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Tellus A: Dynamic Meteorology and Oceanography Volume 46, 1994 - Issue 2
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Original Articles

Modelling tides in the western North Atlantic using unstructured graded grids

J.J. WesterinkDepartment of Civil Engineering and Geological Sciences, University of Notre Dame, Notre Dame, IN46556USA
,
R.A. Luettich JrUniversity of North Carolina at Chapel Hill, Institute of Marine Sciences, 3431 Arendell Street, Morehead City, NC28557USA
&
J.C. MuccinoDepartment of Civil Engineering and Geological Sciences, University of Notre Dame, Notre Dame, IN46556USA
Pages 178-199 | Received 01 Dec 1992, Accepted 01 Jul 1993, Published online: 15 Dec 2016

References

  • Cartwright, D. E. and Ray, R. D. 1991. Energetics of global ocean tides from geosat altimetry. J. Geophys. Res. 96, C9, 16897–16912.
  • Dietrich, D. E., Roache, P. J. and Marietta, M. G. 1990. Tellus 46A (1994), 2 Convergence studies with the Sandia ocean modeling system. International J. for Numerical Methods in Fluids 11, 127–150.
  • Flather, R. A. 1987. Estimates of extreme conditions of tide and surge using a numerical model of the north-west European continental shelf. Estuarine, Coastal and Shelf Science 24, 69–73.
  • Flather, R. A. 1988. A numerical model investigation of tides and diurnal-period continental shelf waves along Vancouver Island. J. Physical Oceanography 18, 115–139.
  • Foreman, M. G. G. 1983. An analysis of the wave equation model for finite-element tidal computations J. Computational Physics 52, 290–312.
  • Foreman, M. G. G. 1988. A comparison of tidal models for the southwest coast of Vancouver Island. In: Proceedings of the VII International Conference on Computational methods in water resources, held in Cambridge, MA. Elsevier.
  • Gerritsen, H. and Bijlsma, A. C. 1988. Modelling of tidal and wind-driven flow: the Dutch continental shelf model. In: Computer modelling in ocean engineering ( eds. Schrefler and Zienkiewicz). Balkema, Rotterdam.
  • Gray, W. G. 1982. Some inadequacies of finite element models as simulators of two-dimensional circulation. Advances in Water Resources 5, 171–177.
  • Gray, W. G. 1989. A finite element study of tidal flow data for the North Sea and English channel. Advances in Water Resources 12, 143–154.
  • Hendershott, M. C. 1981. Long waves and ocean tides. In: Evolution of physical oceanography, pp. 292–341 ( eds. B. A. Warren and C. Wunsch). MIT Press, Cambridge, MA.
  • International hydrographic organization tidal constituent bank 1991. Station Catalogue. Ocean and Aquatic Sciences, Department of Fisheries and Oceans, Ottawa.
  • Kinnmark, I. P. E. 1984. The shallow water wave equations: formulation, analysis and application. Ph.D. Dissertation, Department of Civil Engineering, Princeton University.
  • Kolar, R. L., Gray, W. G., Westerink, J. J. and Luettich, R. A. 1993. Shallow water modeling in spherical coordinates: equation formulation, numerical implementation, and application. J. Hydraulic Research, in press.
  • Le Provost, C. and Vincent, P. 1986. Some tests of precision for a finite element model of ocean tides. J. Computational Physics 65, 273–291.
  • Luettich, R. A., Westerink, J. J. and Scheffner, N. W. 1992. ADCIRC: An advanced three-dimensional circulation model for shelves, coasts and estuaries, Report 1: Theory and methodology of ADCIRC-2DDI and ADCIRC-3DL. Dredging Research Program, Technical Report DRP-92-6, Department of the Army, Washington, DC.
  • Lynch, D. R. 1983. Progress in hydrodynamic modeling, review of US Contributions, 1979-1982. Reviews of Geophysics and Space Physics 21, 741–754.
  • Lynch, D. R. and Gray, W. G. 1979. A wave equation model for finite element tidal computations. Computers and Fluids 7, 207–228.
  • Pearson, F. 1990. Map projections: theory and applications. CRC Press, Boca Raton, Florida.
  • Platzman, G. W. 1981. Some response characteristics of finite element tidal models. J. Computational Physics 40, 36–63.
