Tancbeng-Lujiang fault system is one of the largest strike-slip fault systems in eastern Asia.It extends southward to Beibuwan Bay to the west of Hainan Island and northward through Lujiang of Anhui Province, Tancheng...Tancbeng-Lujiang fault system is one of the largest strike-slip fault systems in eastern Asia.It extends southward to Beibuwan Bay to the west of Hainan Island and northward through Lujiang of Anhui Province, Tancheng of Shandong Province and Luobei of Heilongjiang Province in China to the territory of Russia. Its formation is related to the subduction of Kula-Pacific plate to the Asian continent. It is oriented approximately parallel to the eastern edge of Asia. It is dominated by the sinistral translation from Jurassic to Eocene and then by dextrose strike-slip. It has the following characters: (1)clear linear character; (2)sharp dip angle, usually changing between normal and reverse faults; (3)showing braided structure on the plan and flower structure in section;(4)alternated by uplifts and sags along the fault belt; (5)many stages of the eruptions of alkaline to calc-alkaline basalt magma along the fault belt; and (6) frequent activities of earthquakes along the fault belt. Its control over the oil-gas distribution is shown by the following racts: (1) the formation of many oil-bearing fault depressions; (2) the increase of the basin area it has passed through, thus increasing the basin's subsiding quantity and the oil reservoirs; and (3)the formation of many kinds of oil-gas trap structures.展开更多
A new algorithm for fault superimposed quantity(FSIQ)is presented and analyzed.The network equations are built up by combining fault superimposed networks(FSIN)with the boundary conditions of FSIQ at the fault point a...A new algorithm for fault superimposed quantity(FSIQ)is presented and analyzed.The network equations are built up by combining fault superimposed networks(FSIN)with the boundary conditions of FSIQ at the fault point and are solved with the Newton iterative method.The algorithm has clear physical meaning and does not require an intermediate procedure to derive FSIQ.The algorithm is implemented by computer programming,and the results of calculations show that the algorithm is fast and accurate.The method can be used not only to calculate FSIQ in the complex power systems with simple or multiple faults,but also to analyze and evaluate the performance of the protective relays and automatic devices based on FSIQ.展开更多
文摘Tancbeng-Lujiang fault system is one of the largest strike-slip fault systems in eastern Asia.It extends southward to Beibuwan Bay to the west of Hainan Island and northward through Lujiang of Anhui Province, Tancheng of Shandong Province and Luobei of Heilongjiang Province in China to the territory of Russia. Its formation is related to the subduction of Kula-Pacific plate to the Asian continent. It is oriented approximately parallel to the eastern edge of Asia. It is dominated by the sinistral translation from Jurassic to Eocene and then by dextrose strike-slip. It has the following characters: (1)clear linear character; (2)sharp dip angle, usually changing between normal and reverse faults; (3)showing braided structure on the plan and flower structure in section;(4)alternated by uplifts and sags along the fault belt; (5)many stages of the eruptions of alkaline to calc-alkaline basalt magma along the fault belt; and (6) frequent activities of earthquakes along the fault belt. Its control over the oil-gas distribution is shown by the following racts: (1) the formation of many oil-bearing fault depressions; (2) the increase of the basin area it has passed through, thus increasing the basin's subsiding quantity and the oil reservoirs; and (3)the formation of many kinds of oil-gas trap structures.
基金study was supported by the National Natural Science Foundation of China (No.50077011).
文摘A new algorithm for fault superimposed quantity(FSIQ)is presented and analyzed.The network equations are built up by combining fault superimposed networks(FSIN)with the boundary conditions of FSIQ at the fault point and are solved with the Newton iterative method.The algorithm has clear physical meaning and does not require an intermediate procedure to derive FSIQ.The algorithm is implemented by computer programming,and the results of calculations show that the algorithm is fast and accurate.The method can be used not only to calculate FSIQ in the complex power systems with simple or multiple faults,but also to analyze and evaluate the performance of the protective relays and automatic devices based on FSIQ.
