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Professor Tassos Karayiannis Professor Tassos Karayiannis EDUCATION PhD Engineering Science, Convective Heat Transfer, The University of Western Ontario, London, Ontario, Canada. BSc (hons) Mechanical Engineering , City University, London, UK. EMPLOYMENT 2020-present Director, Centre for Energy Efficient and Sustainable Technologies, Ã÷ÐÇ°ËØÔ Univ. London 2018-present Research Group Leader, Two-Phase flow and Heat Transfer, Ã÷ÐÇ°ËØÔ 2017-2020 Research Theme Leader, Energy Efficient and Sustainable Technologies, Ã÷ÐÇ°ËØÔ Univ. London 2014-2017 Vice Dean Education, College of Engineering, Design and Physical Sciences, Ã÷ÐÇ°ËØÔ Univ. London 2005-2014 Deputy Head of School of Engineering and Design, Ã÷ÐÇ°ËØÔ 2004-2005 Head of Department of Engineering Systems, London South Bank University 2001-2003 Head of Division of Environmental and Energy Engineering, London South Bank University 1993-2001 Head of Research, School of Engineering Systems and Design, London South Bank University 1998 Professor of Engineering; 1996 Reader in Mechanical Engineering; 1993 Principal Lecturer (Thermofluids); 1989 Senior Lecturer; 1988 Lecturer, London South Bank University 1994-1996 Honorary Senior Visiting Fellow; 1988-1994 Honorary Visiting Fellow, City University. 1986-1988 British Technology Group Research Fellow, Electrohydrodynamic Enhancement of Boiling and Condensation in Heat Exchangers, City University. 1986 Research Fellow, Cavitation Erosion, University of Southampton. 1981-1986 Teaching Assistant, The University of Western Ontario. Single-phase Heat Transfer Boiling and Condensation Heat transfer Enhancement Techniques in Heat Transfer Heat Transfer in micro-passages Heat Exchangers Thermal Systems, Refrigeration, Renewables - Geothermal Thermodynamics Thermofluids, Heat and Mass Transfer Research Methods
Dr Salman Masoudi Soltani Dr Salman Masoudi Soltani
Email Dr Salman Masoudi Soltani Reader in Chemical Engineering
I am a Reader (Associate/Professor) in Chemical Engineering. In May 2017, I joined Ã÷ÐÇ°ËØÔ as a founding member of the new Chemical Engineering Department, on the team in charge of the design and development of the Programme. I am a Chartered Engineer (CEng/MIChemE) with both industrial and academic research backgrounds in chemical and process engineering. I am also a Fellow of Higher Education Academy (FHEA), UK, and the Director of Research with the Department of Chemical Engineering. My research area is mainly centred on Separation Processes (Experimental & Process Design/Modelling) with a key focus on adsorption processes. I have led a number of major research projects on and around carbon capture and hydrogen production, funded via Engineering and Physical Sciences Research Council (EPSRC), UK Carbon Capture and Storage Research Centre (UKCCSRC), and the Department for Energy Security & Net Zero (DESNZ), along with a number of industrial consultancy projects, the details of which have been included under the "Research" tab of this profile. In 2022, my research was featured in the prestigious Institution of Chemical Engineers (IChemE)' magazine (The Chemical Engineer). I am also serving as the technical advisor with JET Engineering (Anionix). Before joining Ã÷ÐÇ°ËØÔ University of London, I worked as a Postdoctoral Research Associate with the Department of Chemical Engineering (Clean Fossil & Bioenergy Research Group) at Imperial College London, UK (07/2015 – 05/2017), contributing to several EPSRC as well as EU- and OECD-consultancy projects (Opening New Fuels for UK Generation; Gas-FACTS; CO2QUEST) in the realms of biomass combustion and the modelling and optimisation of CO2 capture & utilisation processes - in Professor Paul Fennell's research