海洋通报
海洋通報
해양통보
MARINE SCIENCE BULLETIN
2015年
3期
295-302
,共8页
万猛%姚炎明%陈琴%李丹
萬猛%姚炎明%陳琴%李丹
만맹%요염명%진금%리단
象山港%斜压模式%余流%数值模拟
象山港%斜壓模式%餘流%數值模擬
상산항%사압모식%여류%수치모의
Xiangshan Bay%baroclinic version%residual currents%numerical simulation
基于Delft3D-Flow模块建立了象山港海域的三维斜压潮流数值模型,结合实测水文资料,研究了象山港的潮(余)流特征,对欧拉余流场的时空分布进行了定量的比较和分析,并与潮流测站计算分析得到的欧拉余流分布对比,很好的模拟了象山港的余流特征。结果表明:由湾外至湾顶,余流呈减小的趋势,湾外余流最大为33 cm/s,湾顶最小,余流平均仅5 cm/s。垂向上,表层余流大于底层余流,表层余流指向湾外,而底层余流则指向湾内。对比斜压、正压两种模式下的欧拉余流分布,可以看出湾顶附近主要受径流控制,两种模式得到的结果基本一致,口门至西沪港区域受径流和潮流的共同影响,斜压模式更准确地模拟出了水体层化和垂向余环流结构。
基于Delft3D-Flow模塊建立瞭象山港海域的三維斜壓潮流數值模型,結閤實測水文資料,研究瞭象山港的潮(餘)流特徵,對歐拉餘流場的時空分佈進行瞭定量的比較和分析,併與潮流測站計算分析得到的歐拉餘流分佈對比,很好的模擬瞭象山港的餘流特徵。結果錶明:由灣外至灣頂,餘流呈減小的趨勢,灣外餘流最大為33 cm/s,灣頂最小,餘流平均僅5 cm/s。垂嚮上,錶層餘流大于底層餘流,錶層餘流指嚮灣外,而底層餘流則指嚮灣內。對比斜壓、正壓兩種模式下的歐拉餘流分佈,可以看齣灣頂附近主要受徑流控製,兩種模式得到的結果基本一緻,口門至西滬港區域受徑流和潮流的共同影響,斜壓模式更準確地模擬齣瞭水體層化和垂嚮餘環流結構。
기우Delft3D-Flow모괴건립료상산항해역적삼유사압조류수치모형,결합실측수문자료,연구료상산항적조(여)류특정,대구랍여류장적시공분포진행료정량적비교화분석,병여조류측참계산분석득도적구랍여류분포대비,흔호적모의료상산항적여류특정。결과표명:유만외지만정,여류정감소적추세,만외여류최대위33 cm/s,만정최소,여류평균부5 cm/s。수향상,표층여류대우저층여류,표층여류지향만외,이저층여류칙지향만내。대비사압、정압량충모식하적구랍여류분포,가이간출만정부근주요수경류공제,량충모식득도적결과기본일치,구문지서호항구역수경류화조류적공동영향,사압모식경준학지모의출료수체층화화수향여배류결구。
A three-dimensional baroclinic numerical model of tidal currents in the Xiangshan Bay is built based on Delft3D-Flow. The numerical model, combined with the observational data, is used to investigate the characteristics of the tidal currents in the Xiangshan Bay. Furthermore, the spatial and temporal distribution characteristics of the Eulerian residual currents are quantitative analyzed. The results show that the tide induced residual current is reduced from the entrance to the top, and the scale is 5~33 cm/s. The surface layer is larger than the bottom in the vertical, and the surface direction of residual currents points to the outside, while the bottom turns to the top. Compared the distribution of the Eulerian residual current with barotropic version and baroclinic version, it's known that the top area is controlled by the runoff, and there is little difference between two patterns. Near the entrance of the XiangShan Bay, the water is influenced by the tidal current and runoff, and the baroclinic version is more preferable to simulate the stratification and residual circular currents in the vertical.