Publications in peer reviewed journals:
 

  1. Burchard, H., Recalculation of surface slopes as forcing for numerical water column models of tidal flow, Appl. Math. Modelling, 23, 737-755, 1999.
  2. Burchard, H., Note on the q2l equation by Mellor and Yamada [1982], J. Phys. Oceanogr., 31, 1377-1387, 2001.
  3. Burchard, H., Simulating the wave-enhanced layer under breaking surface waves with two-equation turbulence models, J. Phys. Oceanogr., in press, 2001.
  4. Burchard, H., Energy-conserving discretisation of turbulent shear and buoyancy production, Ocean Modelling., accepted for publication, 2001. [ps] [pdf]
  5. Burchard, H., and H. Baumert, On the performance of a mixed layer model based on the k-e turbulence closure, J. Geophys. Res., 100, 8523-8540, 1995.
  6. Burchard, H., and H. Baumert, The formation of estuarine turbidity maxima due to density effects in the salt wedge. A hydrodynamic process study, J. Phys. Oceanogr., 28, 309-321, 1998.
  7. Burchard, H., and K. Bolding, Comparative analysis of four second-moment turbulence closure models for the oceanic mixed layer, J. Phys. Oceanogr., 31, 1943-1968, 2001.
  8. Burchard, H., and E. D. Deleersnijder, Stability of algebraic non-equilibrium second-order closure models, Ocean Modelling, 3, 33-50, 2001.
  9. Burchard, H., and O. Petersen, Hybridization between s and z coordinates for improving the internal pressure gradient calculation in marine models with steep bottom slopes, Int. J. Num. Meth. Fluids, 25, 1003-1023, 1997.
  10. Burchard, H., and O. Petersen, Models of turbulence in the marine environment - A comparative study of two-equation turbulence models, J. Marine Sys., 21, 2-53, 1999.
  11. Burchard, H., O. Petersen, and T.P. Rippeth, Comparing the performance of the k-e and the Mellor-Yamada two-equation turbulence models,  J. Geophys. Res., 103, 10543-10554, 1998.
  12. Pietrzak, J.D., J.B. Jacobson, H. Burchard, H.-J. Vested, and O. Petersen, A three-dimensional hydrostatic model for coastal and ocean modelling using a generalised topography following co-ordinate system, Ocean Modelling, accepted for publication, 2001.
  13. Simpson, J.H., H. Burchard, N.R. Fisher, and T.P. Rippeth, Modelling the cycle of tidal dissipation in a region of tidal straining, Cont. Shelf Res., accepted for publication, 2001.


Submitted manuscripts:
 

  1. Bolding, K., H. Burchard, T. Pohlmann, and A. Stips, Turbulent mixing in the Northern North Sea: a numerical model study, Cont. Shelf Res., submitted, 2000. [ps] [pdf]
  2. Burchard, H., K. Bolding, T. P. Rippeth, A. Stips, J. H. Simpson, and J. Suendermann, Microstructure of turbulence in the Northern North Sea: A comparative study of observations and model simulations, J. Sea Res., submitted 2001. [ps] [pdf]
  3. Goudsmit, H.-G., H. Burchard, F. Peeters, P. Reichert, and A. Wuest, Application of k-epsilon turbulence models to lakes - The role of internal seiches, J. Geophys. Res., submitted,  2001.
  4. Stanev, E., K. Bolding, H. Burchard, and J.-O. Wolff, Modelling the transport and turbulence in the East-Frisian Wadden Sea, Proceedings of the International Conference on Cohesive Sediment Transport, edited by H. Winterwerp, Delft, 2000, submitted.
  5. Stips, A., H. Burchard, K. Bolding, and W. Eifler, Measurements and modelling of convective turbulence in Lake Lago Maggiore / Italy, J. Geophys. Res, submitted, 2001.
  6. Umlauf. L., and H. Burchard, A generic two-equation model for turbulent boundary layers, J. Fluid Mech., re-submitted, 2001. [ps] [pdf]
Other Publications:
 
  1. Burchard, H., Turbulenzmodellierung mit Anwendungen auf  thermische Deckschichten im Meer und Strömungen in Wattengebieten. PhD thesis. University of Hamburg. GKSS Research Centre, GKSS 95/E/30, 299 pp., 1995.
  2. Burchard, H., The 3D hydrostatic equations in a generalized vertical coordinate system. Theory and test cases. International Research Centre for Computational Hydrodynamics, Danish Hydraulic Institute, Horsholm, Denmark, 56 pp., 1996.
  3. Burchard, H.,  Three-dimensional numerical modelling of turbulent flows in estuaries and wadden seas. Theory and test cases. Technical Note No. I.97.180, Space Applications Institute, Joint Research Centre, Ispra, Italy, 42 pp., 1997.
  4. Burchard, H., Presentation of a new numerical model for turbulent flow in estuaries and wadden seas, Proceedings of the Third International Conference on Hydroinformatics, Copenhagen, Denmark, August 24-26, 1998, Balkema, Rotterdam, 41-48, 1998.
  5. Burchard, H., Applied turbulence modelling in marine waters, Habilitation thesis, University of Hamburg, 250 pp., submitted, 2001. [ps] [pdf]
  6. Burchard, H., and K. Bolding, http://www.gotm.net: Ein public-domain General Ocean Turbulence Model, DGM-Mitteilungen, 2/00, 14-17, 2000.
  7. Burchard, H., K. Bolding, M.R. Villarreal, GOTM, a general ocean turbulence model. Theory, implementation and test cases, European Commission, Report EUR 18745, 103 pp., 1999. [ps] [pdf]
  8. Burchard, H., A. Stips, W. Eifler, K. Bolding, and M.R. Villarreal, Numerical simulation of dissipation measurements in non-stratified and strongly stratified estuaries. In: Yanagi, T. (ed.), Interactions between estuaries, coastal seas and shelf seas, Terra Publishing Company, Tokyo, pp. 1-18, 2000.
  9. Harms, I.H., M.J. Karcher, and H. Burchard, The use of hydrodynamic circulation models for simulating oceanic dispersion of radioactivity. In: E.M. Scott (ed.), Modelling Radioactivity in the Environment, Elsevier, in print, 2002.