group and in collaboration with Professor Niall Mac Dowell and Professor Nilay Shah. In March 2017, I received the prestigious endorsement as the Exceptional Talent in Chemical Engineering by the Royal Academy of Engineering, UK. Prior to this, I worked as a Postdoctoral Knowledge Transfer Partnership Research Associate with Dr Shenyi Wu (Fluids and Thermal Engineering Research Group) at the University of Nottingham, UK (08/2013 – 07/2015), during which, I was fully based at A-Gas International ltd. production site in Bristol (UK), where I worked as a Project/Process Engineer on a major joint engineering research and process design project, involving the research, front end engineering design (FEED), detailed design, and development of a bespoke industrial-scale gas separation process. I was awarded the University of Nottingham Scholarship to study for a PhD in Chemical Engineering (01/03/2011 - 22/02/2014). I conducted my research with the Department of Chemical & Environmental Engineering at the University of Nottingham, Malaysia Campus where I studied the effects of pyrolysis conditions on the structure of porous carbonaceous adsorbents synthesised from recycled waste, and the effect of subsequent surface modification on heavy metal removal from aqueous media. Adsorption Processes Carbon Capture and Utilisation (CCU) Blue Hydrogen Production Processes Separation Processes Chemical Reaction Engineering CL2605 – Chemical Reaction Engineering (module leader, 2019 - present) CL2607 – Separation Processes 1 (module leader, 2019 - present) CL3605 – Design Project (Group Supervisor, 2019 - present) CL1620 – Chemical Engineering Introduction (Thermodynamics Section, 2019) BE1603 – Engineering Systems and Energy (Thermodynamics Section, 2019 - 2021) ME1301 – Fundamentals of Thermofluids (Thermodynamics Section, 2017 - 2018) ME3309 – Major Individual Project (2017 - 2018)
Dr Jan Wissink Dr Jan Wissink
Email Dr Jan Wissink Senior Lecturer in Aerospace Engineering
I am the Senior Tutor and the Year 3 Level Tutor for all Undergraduate Students in the MAE Department. Ã÷ÐÇ°ËØÔ of Physical Mechanisms that promote air-water interfacial Heat and Mass Transfer Ã÷ÐÇ°ËØÔ of Transitional and Turbulent Flow in Model Linear Turbine Cascade Passages Wind Energy Solving Shallow Water Equations Environmental Fluid Mechanics Aerodynamics
Professor Atanas Ivanov Professor Atanas Ivanov
Email Professor Atanas Ivanov Professor of Advanced Engineering Design
Dr Ivanov world-leading expertise in non-traditional manufacturing spans over a decade of innovating and developing new technologies. In 2007 he was registered by GUINNESS BOOK RECORD for drilling the smallest hole in the world ø22µm 10 aspect ratio. From 2008 Dr Ivanov was the only producer of samples for cryogenic sensors from InSb for the European space programme and NASA. In 2009 he designed of the control of the mirrors for HERCHEL and PLANCK satellites and the sampler (ISOSAMPLER) for NASA for their ‘Medusa’ project for Mars and Jupiter missions. Dr Ivanov registered a world patent for using cutting tools as measuring probes as part of his work fr the Basque government in 2010. After joining Ã÷ÐÇ°ËØÔ he developed the first in the world micro electrochemical drilling machine for the fuel injection systems for BMW (SONPLAS). In 2013 Dr Ivanov built the first µECM milling machine. In the last 10 years Dr Ivanov acquired 15 grants and an income of over £1m as PI only, and an additional income as a collaborator. In 2018 he received an Innovate UK grant for developing a technology for the identification of airplane fasteners. Dr Ivanov is a world-leading specialist in µECM machining technology. In 2019/20 he developed world-leading µECM technology for sharpening glaucoma needles.
