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Browsing publications by Dr Richard Law.

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
Ollie Jamieson
Jack Reeder
Jenny Olsen
Dr Richard Law
Dr Marloes Peeters
et al.
Influence of design and material charateristics on 3D printed flow-cells for heat transwer-based analytical devices2022
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
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
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
Dr Jonathan McDonough
Dr Richard Law
Professor Adam Harvey
Coil-in-Coil Reactor: Augmenting Plug Flow Performance by Combining Different Geometric Features Using 3D Printing2019
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 Jonathan McDonough
Dr Richard Law
Professor Adam Harvey
Micromixing in oscillatory baffled flows2019
Dr Fernando Russo Abegao
Megan Venn-Wycherley
Anna Vasilchenko
Dr Matthew Dyson
Dr Chris O'Malley
et al.
Teaching Students How to Code Using Physical Computing Tools2019
Dr Richard Law
Dr Marloes Peeters
Thermal Detection of Cardiac Biomarkers Heart-Fatty Acid Binding Protein and ST2 Using a Molecularly Imprinted Nanoparticle-Based Multiplex Sensor Platform2019
Dr Richard Law
Safaa Ahmed
Dr Anh Phan
Professor Adam Harvey
Development of a more robust correlation for predicting heat transfer performance in oscillatory baffled reactors 2018
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 Richard Law
Safaa Ahmed
Professor Adam Harvey
Heat transfer enhancement by oscillatory baffled flows2018
Dr Jonathan McDonough
Dr Richard Law
Dr David Reay
Dr Vladimir Zivkovic
Intensified Carbon Capture using Adsorption: Heat Transfer Challenges and Potential Solutions2018
Dr Jonathan McDonough
Dr Richard Law
Professor Adam Harvey
Micro-mixing performance of mesoscale oscillatory baffled reactors2018
Dr Jonathan McDonough
Dr Richard Law
Professor Adam Harvey
Oscillatory fluid motion unlocks plug flow operation in helical tube reactors at lower Reynolds numbers (Re ≤ 10)2018
Dr Richard Law
Dr David Reay
Systematic Innovation in Process Engineering: Linking TRIZ and Process Intensification2018
Safaa Ahmed
Dr Richard Law
Dr Anh Phan
Professor Adam Harvey
Thermal performance of meso-scale oscillatory baffled reactors2018
Safaa Ahmed
Dr Richard Law
Dr Anh Phan
Professor Adam Harvey
Thermo-performance evaluation of meso oscillatory baffled reactors2018
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 Jonathan McDonough
Dr Richard Law
Professor Adam Harvey
Effect of geometrical parameters on flow-switching frequencies in 3D printed fluidic oscillators containing different liquids2017
Dr Jonathan McDonough
Dr Richard Law
Professor Adam Harvey
Intensification of Transport Phenomena using 3D Printed Fluidic Oscillators [Keynote Lecture]2017
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 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 Barbara Sturm
Dr Richard Law
Eric Siqueiros Valencia
Dr Huashan Bao
Dr Yaodong Wang
et al.
Process intensification and integration of solar heat generation in the Chinese condiment sector - A case study of a medium sized Beijing based factory2015
Eric Siqueiros
Dr Yaodong Wang
Dr Barbara Sturm
Dr Richard Law
Professor Tony Roskilly
et al.
Waste Utilization in a Spirit Plant as Alternative to Fossil Fuels2014
Dr Richard Law
Professor Adam Harvey
Dr David Reay
Opportunities for low-grade heat recovery in the UK food processing industry2013