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Adam Harvey
Researcher at Newcastle University
Publications - 184
Citations - 5599
Adam Harvey is an academic researcher from Newcastle University. The author has contributed to research in topics: Catalysis & Biodiesel production. The author has an hindex of 37, co-authored 162 publications receiving 4276 citations. Previous affiliations of Adam Harvey include University of Cambridge.
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Bio-crude oil production using catalytic hydrothermal liquefaction (HTL) from native microalgae harvested by ozone-flotation
I. Nava Bravo,Sharon B. Velasquez-Orta,R. Cuevas-García,I. Monje-Ramírez,Adam Harvey,M.T. Orta Ledesma +5 more
TL;DR: In this paper, the authors explored bio-crude oil production and the hydrocarbon distribution resulting from a catalytic HTL process with a feedstock composed by native consortium of microalgae (mostly cyanobacteria) with low lipid and high protein content.
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Biodiesel production by in situ transesterification
TL;DR: In this paper, various parameters play important roles in determining the conversion, reaction rate and quality of the biodiesel in in situ transesterification, including catalyst type, seed moisture content, agitation intensity, molar ratio of alcohol to oil, reaction temperature, catalyst concentration, seed fragment fragment pa...
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Characterization and optimization of an oscillatory baffled reactor (OBR) for ozone-water mass transfer
TL;DR: In this paper, an oscillatory baffled reactor (OBR) operated as a semi-batch and as a co-current up-flow continuous reactor was investigated for ozone-water mass transfer.
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Combining continuous flow oscillatory baffled reactors and microwave heating: Process intensification and accelerated synthesis of metal-organic frameworks
Andrea Laybourn,Ana María López-Fernández,Ieuan Thomas-Hillman,Juliano Katrib,William Lewis,Chris Dodds,Adam Harvey,Sam Kingman +7 more
TL;DR: In this paper, a continuous flow oscillatory baffled reactor (CF-OBR) equipped with a homogeneous and controllable microwave applicator was used to produce a metal-organic framework (MOF).
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A comparison of the energy use of in situ product recovery techniques for the Acetone Butanol Ethanol fermentation.
TL;DR: This work compares various ISPR techniques based on UniSim process simulations of the ABE fermentation and finds perstraction was the only technique to reduce the energy demand below that of a batch process, and had the highest profit increase over abatch process.