The internal boundary layer — A review (original) (raw)
References
Antonia, R. A. and Luxton, R. E.: 1971, ‘The Response of a Turbulent Boundary Layer to a Step Change in Surface Roughness Part I. Smooth to Rough’, J. Fluid Mech.48, 721–761. Google Scholar
Antonia, R. A. and Luxton, R. E.: 1972, ‘The Response of a Turbulent Boundary Layer to a Step Change in Surface Roughness Part II. Rough-to-Smooth’, J. Fluid Mech.53, 737–757. Google Scholar
Antonia, R. A. and Wood, D. H.: 1975, ‘Calculation of a Turbulent Boundary Layer Downstream of a Small Step Change in Surface Roughness’, Aero. Quart.26, 202–210. Google Scholar
Antonia, R. A., Danh, H. Q., and Prabhu, A.: 1977, ‘Response of a Turbulent Boundary Layer to a Step Change in Surface Heat Flux’, J. Fluid Mech.80, 153–177. Google Scholar
Arritt, R. W.: 1987, ‘The Effect of Water Surface Temperature on Lake Breezes and Thermal Internal Boundary Layers’, Boundary-Layer Meteorol.40, 101–125. Google Scholar
Beljaars, A. C. M., Walmsley, J. L., and Taylor, P. A.: 1987, ‘Modelling of Turbulence over Low Hills and Varying Surface Roughness’, Boundary-Layer Meteorol.41, 203–215. Google Scholar
Bergstrom, H.: 1986, ‘A Simplified Boundary-Layer Wind Model for Practical Application’, J. Clim. Appl. Meteorol.25, 813–824. Google Scholar
Bergstrom, H., Johansson, P. E., and Smedman, A. S.: 1988, ‘A Study of Wind Speed Modification and the Internal Boundary-Layer Heights in the Coastal Region’, Boundary-Layer Meteorol.42, 313–335. Google Scholar
Blackadar, A. K., Panofsky, H. A., Glass, P. E., and Boogaard, J. F.: 1967, ‘Determination of the Effect of Roughness Change on the Wind Profile’, Boundary Layers and Turbulence, Physics of Fluids Suppl., Amer. Inst. Physics, New York, pp. 209–211. Google Scholar
Blom, J. and Wartena, L.: 1969, ‘The Influence of Changes in Surface Roughness on the Development of the Turbulent Boundary Layer in the Lower Layers of the Atmosphere’, J. Atmos. Sci.26, 255–265. Google Scholar
Bradley, E. F.: 1968, ‘A Micrometeorological Study of Velocity Profiles and Surface Drag in the Region Modified by a Change in Surface Roughness’, Quart. J. Roy. Meteorol. Soc.94, 361–379. Google Scholar
Carson, D. J. and Smith, F. B.: 1974, ‘Thermodynamic Model for the Development of a Convectively Unstable Boundary Layer’, Advances in Geophys.18A, Academic Press, New York. Google Scholar
Caughey, S. J., Wyngaard, J. C., and Kaimal, J. C.: 1979, ‘Turbulence in the Evolving Stable Boundary Layer’, J. Atmos. Sci.36, 1041–1052. Google Scholar
Doran, J. C. and Gryning, S. E.: 1987, ‘Wind and Temperature Structure over Land-Water-Land Area’, J. Clim. Appl. Meteorol.26, 973–979. Google Scholar
Druilhet, A., Herrada, A., Pages, J.-P., and Saissac, J.: 1982, ‘Etude Experimentale de la Couche Limite Interne Associee a la Brize de Mer’, Boundary-Layer Meteorol.22, 511–524. Google Scholar
Durand, P., Briere, S., and Druilhet, A.: 1989, ‘A Sea-Land Transition Observed during the COAST Experiment’, J. Atmos. Sci.46, 96–116. Google Scholar
Dyer, A. J.: 1963, ‘The Adjustment of Profiles and Eddy Fluxes’, Quart. J. Roy. Meteorol. Soc.89, 276–280. Google Scholar
