristics of geologic radar should be studied in connection with fine processing and interpretation. This article discusses such issues as (1) geologic radar noise source and (2) fine processing and interpretation of radar data. It is focused on how to achieve fine processing and interpretation.
文摘Shallow Guantao Group channel sand body oil and gas reservoir is an important part of Shengli Oilfields oil and gas reserves upgrading, and also an important practical position to increase oil reserves and production for a period of time. For the evaluation of Guantao Group channel sand body type oil and gas reservoirs, accurate description of oil and gas traps is the key. However, affected by the quality of seismic data, the accuracy of structural interpretation of Guantao Group has always been low, especially the large error of the fault system combination of low order faults, which directly led to the deviation of the subsequent comprehensive evaluation of oil reservoirs and target selection. Therefore, it is urgent to summarize and improve a set of targeted structural interpretation scheme of Guantao Group, and realize the oil and gas evaluation of target reservoirs under the guidance of the accurate interpretation mode, so as to improve the quality of exploration and development. Based on this, this paper takes the Guantao Group in Chengdong area of Zhanhua sag in Jiyang sag as an example, aiming at the difficulties of structural interpretation in this area, with the help of Bonan-2021 full node high-density 3D seismic data, effectively uses high-precision coherence, dip angle, ant body, fault coherence enhancement and other technologies, and finely implements the structural pattern of Guantao Group in Chengdong area through hierarchical control mode, so as to provide detailed basic seismic data for the subsequent fine evaluation of oil and gas reservoirs in this area.
