M
Madeleine Bussemaker
Researcher at University of Surrey
Publications - 45
Citations - 1100
Madeleine Bussemaker is an academic researcher from University of Surrey. The author has contributed to research in topics: Ontology (information science) & Chemistry. The author has an hindex of 12, co-authored 40 publications receiving 710 citations. Previous affiliations of Madeleine Bussemaker include University of Western Australia.
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Journal ArticleDOI
Effect of Ultrasound on Lignocellulosic Biomass as a Pretreatment for Biorefinery and Biofuel Applications
TL;DR: In this article, the potential of ultrasound as a pretreatment and fractionation method of lignocellulose was evaluated and the challenges that this technology faces were identified, and the current status-quo of knowledge of the parametric effects of ultrasound was identified.
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A parametric review of sonochemistry: Control and augmentation of sonochemical activity in aqueous solutions.
TL;DR: In this review the phenomenon of ultrasonic cavitation and associated sonochemistry is presented through system parameters and evidence suggests that via parametric variation, the reaction products and efficiency may be controlled.
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A review on possible mechanisms of sonocrystallisation in solution.
TL;DR: The theories behind crystallisation and acoustic cavitation are summarised, followed by a description of all the current proposed sonocrystallisation mechanisms, and an overview on future prospects of sonocrystalisation applications are concluded.
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Manipulation of ultrasonic effects on lignocellulose by varying the frequency, particle size, loading and stirring.
TL;DR: The parameters, including ultrasonic frequency, still versus stirring, biomass particle size and biomass loading were concurrently investigated for the ultrasonic treatment of wheat straw and highlighted the use of ultrasound for physical and chemical effects at different frequencies.
Journal ArticleDOI
A review on pharmaceuticals removal from waters by single and combined biological, membrane filtration and ultrasound systems.
Pello Alfonso-Muniozguren,Efraím A. Serna-Galvis,Madeleine Bussemaker,Ricardo A. Torres-Palma,Judy Lee +4 more
TL;DR: In this article, the authors report the extent of pharmaceutical removal by individual processes such as bioreactors, advanced oxidation processes and membrane filtration systems, all of which are not 100% efficient and can lead to the direct discharge of pharmaceuticals into water bodies.