Dyer, A. J. and Crawford, T. V.: 1965, ‘Observations of the Modification of the Microclimate at a Leading Edge’, Quart. J. Roy. Meteorol. Soc.91, 345–348. Google Scholar
Dyer, A. J. and Garratt, J. R.: 1978, ‘The Variation of Eddy Fluxes with Height and Fetch in an Unstable Atmosphere’, J. Meteorol. Soc. Japan, 56, 19–24. Google Scholar
Echols, W. T. and Wagner, N. K.: 1972, ‘Surface Roughness and Internal Boundary Layer Near a Coastline’, J. Appl. Meteorol.11, 658–662. Google Scholar
Elliott, W. P.: 1958, ‘The Growth of the Atmospheric Internal Boundary Layer’, Trans. Amer. Geophys. Un.39, 1048–1054. Google Scholar
Gamo, M., Yamamoto, S., and Yokoyama, O.: 1982, ‘Airborne Measurements of the Free Convective Internal Boundary Layer During the Sea Breeze’, J. Meteorol. Soc. Japan60, 1284–1298. Google Scholar
Garratt, J. R.: 1987, ‘The Stably Stratified Internal Boundary Layer for Steady and Diurnally Varying Offshore Flow’, Boundary-Layer Meteorol.38, 369–394. Google Scholar
Garratt, J. R. and Ryan, B. F.: 1989, ‘The Structure of the Stably Stratified Internal Boundary Layer in Offshore Flow Over the Sea’, Boundary-Layer Meteorol.47, 17–40. Google Scholar
Hanna, S. R.: 1987, ‘An Empirical Formula for the Height of the Coastal Internal Boundary Layer’, Boundary-Layer Meteorol.40, 205–207. Google Scholar
Hsu, S. A.: 1983, ‘On the Growth of a Thermally Modified Boundary Layer by Advection of Warm Air over a Cooler Sea’, J. Geophys. Res.88(C1), 771–774. Google Scholar
Hsu, S. A.: 1986, ‘A Note on Estimating the Height of the Convective Internal Boundary Layer Near Shore’, Boundary-Layer Meteorol.35, 311–316. Google Scholar
Hsu, S. A.: 1989, ‘A Verification of an Analytical Formula for Estimating the Height of the Stable Internal Boundary Layer’, Boundary-Layer Meteorol.48, 197–201. Google Scholar
Huang, C. H. and Nickerson, E. C.: 1976, ‘A Turbulent Energy Model of Flow over Nonuniform Surface with Stable Stratification’, J. Geophys. Res.81, 2668–2676. Google Scholar
Jackson, N.A.: 1976, ‘The Propagation of Modified Flow Downstream of a Change in Roughness’, Quart. J. Roy. Meteorol. Soc.102, 924–933. Google Scholar
Jacobs, W.: 1939, ‘Unformung eines Turbulenten Geschwindigkeitsprofiles’, Z. Angew. Math. Mech., 19, 87 (Translation NACA Tech. Mem. No. 951). Google Scholar
Jensen, N. O.: 1978, ‘Change of Surface Roughness and the Planetary Boundary Layer’, Quart. J. Roy. Meteorol. Soc.104, 351–356. Google Scholar
Kerman, B. R., Mickle, R. E., Portelli, R. V., and Trivett, N. B.: 1982, ‘The Nanticoke Shoreline Diffusion Experiment, June 1978-II-Internal Boundary Layer Structure’, Atmos. Env.16, 423–437. Google Scholar
Larsen, S. E., Hedegaard, K., and Troen, I.: 1982, ‘The Change of Terrain Roughness Problem Extended to Mesoscale Fetches’, 1st Inter. Conf. on Meteor, and Air/Sea Interaction of the Coastal Zone, The Hague, Netherlands. Amer. Meteor. Soc., U.S.A., pp. 8–13. Google Scholar
Logan, E. and Jones, J. B.: 1963, ‘Flow in a Pipe Following an Abrupt Increase in Surface Roughness’, Trans. ASME, Ser. D, J. Basic. Eng.85, 35–40. Google Scholar
Lyons, W. A.: 1977, ‘Mesoscale Air Pollution Transport in Southeast Wisconsin’, EPA 600/4-77-010, U.S. Environmental Protection Agency. (See Stunder and Sethuraman, 1985).