  • Reid, R. O. and Whitaker, R. E. 1981. Numerical model for astronomical tides in the gulf of Mexico. Technical Report for the US Army Engineers, Department of Oceanography. Texas A & M University.
  • Reid, R. O. 1990. Waterlevel changes, tides and storm surges. In: Handbook of coastal and ocean engineering ( ed. J. Herbich). Gulf Publishing, Houston, Texas.
  • Schwiderski, E. W. 1979. Global ocean tides, Part H: The semidiurnal principle lunar tide (M2), atlas of tidal charts and maps. NSWC TR 79-414.
  • Schwiderski, E. W. 1980. On charting global ocean tides. Reviews in Geophysics and Space Physics 18, 243–268.
  • Schwiderski, E. W. 1981a. Global ocean tides, Part III: The semidiurnal principle solar tide (S2), atlas of tidal charts and maps. NSWC TR 81-122.
  • Schwiderski, E. W. 1981b. Global ocean tides, Part IV: The diurnal luni-solar declination tide (K1), atlas of tidal charts and maps. NSWC TR 81-142.
  • Schwiderski, E. W. 1981c. Global ocean tides, Part V: The diurnal principle lunar tide (O1), atlas of tidal charts and maps. NSWC TR 81-144.
  • Schwiderski, E. W. 1981d. Global ocean tides, Part VI: The semidiurnal elliptical lunar tide (N2), atlas of tidal charts and maps. NSWC TR 81-218.
  • Schwiderski, E. W. 1981e. Global ocean tides, Part VII: The diurnal principle solar tide (P1), atlas of tidal charts and maps. NSWC TR 81-220.
  • Schwiderski, E. W. 1981f. Global ocean tides, Part VIII: The semidiurnal luni-solar declination tide (K2), atlas of tidal charts and maps. NSWC TR 81-222.
  • Schwiderski, E. W. 1981g. Global ocean tides, Part IX: The diurnal elliptical lunar tide (Q1), atlas of tidal charts and maps. NSWC TR 81-224.
  • Turner, P. J. and Baptista, A. M. 1991. ACE/Gredit users manual: Software for semi-automatic generation of two-dimensional finite element grids. CCALMR Software Report SDS2 (91-2), Oregon Graduate Institute, Beaverton, OR.
  • U.S. Geological Survey. 1984. Atlas of tidal elevation and current observations on the North-east American continental shelf and slope. US Geological Survey Bulletin #161).
  • Vincent, P. and Le Provost, C. 1988. Semidiurnal tides in the northeast Altantic from a finite element numerical model. J. Geophys. Res. 93, Cl, 543–555.
  • Wahr, J. M. 1981. Body tides on an elliptical, rotating, elastic and oceanless earth. Geophysical J. Royal Astronomical Society 64, 677–703.
  • Walters, R. A. 1988. A finite element model for tides and currents with field applications. Communications Applied Numerical Methods 4, 401–411.
  • Walters, R. A. and Werner, F. E. 1989. A comparison of two finite element models of tidal hydrodynamics using a North Sea data set. Advances in Water Resources 12, 184–193.
  • Werner, F. E. and Lynch, D. R. 1989. Harmonic structure of English channel/southern bight tides from a wave equation simulation. Advances in Water Resources 12, 121–142.
  • Westerink, J. J., Stolzenbach, K. D. and Connor, J. J. 1989. General spectral computations of the nonlinear shallow water tidal interactions within the bight of Abaco. J. of Physical Oceanography 19, 1348–1371.
  • Westerink, J. J. and Gray, W. G. 1991. Progress in surface water modeling. Reviews of Geophysics 29, April suppl., 210–217.
  • Westerink, J. J., Luettich, R. A., Baptista, A. M., Scheffner, N. W. and Farrar, P. 1992a. Tide and storm surge predictions using a finite element model. J. of Hydraulic Engineering 118, 1373–1390.
  • Westerink, J. J., Muccino, J. C. and Luettich, R. A. 1992b. Resolution requirements for a tidal model of the western North Atlantic and gulf of Mexico. In: Proceedings of the IX International Conference on Computational methods in water resources, Denver, CO, (eds. T. F. Russell et al.). Computational Mechanics Publications, Southampton, UK.
  • Woodworth, P. L. 1990. Summary of recommendations to the UK Earth Observation Data Centre (UK-EODC) by the Proudman Oceanographic Laboratory (POL) for tide model corrections on ERS-1 Geophysical Data Records. Proudman Oceanographic Laboratory Communication.

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