3-D radiative transfer modelling
Abstract
Most of the radiative transfer that are used nowadays are 1-dimensional. 1-D radiative transfer models are however very often inaccurate, because many effects such as the influence of inhomogeneous cloud fields or the influence of the surrounding topography are not taken sufficiently into account. Within the scope of this project a 3-D radiative transfer model is adapted in order to simulate the influence of the topography on the 3-D radiation field in the shortwave and in the thermal I.R wavelength ranges First simulations will be performed for real cases (Hoher Sonnblick Observatory and Gstettner Alm/Grünloch near Lunz). The second part of this project deals with modelling of radiation in plant canopies. Monte Carlo modelling is used to determine the 3-D radiation field in Canopies
keywords short wave wavelenght range Modelling of radiative transfer thermal I.R. wavelenght range topography
Publikationen
First case studies of 3-D Monte Carlo radiative transfer calculations in mountainous terrain in the UV wavelength range
Autoren: Wagner, J., Simic, S., Weihs, P. Jahr: 2007
Journal articles
Comparison between high quality UV measurements and 3-D-Monte-Carlo radiative transfer calculations around Innsbruck
Autoren: Wagner, J.E.; Weihs, P.; Blumthaler, M.; Webb, A.; Gobbi, G.P.; Kift, R.; Kreuter, A.; Simic, S.; Rieder, H. Jahr: 2008
Journal articles
Investigation of the 3-D actinic flux field in mountainous terrain
Autoren: Wagner, JE; Angelini, F; Blumthaler, M; Fitzka, M; Gobbi, GP; Kift, R; Kreuter, A; Rieder, HE; Simic, S; Webb, A; Weihs, P Jahr: 2011
Journal articles
Project staff
Philipp Weihs
Ao.Univ.Prof. Mag.rer.nat. Dr.rer.nat. Philipp Weihs
philipp.weihs@boku.ac.at
Tel: +43 1 47654-81424
Project Leader
01.11.2003 - 31.12.2030
Michael Revesz
Dipl.-Ing. Dr. Michael Revesz
michael.revesz@boku.ac.at
Project Staff
01.11.2003 - 31.12.2030
Heidelinde Trimmel
Dipl.-Ing. Dr. Heidelinde Trimmel
heidelinde.trimmel@boku.ac.at
Tel: +43 1 47654-81425
Project Staff
01.11.2003 - 31.12.2030