Sun Yunfang

No Thumbnail Available
Last Name
Sun
First Name
Yunfang
ORCID
0000-0001-6656-2581

Filters

2011 - 2013 2
2
2
Reset filters

Settings
Author: Qi, Jianhua ×

Search Results

Now showing 1 - 2 of 2
  • Article
    Tidal dynamics in the Gulf of Maine and New England Shelf : an application of FVCOM
    (American Geophysical Union, 2011-12-10) Chen, Changsheng ; Huang, Haosheng ; Beardsley, Robert C. ; Xu, Qichun ; Limeburner, Richard ; Cowles, Geoffrey W. ; Sun, Yunfang ; Qi, Jianhua ; Lin, Huichan
    The unstructured-grid, Finite-Volume Community Ocean Model (FVCOM) was used to simulate the tides in the Gulf of Maine (GoM) and New England Shelf (NES) for homogeneous and summer stratified conditions. FVCOM captures the near-resonant nature of the semidiurnal tide and energy flux in the GoM and the complex dynamics governing the tide in the NES. Stratification has limited impact on tidal elevation, but can significantly modify the tidal current profile. Internal tides are energetic in the stratified regions over steep bottom topography, but their contribution to the total tidal energy flux is only significant over the northeast flank of Georges Bank. The model suggests that the tidal flushing-induced eddy east of Monomoy Island is the dynamic basis for the locally observed phase lead of the M2 tide. The southward propagating tidal wave east of Cape Cod encounters the northeastward propagating tidal wave from the NES south of Nantucket Island, forming a zone of minimum sea level along a southeast-oriented line from Nantucket Island. These two waves are characterized by linear dynamics in which bottom friction and advection are negligible in the momentum balance, but their superposition leads to a strong nonlinear current interaction and large bottom stress in the zone of lowest sea elevation.
  • Article
    Impact of current-wave interaction on storm surge simulation : a case study for Hurricane Bob
    (John Wiley & Sons, 2013-05-30) Sun, Yunfang ; Chen, Changsheng ; Beardsley, Robert C. ; Xu, Qichun ; Qi, Jianhua ; Lin, Huichan
    Hurricane Bob moved up the U.S. east coast and crossed over southern New England and the Gulf of Maine [with peak marine winds up to 54 m/s (100 mph)] on 19–20 August 1991, causing significant damage along the coast and shelf. A 3-D fully wave-current-coupled finite-volume community ocean model system was developed and applied to simulate and examine the coastal ocean responses to Hurricane Bob. Results from process study-oriented experiments showed that the impact of wave-current interaction on surge elevation varied in space and time, more significant over the shelf than inside the inner bays. While sea level change along the coast was mainly driven by the water flux controlled by barotropic dynamics and the vertically integrated highest water transports were essentially the same for cases with and without water stratification, the hurricane-induced wave-current interaction could generate strong vertical current shear in the stratified areas, leading to a strong offshore transport near the bottom and vertical turbulent mixing over the continental shelf. Stratification could also result in a significant difference of water currents around islands where the water is not vertically well mixed.