SEARCH

SEARCH BY CITATION

References

  • Beyers JHM, Sundsbo PA, Harms TM. 2003. Numerical simulation and verification of drifting snow around a cube. Proceedings 11th International Conference on Wind Engineering, Wind Science and Engineering Research Center Lubbock, Texas 2: 68856893.
  • Cermak JE. 1984. Physical modeling of flow and dispersion over complex terrain. Boundary-Layer Meteorology 30: 261292.
  • Choudhury AH, Gordian ME, Morris SS. 1997. Associations between respiratory illness and PM10 air pollution. Archives of Environmental Health 52: 113117.
  • Dijkmans JWA, Törnqvist TE. 1991. Modern periglacial eolian deposits and landforms in the Søndre Strømfjord area, West Greenland and their palaeoenvironmental implications. Meddelelser om Grønland, Geoscience 15.
  • Dogan M. 2002. Environmental pulmonary health problems related to mineral dusts: Examples from Central Anatolia, Turkey. Environmental Geology 41: 571578.
  • Essery R. 2001. Spatial statistics of windflow and blowing-snow fluxes over complex topography. Boundary-Layer Meteorology 100: 136147.
  • Essery R, Long L, Pomeroy JW. 1999. A distributed model of blowing snow over complex terrain. Hydrological Processes 13: 24232424.
  • Germano M, Piomelli U, Moin P, Cabot WH. 1991. A dynamic subgrid-scale eddy viscosity model. Physics of Fluids A3: 17601765.
  • Goossens D. 1988a. The effect of surface curvature on the deposition of loess: a physical model. Catena 15: 179194.
  • Goossens D. 1988b. Sedimentation characteristics of natural dust in the wake of symmetrical hills. Zeitschrift für Geomorphologie 32: 499502.
  • Goossens D. 1988c. Scale model simulations of the position of loess in hilly terrain. Earth Surface Processes and Landforms 13: 533544.
  • Goossens D. 1989. Height distortion and the sedimentation of dust on topographic scale models: considerations and simulations. Earth Surface Processes and Landforms 14: 655667.
  • Goossens D. 1996. Wind tunnel experiments of aolian dust deposition along ranges of hills. Earth Surface Processes and Landforms 21: 205216.
  • Goossens D. 1997. Long-term aeolian loess accumulation modelled in the wind tunnel: the Molenberg case (central loess belt, Belgium). Zeitschrift für Geomorphologie 41: 115129.
  • Goossens D. 2000. Dry aeolian dust accumulation in rocky deserts: A medium-term field experiment based on short-term wind tunnel simulations. Earth Surface Processes and Landforms 25: 4157.
  • Goossens D, Offer ZY. 1988. Loess erosion and loess deposition in the Negev Desert: theoretical modelling and wind tunnel simulations. The Jacob Blaustein Institute for Desert Research. Desert Meteorology Papers, Serus A, No. 13.
  • Goossens D, Offer ZY. 1990. A wind tunnel simulation and field verification of desert dust deposition (Avdat Experimental Station, Negev Desert). Sedimentology 37: 722.
  • Goossens D, Offer ZY. 1993. Eolian deposition of dust over symmetrical hills: an evaluation of wind tunnel data by means of terrain measurements. Zeitschrift für Geomorphologie 37: 103111.
  • Goossens D, Offer ZY. 1997. Aeolian dust erosion on different types of hills in a rocky desert: wind tunnel simulations and field measurements. Journal of Arid Environments 37: 209229.
  • Goossens D, Offer ZY. in press. Long-term accumulation of atmospheric dust in rocky deserts. Zeitschrift für Geomorphologie.
  • Greeley R, Iversen JD. 1985. Wind as a Geological Process on Earth, Mars, Venus and Titan. Cambridge University Press: Cambridge.
  • Hunt JCR, Weng WS, Carruthers DJ. 1988. Modeling deposition fluxes on hills. Proceedings 16th NATO CCMS International Technical Meeting on Air Pollution Modeling and its Applications. Plenum Press: New York, 623640.
  • Iizuka S, Kondo H. 2004. Performance of various sub-grid scale models in large-eddy simulations of turbulent flow over complex terrain. Atmospheric Environment 38: 70837091.
  • Jones OC. 1976. An improvement in the calculation of turbulent friction factor in rectangular ducts. Journal of Fluids Engineering 98: 173181.
  • Lilly DK. 1992. A proposed modification of the Germano subgrid-scale closure method. Physics of Fluids A4: 633635.
  • Liston GE, Sturm M. 1998. A snow transport model for complex terrain. Journal of Glaciology 44: 498516.
  • Mason JA, Nater EA, Zanner CW, Bell JC. 1999. A new model of topographic effects on the distribution of loess. Geomorphology 28: 223236.
  • Obot NT. 1988. Determination of incompressible flow friction in smooth circular and noncircular passages. A generalized approach including validation of the century old hydraulic diameter concept. Journal of Fluids Engineering 110: 431440.
  • Offer ZY, Goossens D. 1994. The use of topographic scale models in predicting eolian dust erosion in hilly areas: field verification of a wind tunnel experiment. Catena 22: 249263.
  • Offer ZY, Goossens D. 1995. Wind tunnel experiments and field measurements of aeolian dust deposition on conical hills. Geomorphology 14: 4356.
  • Parker ST, Kinnersley RP. 2004. A computational and wind tunnel study of particle dry deposition in complex topography. Atmospheric Environment 38: 38673878.
  • Pye K. 1987. Aeolian Dust and Dust Deposits. Academic Press: London.
  • Pye K. 1996. The nature, origin and accumulation of loess. Quaternary Science Reviews 14: 653667.
  • Smagorinsky J. 1963. General circulation experiments with the primitive equations. Part 1. The basic experiment. Monthly Weather Review 91: 99164.
  • Stout JE, Janowitz GS. 1997. Particle trajectories above sinusoidal terrain. Quarterly Journal of the Royal Meteorological Society 123: 18291840.
  • Stout JE, Lin YL, Arya SPS. 1993. A theoretical investigation of the effects of sinusoidal topography on particle deposition. Journal of the Atmospheric Sciences 50: 25332541.
  • Zufall MJ, Dai W, Davidson CI, Etyemezian V. 1999a. Dry deposition of particles to wave surfaces: I. Mathematical modeling. Atmospheric Environment 33: 42734281.
  • Zufall MJ, Dai W, Davidson CI. 1999b. Dry deposition of particles to wave surfaces: II. Wind tunnel experiments. Atmospheric Environment 33: 42834290.