Researcher
Leen Braeken
- Disciplines:Flow chemistry, Industrial chemistry, Membrane technologies, Intensification, Powder and particle technology
Affiliations
- Process Engineering for Sustainable Systems (ProcESS) (Division)
Member
From1 Aug 2020 → Today - Sustainable Chemical Process Technology, Diepenbeek Campus (Technology cluster)
Member
From1 Oct 2013 → 31 Jul 2020 - Department of Chemical Engineering (CIT) (Department)
Member
From1 Oct 2001 → 30 Sep 2005
Projects
1 - 10 of 22
- Advanced gas-chromatography mass-spectrometryFrom1 Jan 2023 → TodayFunding: BOF - scientific equipment program
- Development of scalable continuous reactive extrusion processesFrom23 Sep 2022 → TodayFunding: Own budget, for example: patrimony, inscription fees, gifts
- Use of aerosol reactors for carbon capture to overcome mass transfer limitationsFrom1 Oct 2021 → TodayFunding: BOF - doctoral mandates
- Preparation and application of MOF-based ion exchange membrane for lithium selective separationFrom23 Feb 2021 → TodayFunding: Own budget, for example: patrimony, inscription fees, gifts
- Multiphase Processing with Microfluidics, Cavitation and Acoustic StreamingFrom1 Jan 2021 → 31 Dec 2023Funding: VLAIO CATALISTI - Cooperative research project
- Characterization and scale-up of ultrasound reactors for flow crystallization, emulsification and encapsulation.From23 Sep 2020 → 30 Jun 2023Funding: FWO Strategic Basic Research Grant
- Surface modifications as a strategy to counteract fouling in process equipmentFrom28 Aug 2020 → 9 Mar 2023Funding: Own budget, for example: patrimony, inscription fees, gifts
- Real-Time Optimization of Reaction Processes by Artificial IntelligenceFrom8 Nov 2019 → 8 Nov 2023Funding: BOF - doctoral mandates
- Analysis and utilization of mass and photon transport phenomena in aerosol mediaFrom1 Oct 2018 → 5 Jul 2022Funding: BOF - Doctoral projects, BOF - doctoral mandates
- Particles in Flow - Development of continuous dispersion, emulsification and crystallization process for the production of (sub)micron particlesFrom1 Nov 2017 → 30 Apr 2020Funding: VLAIO CATALISTI - Cooperative research project
Publications
51 - 60 of 76
- Investigation of design parameters in ultrasound reactors with confined channels(2013)
Authors: Jeroen Jordens, Jan Degrève, Leen Braeken, Tom Van Gerven
Pages: 1345 - 1352 - Introduction of research labs in the engineering curriculum(2013)
Authors: Leen Braeken, Jozefien De Keyzer, Jeroen Jordens, Kristel Sniegowski, Rita De Waele
- Novel binding procedure of TiO2 nanoparticles to thin film composite membranes via self-polymerized polydopamine(2013)
Authors: Ruixin Zhang, Leen Braeken, Bart Van der Bruggen
Pages: 179 - 188 - AOX removal from industrial wastewaters using advanced oxidation processes: assessment of a combined chemical-biological oxidation(2013)
Authors: Jan Luyten, Kristel Sniegowski, Kwinten Van Eyck, Sven Liers, Leen Braeken
Pages: 2048 - 2054 - Potential of a combined technique of ultrasound waves and additives to enhance the ex situ soil washing process(2013)
Authors: Kristel Sniegowski, Leen Braeken
- Potential of activated carbon to recover Randomly-methylated-B-cyclodextrin solution from waste water originating from in situ soil flushing(2013)
Authors: Kristel Sniegowski, Leen Braeken
- Kinetic study and scaleup of the oxidation of nanofiltration retentates by ozone(2012)
Authors: Steven Van Geluwe, Jan Degrève, Chris Vinckier, Claude Creemers, Leen Braeken, Bart Van der Bruggen
Pages: 7056 - 7066 - Improved membrane structures for seawater desalination by studying the influence of sublayers(2012)
Authors: Ruixin Zhang, Alexander Volodine, Chris Van Haesendonck, Leen Braeken, Bart Van der Bruggen
Pages: 317 - 325 - Potential of ultrasound for oxidative processes in tertiairy water purification(2012)
Authors: Bjorn Gielen, Kristel Sniegowski, Leen Braeken
Pages: 73 - 73 - Evaluation of electrodialysis for scaling prevention of nanofiltration membranes at high water recoveries(2011)
Authors: Steven Van Geluwe, Leen Braeken, Claude Creemers, Bart Van der Bruggen
Pages: 34 - 42