We modify existing separation materials, such membranes and filtration fabrics, by coating them, for example, with thin layers of metal or polymer. An essential part of developing separation materials and understanding their phenomena is the ability to characterise their properties. Our unit is developing new methods for property characterisation.
Parametric optimisation is used to improve separation efficiency and to minimise contamination. For example, by monitoring crystallisation in real time, it is possible to effectively separate molecules that are near identical from one another.
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- Membrane Filtration in Biorefinery | SpringerLink!
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Our research in separation has focused on regeneration of separation materials. In other words, we study how separation materials can be re-used to ensure that they generate less waste. The capacity for regeneration of materials is a key issue from both an ecological and economic point of view. We develop purification techniques for materials and study how they become contaminated and how contamination can be reduced by optimising separation parameters and modifying materials.
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The Earth's limited volume of natural resources leads to a need for recovering smaller and smaller concentrations. The effectiveness requirements for separation processes have further increased for this very reason, and different hybrid processes, i. We research these different separation technique combinations, as well as ways of combining them with biological processes, catalysis and oxidation.
In addition to experimental research, we have worked to develop modelling and simulation methods. This work focuses on modelling unit operations, as well as on hybrid process simulation and modelling concepts. These new tools allow us to minimise the experimental work needed for the optimisation of processes. Separation and Purification Technology All important manufacture processes involve separation.
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Your order is also backed by our In-Stock Guarantee! What makes Biblio different? Facebook Instagram Twitter. Sign In Register Help Cart. Catalytic hydrodeoxygenation. Metal carbides and nitrides as potential catalysts for hydroprocessing. Deactivation of hydroprocessing catalysts. Drilling fluids comprising mostly linear olefins.
Membrane Technologies for Biorefining
Purification of triacylglycerols for biodiesel production from nannochloropsis microalgae by membrane technology. Biodiesel production from degummed soybean oil and glycerol removal using ceramic membrane. Influence of acidified water addition on the biodiesel and glycerol separation through membrane technology. Separation of biodiesel and glycerol using ceramic membranes. Purification of biodiesel by dry washing, employing starch and cellulose as natural adsorbents. Process Intensif. Hydrotreating of jatropha oil over alumina based catalysts. Reaction pathways for the deoxygenation of vegetable oils and related model compounds.
Separation and purification technologies in biorefineries. - Free Online Library
Ion-exchange and electrodialysis, in: Grandison, A. Woodhead Publishing, Cambridge, United Kingdom. Placing microalgae on the biofuels priority list: a review of the technological challenges. Royal Soc.
Separation and Purification Technologies in Biorefineries | Wiley Online Books
On the mechanism of the inversion of emulsions. Recent applications of ionic liquids in separation technology. Nanostructured molybdenum carbides supported on carbon nanotubes as efficient catalysts for one-step hydrodeoxygenation and isomerization of vegetable oils. Green Chem. Solvent extraction: the current position, in: Hanson, C.
Separation and Purification Technology
Pergamon Press, Oxford, United Kingdom. Preparation of solvent-resistant anion-exchange membranes. A Novel technique for separating glycerine from palm oil-based biodiesel using ionic liquids. Comparison of membrane extraction with traditional extraction methods for biodiesel production.
Oil Chem. Review of the effects of biodiesel on NOx emissions. Comparison of tungsten and molybdenum carbide catalysts for the hydrodeoxygenation of oleic acid. ACS Catal. Performance study of ceramic microfiltration membrane for oily wastewater treatment. Overview of biomass conversion processes and separation and purification technologies in biorefineries, in: Ramaswamy, S. Biodiesel production from jatropha curcas : integrated process optimization. Catalytic reaction pathways in liquid-phase deoxygenation of C18 free fatty acids.
Biodiesel wash-water reuse using microfiltration: toward zero-discharge strategy for cleaner and economized biodiesel production.
Biofuel Res. Polyimides membranes for pervaporation and biofuels separation. Supported iron nanoparticles for the hydrodeoxygenation of microalgal oil to green diesel. Investigation of the refining step of biodiesel production. Catalytic conversion of canola oil to fuels and chemicals over various cracking catalysts. The chemistry of solvent extraction, in: Hanson, C.
- Membrane Filtration in Biorefinery.
- Membrane Technologies for Biorefining.
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- Separation and Purification Technologies in Biorefineries;
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- Separation and Purification Technologies in Biorefineries | NHBS Academic & Professional Books.
Diesel-like hydrocarbon production from hydroprocessing of relevant refining palm oil. Transesterification of vegetable oil to biodiesel using heterogeneous base catalyst.
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Separative reactors for integrated production of bioethanol and biodiesel. Advanced Distillation Technologies: Design, control and applications. Solid acid catalysts for biodiesel production-towards sustainable energy. Biodiesel by catalytic reactive distillation powered by metal oxides. The heterogeneous advantage: biodiesel by catalytic reactive distillation. Biodiesel and renewable diesel: a comparison. Energy Combust. Academic Press, Boston, United State. Purification to remove leached CaO catalyst from biodiesel with the help of cation-exchange resin.
Deactivation of HDS catalysts in deoxygenation of vegetable oils. Deoxygenation of vegetable oils over sulfided Ni, Mo and NiMo catalysts. Transformation of vegetable oils into hydrocarbons over mesoporous-alumina-supported CoMo catalysts.
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