Meroney, R. W., Cermak, J. E., and Yang, B. T.: 1975, ‘Modeling of Atmospheric Transport and Fumigation at Shoreline Sites’, Boundary-Layer Meteorol.9, 69–90. Google Scholar
Miyake, M.: 1965, ‘Transformation of the Atmospheric Boundary Layer over Inhomogeneous Surfaces’, Sci. Rep. 5R-6, Univ. of Washington, Seattle, U.S.A. Google Scholar
Mulhearn, P. J.: 1976, ‘Turbulent Boundary Layer Wall-Pressure Fluctuations Downstream of an Abrupt Change in Surface Roughness’, Phys. Fluids19, 796–801. Google Scholar
Mulhearn, P. J.: 1977, ‘Relations between Surface Fluxes and Mean Profiles of Velocity, Temperature, and Concentration, Downwind of a Change in Surface Roughness’, Quart. J. Roy. Meteorol. Soc.103, 785–802. Google Scholar
Mulhearn, P. J.: 1978, ‘A Wind-Tunnel Boundary-Layer Study of the Effects of a Surface Roughness Change; Rough to Smooth’, Boundary-Layer Meteorol.15, 3–30. Google Scholar
Mulhearn, P. J.: 1981, ‘On the Formation of a Stably Stratified Internal Boundary Layer by Advection of Warm Air over a Cooler Sea’, Boundary-Layer Meteorol.21, 247–254. Google Scholar
Munro, D. S. and Oke, T. R.: 1975, ‘Aerodynamic Boundary-Layer Adjustment Over a Crop in Neutral Stability’, Boundary-Layer Meteorol.9, 53–61. Google Scholar
Nadejdina, E. D.: 1966, ‘The Use of the Energy Balance Equation in the Problem for Air Flow Transformation’, see Panchev et al.,1971. Panchev, S., Donev, E., and Godev, N.: 1971, ‘Wind Profile and Vertical Motions Above an Abrupt Change in Surface Roughness and Temperature’, Boundary-Layer Meteorol.2, 52–63.
Nadejdina, E. D.: 1969, ‘On the Changes of the Characteristics of a Turbulent Flow Passing over a Land-Sea Shore’, see Panchev et al., 1971. Panchev, S., Donev, E., and Godev, N.: 1971, ‘Wind Profile and Vertical Motions Above an Abrupt Change in Surface Roughness and Temperature’, Boundary-Layer Meteorol.2, 52–63.
Nemoto, S.: 1972, ‘Some Considerations on the Atmospheric Internal Boundary Layer over the Ground Surface’, Pap. Meteorol. Geophys.23, 121–134. Google Scholar
Ogawa, Y. and Ohara, T.: 1985, ‘The Turbulent Structure of the Internal Boundary Layer near the Shore’, Boundary-Layer Meteorol.31, 369–384. Google Scholar
Panchev, S., Donev, E., and Godev, N.: 1971, ‘Wind Profile and Vertical Motions Above an Abrupt Change in Surface Roughness and Temperature’, Boundary-Layer Meteorol.2, 52–63. Google Scholar
Panofsky, H. A.: 1973, ‘Tower Climatology’, in D. A. Haugen (ed.), Workshop on Micrometeorology, Amer. Meteorol. Soc., U.S.A., pp. 177–216. Google Scholar
Panofsky, H. A. and Dutton, J. A.: 1984, Atmospheric Turbulence: Models and Methods for Engineering Applications, John Wiley & Sons, New York, 397 pp. Google Scholar
Panofsky, H. A. and Petersen, E. L.:1972, ‘Wind Profiles and Change of Terrain Roughness at Riso’, Quart. J. Roy. Meteorol. Soc.98, 845–854. Google Scholar
Panofsky, H. A. and Townsend, A. A.: 1964, ‘Change of Terrain Roughness and the Wind Profile’, Quart. J. Roy. Meteorol. Soc.90, 147–155. Google Scholar
Pasquill, F.: 1972, ‘Some Aspects of Boundary-layer Description’, Quart. J. Roy. Meteorol. Soc.98, 468–494. Google Scholar
Peters, L. K.: 1975, ‘On the Criteria for the Occurrence of Fumigation Inland from a Large Lake’, Atmos. Env.9, 809–816. Google Scholar
