Researcher
Daan Van Hauwermeiren
- Disciplines:Machine learning and decision making, Mathematical software, Numerical computation, Software engineering, Modelling and simulation, Pharmaceutical technology, Symbolic computing, Other information and computing sciences, Applied mathematics in specific fields, Computer architecture and networks, Information sciences, Distributed computing, Programming languages, Information systems, History and foundations, Theoretical computer science, Scientific computing, Visual computing
Affiliations
- Department of Data analysis and mathematical modelling (Department)
Member
From1 Jan 2018 → Today - Department of Pharmaceutical analysis (Department)
Member
From1 Feb 2016 → 31 Dec 2022 - Department of Mathematical Modelling, Statistics and Bio-informatics (Department)
Member
From1 Aug 2014 → 31 Dec 2017
Projects
1 - 1 of 1
- Kernel Mean Embedding as the grand unifying theory for working with distributional data in pharmaceutical applicationsFrom1 Oct 2023 → TodayFunding: FWO senior postdoctoral fellowship
Publications
1 - 10 of 35
- An extended 3-compartmental model for describing step-change experiments in pharmaceutical twin-screw feeders at different refill regimes(2023)
Authors: Ruben Waeytens, Lisa De Souter, Wouter Grymonpré, Daan Van Hauwermeiren, Ingmar Nopens, Thomas De Beer
Number of pages: 1 - Linking material properties to 1D-PBM parameters towards a generic model for twin-screw wet granulation(2023)
Authors: Ana Alejandra Barrera Jiménez, Kensaku Matsunami, Daan Van Hauwermeiren, Michiel Peeters, Fanny Stauffer, Eduardo dos Santos Schultz, Ashish Kumar, Thomas De Beer, Ingmar Nopens
Pages: 713 - 724 - Validation of model-based design of experiments for continuous wet granulation and drying(2023)
Authors: Kensaku Matsunami, Tuur Vandeputte, Ana Alejandra Barrera Jiménez, Michiel Peeters, Michael Ghijs, Daan Van Hauwermeiren, Fanny Stauffer, Eduardo dos Santos Schultz, Ingmar Nopens, Thomas De Beer
- Mechanistic modeling of semicontinuous fluidized bed drying of pharmaceutical granules by incorporating single particle and bulk drying kinetics(2023)
Authors: Tuur Vandeputte, Michael Ghijs, Daan Van Hauwermeiren, Eduardo Dos Santos Schultz, Elisabeth Schäfer, Fanny Stauffer, Thomas De Beer, Ingmar Nopens
- Partial least squares regression to calculate population balance model parameters from material properties in continuous twin-screw wet granulation(2023)
Authors: Ana Alejandra Barrera Jiménez, Kensaku Matsunami, Daan Van Hauwermeiren, Michiel Peeters, Fanny Stauffer, Eduardo dos Santos Schultz, Ashish Kumar, Thomas De Beer, Ingmar Nopens
- T-shaped partial least squares for high-dosed new active pharmaceutical ingredients in continuous twin-screw wet granulation : granule size prediction with limited material information(2023)
Authors: Kensaku Matsunami, Jonathan Meyer, Martin Rowland, Neil Dawson, Thomas De Beer, Daan Van Hauwermeiren
- Analysis of the influence of process and formulation properties on the drying behavior of pharmaceutical granules in a semi-continuous fluid bed drying system(2023)
Authors: Michiel Peeters, Alexander De Man, Daan Van Hauwermeiren, Eduardo Dos Santos Schultz, Tamas Vigh, Fanny Stauffer, Ingmar Nopens, Thomas De Beer
Pages: 232 - 258 - Model development and calibration of two-dimensional population balance model for twin-screw wet granulation based on particle size distribution and porosity(2023)
Authors: Ana Alejandra Barrera Jiménez, Kensaku Matsunami, Daan Van Hauwermeiren, Michiel Peeters, Fanny Stauffer, Thomas De Beer, Ingmar Nopens
- Two-dimensional population balance model for twin-screw wet granulation : model development and calibration based on particle size distribution and porosity(2022)
Authors: Kensaku Matsunami, Ana Alejandra Barrera Jiménez, Michiel Peeters, Daan Van Hauwermeiren, Thomas De Beer, Ingmar Nopens
Number of pages: 1 - Towards a generic population balance model for twin-screw wet granulation : from material properties to particle size distribution(2022)
Authors: Ana Alejandra Barrera Jiménez, Daan Van Hauwermeiren, Kensaku Matsunami, Michiel Peeters, Thomas De Beer, Ingmar Nopens
Number of pages: 1