In this paper,a simple numerical model of offshore currents is presented. A calculation scheme based on the isometric,implicit difference method is used and the points at which various physical quantities are computed...In this paper,a simple numerical model of offshore currents is presented. A calculation scheme based on the isometric,implicit difference method is used and the points at which various physical quantities are computed are distributed in a staggered form.The finite difference scheme designed here conserve total generalized energy and it is solved by splitting into three systems,namely,the adjustment,development and dissipation processes.The results of the numerical verification indicate that this scheme is computational stable,and the simulated results are encouraging.展开更多
The advances in understanding the South China Sea (SCS) western boundary current (SCSwbc) have been reviewed since the works of Dale (1956) and Wyrtki (1961) in the middle of the 20th century. The features of ...The advances in understanding the South China Sea (SCS) western boundary current (SCSwbc) have been reviewed since the works of Dale (1956) and Wyrtki (1961) in the middle of the 20th century. The features of the pattern of SCSwbc and the oceanic phenomena associated with it are focused on. The current is driven mainly by monsoon over the SCS and partially by winds over the tropical Pacific governed by the island rule. The SCSwbc exhibits strong seasonal variation in its direction and patterns. In winter, the current is strong and flows southwestward along the South China shelf and slope from the east of Dongsha Islands to the northern central Vietnamese coast, then turns to the south along the central and southern Vietnamese coast, and finally partially exits the SCS through the Karimata Strait. In summer and early fall, the SCSwbc can be divided into three segments based on their characteristics. The southern segment is stable, flowing northward from the Karimata Strait up to about 11 N, where it separates from the coast forming an eastward offshore current. The separation of the current from Vietnamese coast induces some striking features, such as upwelling and cold sea-surface temperature. The middle segment off the central Vietnamese coast may have a bimodal behavior: northward coastal current and meandering current in early summer (June–July), and cyclonic gyre in later summer and early fall (August–September). The northern segment is featured by the summer SCS Warm Current on the South China shelf and a southwestward subsurface current along the continental slope.展开更多
文摘In this paper,a simple numerical model of offshore currents is presented. A calculation scheme based on the isometric,implicit difference method is used and the points at which various physical quantities are computed are distributed in a staggered form.The finite difference scheme designed here conserve total generalized energy and it is solved by splitting into three systems,namely,the adjustment,development and dissipation processes.The results of the numerical verification indicate that this scheme is computational stable,and the simulated results are encouraging.
基金The National Basic Research Program ("973" Program) of China under contract Nos 2011CB403500 and 2012CB957803the National Natural Science Foundation of China under contract Nos 41006018 and 40730842the National High Technology Research and Development Program ("863" Program) of China under contract No. 2008AA09A402
文摘The advances in understanding the South China Sea (SCS) western boundary current (SCSwbc) have been reviewed since the works of Dale (1956) and Wyrtki (1961) in the middle of the 20th century. The features of the pattern of SCSwbc and the oceanic phenomena associated with it are focused on. The current is driven mainly by monsoon over the SCS and partially by winds over the tropical Pacific governed by the island rule. The SCSwbc exhibits strong seasonal variation in its direction and patterns. In winter, the current is strong and flows southwestward along the South China shelf and slope from the east of Dongsha Islands to the northern central Vietnamese coast, then turns to the south along the central and southern Vietnamese coast, and finally partially exits the SCS through the Karimata Strait. In summer and early fall, the SCSwbc can be divided into three segments based on their characteristics. The southern segment is stable, flowing northward from the Karimata Strait up to about 11 N, where it separates from the coast forming an eastward offshore current. The separation of the current from Vietnamese coast induces some striking features, such as upwelling and cold sea-surface temperature. The middle segment off the central Vietnamese coast may have a bimodal behavior: northward coastal current and meandering current in early summer (June–July), and cyclonic gyre in later summer and early fall (August–September). The northern segment is featured by the summer SCS Warm Current on the South China shelf and a southwestward subsurface current along the continental slope.