Petersen, E. L. and Taylor, P. A.: 1973, ‘Some Comparisons Between Observed Wind Profiles at Riso and Theoretical Predictions for Flow over Inhomogeneous Terrain’, Quart. J. Roy. Meteorol. Soc.99, 329–336. Google Scholar
Peterson, E. W.: 1969, ‘Modification of Mean Flow and Turbulent Energy by a Change in Surface Roughness under Conditions of Neutral Stability’, Quart. J. Roy. Meteorol. Soc.95, 561–575. Google Scholar
Peterson, E. W.: 1972, ‘Relative Importance of Terms in the Turbulent Energy and Momentum Equations as Applied to the Problem of a Surface Roughness Change’, J. Atmos. Sci.29, 1470–1476. Google Scholar
Peterson, E. W., Jensen, N. O., and Hojstrup, J.: 1979, ‘Observations of Downwind Development of Wind Speed and Variance Profiles at Bognaes and Comparison with Theory’, Quart. J. Roy. Meteorol. Soc.105, 521–529. Google Scholar
Philip, J. R.: 1959, ‘The Theory of Local Advection’, J. Meteorol.16, 535–547. Google Scholar
Physick, W. L., Abbs, D. J., and Pielke, R. A.: 1989, ‘Formulation of the Thermal Internal Boundary Layer in a Mesoscale Model’, Boundary-Layer Meteorol.49, 99–111. Google Scholar
Plate, E. J.: 1971, ‘Aerodynamic Characteristics of Atmospheric Boundary Layers’, U.S. Atomic Energy Commission, TID-25465, 190 pp.
Plate, E. J. and Hidy, G. M.: 1967, ‘Laboratory Study of Air Flowing over a Smooth Surface onto Small Water Waves’, J. Geophys. Res.72, 4627–4641. Google Scholar
Rao, K. S.: 1975, ‘Effect of Thermal Stratification on the Growth of the Internal Boundary Layer’, Boundary-Layer Meteorol.8, 227–234. Google Scholar
Rao, K. S., Wyngaard, J. C., and Coté, O. R.: 1974a, ‘The Structure of Two-Dimensional Internal Boundary Layer over a Sudden Change of Surface Roughness’, J. Atmos. Sci.31, 738–746. Google Scholar
Rao, K. S., Wyngaard, J. C., and Coté, O. R.: 1974b, ‘Local Advection of Momentum, Heat, and Moisture in Micrometeorology’, Boundary-Layer Meteorol.7, 331–348. Google Scholar
Raynor, G. S., Michael, P., Brown, R. M., and Sethuraman, S.: 1975, ‘Studies of Atmospheric Diffusion from a Nearshore Oceanic Site’, J. Appl. Meteorol.14, 1080–1094. Google Scholar
Raynor, G. S., Sethuraman, S., and Brown, R. M.: 1979, ‘Formation and Characteristics of Coastal Internal Boundary Layers During Onshore Flows’, Boundary-Layer Meteorol.16, 487–514. Google Scholar
Rider, N. E., Philip, J. R., and Bradley, E. F.: 1963, ‘The Horizontal Transport of Heat and Moisture — A Micrometeorological Study’, Quart. J. Roy. Meteorol. Soc.89, 507–531. Google Scholar
Schlichting, H.: 1979, Boundary-Layer Theory, McGraw-Hill, New York and London, Seventh Edition, Trans. by J. Kestin, 817 pp. Google Scholar
Schofield, W. H.: 1975, ‘Measurements in Adverse-Pressure-Gradient Turbulent Boundary Layers with a Step Change in Surface Roughness’, J. Fluid Mech.70, 573–593. Google Scholar
Shir, C. C.: 1972, ‘A Numerical Computation of Air Flow over a Sudden Change of Surface Roughness’, J. Atmos. Sci.29, 304–310. Google Scholar
Smedman, A. S. and Hogstrom, U.: 1983, ‘Turbulent Characteristics of a Shallow Convective Internal Boundary Layer’, Boundary-Layer Meteorol.25, 271–287. Google Scholar
Stearns, C. R.: 1964, ‘Report on Wind Profile Modification Experiments Using Fields of Christmas Trees on the Ice of Lake Mendota’, Annual Report, Dept. of Meteorol., Univ. of Wisconsin, 59–97.
