介绍了一套同时工作在甚高频(very high frequency,VHF)和甚低频/低频(very-low/low frequency,VLF/LF)频段的三维闪电定位系统,并给出了初步观测结果。系统使用到达时间差法对2个频段的闪电辐射源进行定位,能连续地给出雷暴过程中闪电...介绍了一套同时工作在甚高频(very high frequency,VHF)和甚低频/低频(very-low/low frequency,VLF/LF)频段的三维闪电定位系统,并给出了初步观测结果。系统使用到达时间差法对2个频段的闪电辐射源进行定位,能连续地给出雷暴过程中闪电活动空间位置,并详细给出单次闪电的发展路径,在使用2个频段辐射波形参数进行定位的同时还可以保存原始波形用于深入研究。VHF、VLF/LF 2个频段闪电定位结果的时间分辨率分别为100?s和1ms,定位精度在站网覆盖范围可优于200m。2个频段的定位结果都能很好地描述雷暴中的闪电活动,但表现出的特征有一定差异。两频段定位结果对单个闪电发生路径进行描绘时,VLF/LF频段的大部分定位结果能与VHF定位结果重叠。展开更多
In this study, the differences in reservoir parameters, such as pore radius, throat radius, and pore-throat ratio, between the east and west subsags of the Lishui Sag are analyzed by using data obtained from a constan...In this study, the differences in reservoir parameters, such as pore radius, throat radius, and pore-throat ratio, between the east and west subsags of the Lishui Sag are analyzed by using data obtained from a constant-rate mercury injection experiment. Furthermore, the quality of the reservoirs in the two subsags is systematically evaluated. Results show that the throat radius of the Lishui west subsag is larger than that of the east subsag, and this parameter has a positive correlation with reservoir quality. However, the pore-throat ratio of the east subsag is larger than that of the west subsag, which has an inverse relationship with reservoir quality. The main reasons for this reservoir difference can be attributed to sedimentation and diagenesis. The sedimentary facies types of the Lishui east subsag are the fan delta, shore lake, shallow lake, and shore shallow lake;their sandstone composition maturity is low;the clay mineral content is high;and the rock has undergone strong diagenesis. Therefore, the physical conditions of the reservoir are poor. However, the sandstones in the Lishui west subsag have weak cementation and compaction, mainly with an intergranular pore structure type, which leads to good connectivity between pores. Therefore, the storage performance and seepage capacity of the Lishui west subsag are better than those of the east subsag;the west subsag is the main area of oil and gas accumulation, as confirmed in the process of exploration and development.展开更多
文摘介绍了一套同时工作在甚高频(very high frequency,VHF)和甚低频/低频(very-low/low frequency,VLF/LF)频段的三维闪电定位系统,并给出了初步观测结果。系统使用到达时间差法对2个频段的闪电辐射源进行定位,能连续地给出雷暴过程中闪电活动空间位置,并详细给出单次闪电的发展路径,在使用2个频段辐射波形参数进行定位的同时还可以保存原始波形用于深入研究。VHF、VLF/LF 2个频段闪电定位结果的时间分辨率分别为100?s和1ms,定位精度在站网覆盖范围可优于200m。2个频段的定位结果都能很好地描述雷暴中的闪电活动,但表现出的特征有一定差异。两频段定位结果对单个闪电发生路径进行描绘时,VLF/LF频段的大部分定位结果能与VHF定位结果重叠。
基金supported by the National Natural Science Foundation of China (Nos. 51504143 and 51674156)the SDUST Research Fund (No. 2015DJH101)the Major National R&D Projects of China (No. 2016ZX0 5027-001-006)。
文摘In this study, the differences in reservoir parameters, such as pore radius, throat radius, and pore-throat ratio, between the east and west subsags of the Lishui Sag are analyzed by using data obtained from a constant-rate mercury injection experiment. Furthermore, the quality of the reservoirs in the two subsags is systematically evaluated. Results show that the throat radius of the Lishui west subsag is larger than that of the east subsag, and this parameter has a positive correlation with reservoir quality. However, the pore-throat ratio of the east subsag is larger than that of the west subsag, which has an inverse relationship with reservoir quality. The main reasons for this reservoir difference can be attributed to sedimentation and diagenesis. The sedimentary facies types of the Lishui east subsag are the fan delta, shore lake, shallow lake, and shore shallow lake;their sandstone composition maturity is low;the clay mineral content is high;and the rock has undergone strong diagenesis. Therefore, the physical conditions of the reservoir are poor. However, the sandstones in the Lishui west subsag have weak cementation and compaction, mainly with an intergranular pore structure type, which leads to good connectivity between pores. Therefore, the storage performance and seepage capacity of the Lishui west subsag are better than those of the east subsag;the west subsag is the main area of oil and gas accumulation, as confirmed in the process of exploration and development.