B
Ben Aernouts
Researcher at Katholieke Universiteit Leuven
Publications - 87
Citations - 1589
Ben Aernouts is an academic researcher from Katholieke Universiteit Leuven. The author has contributed to research in topics: Scattering & Integrating sphere. The author has an hindex of 20, co-authored 81 publications receiving 1200 citations. Previous affiliations of Ben Aernouts include Catholic University of Leuven.
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Study of polymer concentration and evaporation time as phase inversion parameters for polysulfone-based SRNF membranes
TL;DR: In this paper, the preparation of polysulfone (PSf) solvent resistant nanofiltration (SRNF) flat sheet membranes was investigated at the level of casting solution composition and post-casting (evaporation time).
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Visible and near-infrared spectroscopic analysis of raw milk for cow health monitoring: reflectance or transmittance?
TL;DR: Transmittance spectroscopy can be used to predict the 3 major milk components, but with lower accuracy for fat and crude protein than the reflectance mode, and the small sample thickness required for NIR transmittance measurement considerably complicates its online use.
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Supercontinuum laser based optical characterization of Intralipid® phantoms in the 500-2250 nm range.
Ben Aernouts,Eduardo Zamora-Rojas,Robbe Van Beers,Rodrigo Watté,Ling Wang,Mizuki Tsuta,Jeroen Lammertyn,Wouter Saeys +7 more
TL;DR: A supercontinuum laser based double integrating sphere setup in combination with an unscattered transmittance measurement setup was developed and carefully validated for optical characterization of turbid samples in the 500-2250 nm wavelength range.
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Three‐dimensional microscale modelling of CO2 transport and light propagation in tomato leaves enlightens photosynthesis
Quang Tri Ho,Herman N.C. Berghuijs,Herman N.C. Berghuijs,Rodrigo Watté,Pieter Verboven,Els Herremans,Xinyou Yin,Moges Ashagrie Retta,Moges Ashagrie Retta,Ben Aernouts,Wouter Saeys,Lukas Helfen,Graham D. Farquhar,Paul C. Struik,Bart Nicolai +14 more
TL;DR: 3-D model of light propagation, CO2 diffusion and photosynthesis in tomato leaves confirms that scaling of photosynthetic capacity with absorbed light would improve efficiency of CO2 fixation in the leaf, especially at low light intensity.
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Visible and near-infrared bulk optical properties of raw milk
TL;DR: The aim of this study was to determine the visible and near-infrared bulk absorption coefficient, bulk scattering coefficient, and scattering anisotropy spectra for a diverse set of raw milk samples originating from individual cow milkings, representing the milk variability present on dairy farms.