Stearns, C. R. and Lettau, H. H.: 1963, Report on Two Wind Profile Modification Experiments in Air Flow over the Ice of Lake Mendota. Annual Report, Dept. of Meteorol., Univ. of Wisconsin, pp. 115–138.
Stunder, M. and Sethuraman, S.: 1985, ‘A Comparative Evaluation of the Coastal Internal Boundary-Layer Height Equations’, Boundary-Layer Meteorol.32, 177–204. Google Scholar
Sutton, O. G.: 1934, ‘Wind Structure and Evaporation in a Turbulent Atmosphere’, Proc. Roy. Soc. (London), Ser. A, 146, 701–722. Google Scholar
Sutton, O. G.: 1953, Micrometeorology, McGraw-Hill, New York, 333 pp. Google Scholar
Taylor, P. A.: 1969a, ‘On Wind and Shear Stress Profiles Above a Change in Surface Roughness’, Quart. J. Roy. Meteorol. Soc.95, 77–91. Google Scholar
Taylor, P. A.: 1969b, ‘The Planetary Boundary Layer above a Change in Surface Roughness’, J. Atmos. Sci.26, 432–440. Google Scholar
Taylor, P. A.: 1970, ‘A Model of Airflow Above Changes in Surface Heat Flux, Temperature and Roughness for Neutral and Unstable Conditions’, Boundary-Layer Meteorol.1, 18–39. Google Scholar
Taylor, P. A.: 1971, ‘Airflow Above Changes in Surface Heat Flux, Temperature and Roughness: An Extension to Include the Stable Case’, Boundary-Layer Meteorol.1, 474–497. Google Scholar
Taylor, R. J.: 1962, ‘Small-Scale Advection and the Neutral Wind Profile’, J. Fluid Mech.13, 529–539. Google Scholar
Tennekes, H.: 1973, ‘A Model for the Dynamics of the Inversion Above a Convective Boundary Layer’, J. Atmos. Sci.30, 558–567. Google Scholar
Townsend, A. A.: 1965, ‘The Response of a Turbulent Boundary Layer to Abrupt Changes in Surface Conditions’, J. Fluid Mech.22, 799–822. Google Scholar
Townsend, A. A.: 1966, ‘The Flow in a Turbulent Boundary Layer after a Change in Surface Roughness’, J. Fluid Mech.26, 255–266. Google Scholar
Van der Hoven, I.: 1967, ‘Atmospheric Transport and Diffusion at Coastal Sites’, Nuc. Safety8, 490–499. Google Scholar
Venkatram, A.: 1977, ‘A Model of Internal Boundary-Layer Development’, Boundary-Layer Meteorol.11, 419–437. Google Scholar
Venkatram, A.: 1986, ‘An Examination of Methods to Estimate the Height of the Coastal Internal Boundary Layer’, Boundary-Layer Meteorol.36, 149–156. Google Scholar
Vugts, H. F. and Businger, J. A.: 1977, ‘Air Modification Due to a Step Change in Surface Temperature’, Boundary-Layer Meteorol.11, 295–305. Google Scholar
Walmsley, J. L.: 1989, ‘Internal Boundary-Layer Height Formulae — A Comparison with Atmospheric Data’, Boundary-Layer Meteorol.47, 251–262. Google Scholar
Weisman, B.: 1976, ‘On the Criteria for the Occurrence of Fumigation Inland from a Large Lake — A Reply’, Atmos. Env.12, 172–173. Google Scholar
Weisman, B. and Hirt, M. S.: 1975, ‘Dispersion Governed by the Thermal Internal Boundary Layer’, see Venkatram
1977. Venkatram, A.: 1977, ‘A Model of Internal Boundary-Layer Development’, Boundary-Layer Meteorol.11, 419–4137.
Wood, D. H.: 1982, ‘Internal Boundary Layer Growth following a Step Change in Surface Roughness’, Boundary-Layer Meteorol.22, 241–244. Google Scholar