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Hierarchical macroporous mesoporous materials for biodiesel synthesis
Karen Wilson
, Adam F. Lee
, Jean-Philippe Dacquin
Chemical Engineering & Applied Chemistry
Energy and Bioproducts Research Institute (EBRI)
Cardiff University
Research output
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Chapter in Book/Published conference output
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Conference publication
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Keyphrases
Climate Change
100%
Petroleum
100%
Biofuel
100%
Manufacturing Process
100%
Mesoporous Materials
100%
Biodiesel
100%
Transesterification
100%
Energy Efficient
100%
Industrial Products
100%
Carbon Dioxide Emissions
100%
Macroporous-mesoporous
100%
Solid Base Catalyst
100%
New Catalysts
100%
Molecular Transformation
100%
Chemical Production
100%
Economically Feasible
100%
Oil Reserves
100%
Pore Architecture
100%
Sustainable Source
100%
Renewable Feedstock
100%
Feasible Route
100%
Solid Acid and Base
100%
Pore Diffusion
100%
Acid-base Catalyst
100%
Solid Acid Catalyst
100%
Biodiesel Synthesis
100%
Engineering
Biodiesel
100%
Engineering
50%
Manufacturing Process
50%
Transesterification
50%
Climate Change
50%
Climatic Change
50%
Biofuel
50%
Renewable Feedstock
50%
Industrial Product
50%
Oil Reserve
50%
Sustainable Source
50%
Solid Acid
50%
Pore Diffusion
50%
Chemistry
Macro Porosity
100%
Mesoporous Material
100%
Biodiesel
100%
Biofuel
50%
Base Catalyst
50%
Carbon Dioxide Emission
50%
Acid Catalyst
50%
Transesterification
50%
Material Science
Catalysis
100%
Biodiesel
100%
Mesoporous Material
100%
Feedstock
50%
Carbon Dioxide
50%
Biofuel
50%
Chemical Engineering
Carbon Dioxide
100%
Transesterification
100%