His scientific interests lie mostly in Meteorology, Sensible heat, Atmospheric sciences, Planetary boundary layer and Roughness length. His research in Meteorology intersects with topics in Mechanics and Boundary layer. His work deals with themes such as Anemometer, Wind speed and Latent heat, which intersect with Sensible heat.
As part of the same scientific family, H. A. R. De Bruin usually focuses on Wind speed, concentrating on Heat flux and intersecting with Equivalent temperature. His Atmospheric sciences study which covers Hydrology that intersects with Reynolds number. His work focuses on many connections between Planetary boundary layer and other disciplines, such as Heat transfer, that overlap with his field of interest in Atmospheric temperature.
Meteorology, Sensible heat, Atmospheric sciences, Planetary boundary layer and Scintillometer are his primary areas of study. The various areas that he examines in his Meteorology study include Evapotranspiration and Boundary layer. The concepts of his Sensible heat study are interwoven with issues in Wind speed, Shear velocity, Heat transfer, Heat flux and Latent heat.
His Heat flux study combines topics in areas such as Daytime and Temperature measurement. His Atmospheric sciences research focuses on Hydrology and how it connects with Evaporation, Atmospheric model and Soil science. H. A. R. De Bruin combines subjects such as Surface, Dimensionless quantity and Mathematical analysis with his study of Planetary boundary layer.
H. A. R. De Bruin focuses on Meteorology, Scintillometer, Sensible heat, Latent heat and Evapotranspiration. H. A. R. De Bruin has researched Meteorology in several fields, including Field, Geostationary orbit and Water cycle. In his study, Dimensionless quantity and Heat transfer is strongly linked to Planetary boundary layer, which falls under the umbrella field of Sensible heat.
His Latent heat research integrates issues from Climatology and Heat flux. His Evapotranspiration research is multidisciplinary, relying on both Atmospheric sciences and Remote sensing application. His work in Atmospheric sciences tackles topics such as Hydrology which are related to areas like Soil water and Evaporation.
His primary areas of study are Sensible heat, Scintillometer, Meteorology, Evapotranspiration and Atmospheric sciences. His Sensible heat research incorporates elements of Satellite imagery, Latent heat and Water vapor. As a part of the same scientific family, H. A. R. De Bruin mostly works in the field of Water vapor, focusing on Heat transfer and, on occasion, Planetary boundary layer.
His Meteorology research is multidisciplinary, incorporating elements of Annual cycle and Penman–Monteith equation. His Evapotranspiration study integrates concerns from other disciplines, such as Water balance and Radiometer. The Atmospheric sciences study combines topics in areas such as Soil water and Energy budget.
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TEMPERATURE MEASUREMENT WITH A SONIC ANEMOMETER AND ITS APPLICATION TO HEAT AND MOISTURE FLUXES
P. Schotanus;F.T.M. Nieuwstadt;H.A.R. De Bruin.
Boundary-Layer Meteorology (1983)
A system to measure surface fluxes of momentum, sensible heat, water vapour and carbon dioxide
J.B. Moncrieff;J.M. Massheder;H. de Bruin;J.A. Elbers.
Journal of Hydrology (1997)
Evapotranspiration components determined by stable isotope, sap flow and eddy covariance techniques
D.G. Williams;W. Cable;K. Hultine;J.C.B. Hoedjes.
Agricultural and Forest Meteorology (2004)
Applied Modeling of the Nighttime Surface Energy Balance over Land
A. A. M. Holtslag;H. A. R. De Bruin.
Journal of Applied Meteorology (1988)
A verification of some methods to determine the fluxes of momentum, sensible heat and water vapour using standard deviation and structure parameter of scalar meteorological quantities.
H. A. R. De Bruin;W. Kohsiek;B. J. J. M. Van Den Hurk.
Boundary-Layer Meteorology (1993)
A Model for the Priestley-Taylor Parameter α
H. A. R. De Bruin.
Journal of Applied Meteorology and Climatology (1983)
Some Practical Notes on the Parameter kB−1 for Sparse Vegetation
A. Verhoef;H. A. R. De Bruin;B. J. J. M. Van Den Hurk.
Journal of Applied Meteorology (1997)
A Simple Parameterization of the Surface Fluxes of Sensible and Latent Heat During Daytime Compared with the Penman-Monteith Concept
H. A. R. De Bruin;A. A. M. Holtslag.
Journal of Applied Meteorology (1982)
Sensible heat flux - Radiometric surface temperature relationship for eight semiarid areas
J. B. Stewart;W. P. Kustas;K. S. Humes;W. D. Nichols.
Journal of Applied Meteorology (1994)
Determination of area-averaged sensible heat fluxes with a large aperture scintillometer over a heterogeneous surface - Flevoland field experiment
W. M. L. Meijninger;O. K. Hartogensis;W. Kohsiek;J. C. B. Hoedjes.
Boundary-Layer Meteorology (2002)
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