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Browsing publications by Dr David Reay.

Newcastle AuthorsTitleYearFull text
Dr Pawel Szymanski
Dr Richard Law
Ryan McGlen
Dr David Reay
Correction: Szymanski et al. Recent Advances in Loop Heat Pipes with Flat Evaporator. Entropy 2021, 23, 13742022
Yi Zhang
Nina Ullah
Dr Richard Law
Dr David Reay
Dr Vladimir Zivkovic
et al.
Investigation into the hydrodynamics of liquid-solid inclined micro-fluidized beds2022
Dr Rafal Wrobel
Dr David Reay
A Feasibility Study of Heat Pipes for Thermal Management of Electrical Machines2020
Dr Rafal Wrobel
Ben Scholes
Dr Richard Law
Dr Ahmad Mustaffar
Dr David Reay
et al.
A Metal Additively Manufactured (MAM) Heat Exchanger for Electric Motor Thermal Control on a High-Altitude Solar Aircraft - Experimental Characterisation2020
Dr Jonathan McDonough
Dr Richard Law
Dr David Reay
Dr Vladimir Zivkovic
Miniaturisation of the toroidal fluidization concept using 3D printing2020
Professor Jarka Glassey
Dr Kamelia Boodhoo
Dr David Reay
Process intensification education contributes to sustainable development goals. Part 12020
Orlando do Nascimento
Dr David Reay
Dr Vladimir Zivkovic
Solid circulating velocity measurement in a liquid-solid micro-circulating fluidised bed2020
Dr Rafal Wrobel
Ben Scholes
Dr Richard Law
Dr Ahmad Mustaffar
Dr David Reay
et al.
A Metal Additively Manufactured (MAM) Heat Exchanger for Electric Motor Thermal Control on a High-Altitude Solar Aircraft – Experimental Characterisation2019
Ahmad Mustaffar
Dr Anh Phan
Dr David Reay
Dr Kamelia Boodhoo
Concentric annular heat pipe characterisation analysis for a drying application2019
Dr Rafal Wrobel
Dr David Reay
Professor Barrie Mecrow
Design and Experimental Characterisation of an Additively Manufactured Heat Exchanger for the Electric Propulsion Unit of a High-Altitude Solar Aircraft2019
Dr Richard Law
Dr David Reay
Eco-innovation in process engineering: Contradictions, inventive principles and methods2019
Dr Richard Law
Dr David Reay
Ecological Advanced Innovation Design Approach for Efficient Integrated Upstream and Downstream Processes2019
Dr Jonathan McDonough
Dr Richard Law
Dr David Reay
Dr Vladimir Zivkovic
Fluidization in small-scale gas-solid 3D-printed fluidized beds2019
Dr Vladimir Zivkovic
Dr Jonathan McDonough
Dr Richard Law
Dr David Reay
Fluidization in Small-Scale Gas-Solid 3D-Printed Fluidized Beds2019
Dr Jonathan McDonough
Dr Richard Law
Dr David Reay
Dr Vladimir Zivkovic
Intensified carbon capture using swirling fluidized beds2019
Dr Jonathan McDonough
Dr Richard Law
Dr David Reay
Dr Vladimir Zivkovic
Intensified carbon capture using swirling fluidized beds: hydrodynamics investigation and sorbent screening2019
Dr Janie Ling Chin
Wendy Taylor
Dr David Reay
Professor Tony Roskilly
UK building thermal performance from industrial and governmental perspectives2019
Dr Janie Ling Chin
Wendy Taylor
Dr David Reay
Professor Tony Roskilly
UK policies and industrial stakeholder perspectives on building thermal performance2019
Dr Richard Law
Dr David Reay
Dr Ahmad Mustaffar
Ryan McGlen
Experimental investigation into the feasibility of using a variable conductance heat pipe for controlled heat release from a phase-change material thermal store2018
Dr Jonathan McDonough
Dr Richard Law
Dr David Reay
Dr Vladimir Zivkovic
Flow regime mapping of small-scale gas-solid fluidized beds2018
Dr Jonathan McDonough
Dr Richard Law
Dr David Reay
Dr Vladimir Zivkovic
Intensified Carbon Capture using Adsorption: Heat Transfer Challenges and Potential Solutions2018
Dr Kamelia Boodhoo
Dr David Reay
Dr Marko Paavola
Process control in intensified continuous solids handling2018
Dr David Reay
Dr Vladimir Zivkovic
Study of Transitional Velocities of Solid-Liquid Micro-Circulating Fluidised Beds by Visual Observation2018
Dr Richard Law
Dr David Reay
Systematic Innovation in Process Engineering: Linking TRIZ and Process Intensification2018
Dr Ahmad Mustaffar
Dr David Reay
Professor Adam Harvey
The melting of salt hydrate phase change material in an irregular metal foam for the application of traction transient cooling2018
Dr Richard Law
Dr David Reay
Towards standardisation of process intensification in solids-handling processes - the IbD Platform2018
Dr Haoyu Wang
Dr Ahmad Mustaffar
Dr Anh Phan
Dr Vladimir Zivkovic
Dr David Reay
et al.
A review of process intensification applied to solids handling2017
Dr Richard Law
Professor Colin Ramshaw
Dr David Reay
Process intensification – Overcoming impediments to heat and mass transfer enhancement when solids are present, via the IbD project2017
Dr Vladimir Zivkovic
Dr David Reay
Solid flux measurement in a solid-liquid micro-circulating fluidised bed2017
Dr Richard Law
Professor Adam Harvey
Dr David Reay
A knowledge-based system for low-grade waste heat recovery in the process industries2016
Dr Richard Law
Dr David Reay
Compact heat exchangers: Selection, design and operation: Second Edition2016
Dr David Reay
Dynamic Modeling of Fixed-Bed Fischer-Tropsch Reactors with Phase Change Material Diluents2016
Dr Vladimir Zivkovic
Dr David Reay
Flow regime map of a liquid-solid micro-circulating fluidised bed2016
Dr David Reay
Dr Vladimir Zivkovic
Influence of surface forces and wall effects on the minimum fluidization velocity of liquid-solid micro-fluidized bed2016
Dr Jonathan McDonough
Dr Anh Phan
Dr David Reay
Professor Adam Harvey
Passive isothermalisation of an exothermic reaction in flow using a novel "Heat Pipe Oscillatory Baffled Reactor (HPOBR)"2016
Dr Ahmad Mustaffar
Professor Adam Harvey
Dr David Reay
Melting of phase change material assisted by expanded metal mesh2015
Dr David Reay
Thermal energy storage: The role of the heat pipe in performance enhancement2015
Dr Richard Law
Professor Adam Harvey
Dr David Reay
Opportunities for low-grade heat recovery in the UK food processing industry2013
Dr David Reay
Professor Adam Harvey
The role of heat pipes in intensified unit operations2013
Dr David Reay
Professor Colin Ramshaw
Professor Adam Harvey
Process intensification: engineering for efficiency, sustainability and flexibility2008