Dr Abhishek Lahiri Dr Abhishek Lahiri
Email Dr Abhishek Lahiri Senior Lecturer in Chemical Engineering
Dr. Lahiri joined Ã÷ÐÇ°ËØÔ University as lecturer in March 2020. He got his PhD from University of Leeds in 2008 after which he went on to do his Postdoc in USA and Japan. From 2011 he joined Clausthal University of Technology in Prof Frank Endres group and worked extensively on electrodeposition in ionic liquids and understanding the battery electrode/electrolyte interface. His work primarily focusses on electrochemical synthesis of functional materials using ionic liquids for energy storage and electrocatalysis. Besides, he focusses on sustainable extraction process for recovery of metal/metal oxides from electronic wastes and lithium ion batteries. In ionic liquids, the electrode/electrolyte interface is considerably different from aqueous electrolytes and therefore controlling and modifying the interface leads to change in functional properties of the materials. His research focusses and utilises the property of interfacial modulation to develop new functional materials and tries to bridge the gap between fundamental aspects of electrochemistry and applied electrochemistry. Questions such as can we design a suitable interface to develop dendrite-free deposits which are essential for developing high energy density Li/Na metal batteries are targeted. Besides, developing batteries for grid energy storage with sustainable materials are being researched. My research focuses on 1. Developing sustainable battery electrodes for Li, Na, Zn and Al batteries 2. Understanding and engineering the battery electrode/electrolyte interface to improve the device performance 3. Developing porous materials for photo/electrocatalysis and understanding the mechanism using both experiment and modelling 4. Battery recycling technology CL2601:Heat and Mass Transfer (Module leader) CL5604:Process Engineering Fundamentals (Module leader) CL2602: Chemical Engineer's Toolbox CL3603: Separation process II (Module leader) CL5650: Chemical engineering research project (Module leader)
Dr Kok Siew Ng Dr Kok Siew Ng
Email Dr Kok Siew Ng Senior Lecturer in Chemical Engineering
Dr Kok Siew Ng is Senior Lecturer (Associate Professor) in Chemical Engineering at Ã÷ÐÇ°ËØÔ and an NERC Fellow. He joined Ã÷ÐÇ°ËØÔ in March 2022 as a Lecturer (Assistant Professor) after the completion of his 4-year independent NERC fellowship at the University of Oxford. He is currently leading the Biorefinery and Resource Recovery Research Group and the interdisciplinary MSc in Advanced Chemical Engineering (Hydrogen and Low Carbon Technologies) at Ã÷ÐÇ°ËØÔ. Kok Siew was the Co-Investigator and Coordinator of the Oxford Agile project (Sprint 2) – a university-wide initiative focusing on tackling various environmental challenges using an interdisciplinary approach, funded through the £10 million NERC Changing the Environment programme, from 2022-2023. The sprint project aims to develop strategies for determining the best regional combination of nutrient recovery and utilisation options for both economic viability and environmental benefits. Prior to joining Ã÷ÐÇ°ËØÔ, Kok Siew was a UKRI/NERC Industrial Innovation (Rutherford) Research Fellow and Lecturer in Chemical Engineering at the Department of Engineering Science, University of Oxford, from 2018 to 2022. During his time in Oxford, he was a Principal Investigator for the SYNERGORS project 'A systems approach to synergistic utilisation of secondary organic streams' (£0.5 million), funded by NERC. The project aimed to explore novel approaches to addressing challenges in organic waste management and achieving circular economy. As the first Research Fellow in the Department to be offered a concurrent lectureship contract, he took on the role of delivering comprehensive full-module teaching. This includes conducting lectures, guiding tutorials, managing exams, and overseeing MEng project supervision. He completed his MEng Chemical Engineering with Chemistry (First Class Honours) in 2008, and later gained his PhD in 2011 from the Centre for Process Integration (CPI), The University of Manchester. After completing his PhD, he joined Process Integration Limited (PIL) as a consultant and later took up a position as a Postdoctoral Research Fellow at the Centre for Environment and Sustainability (CES), University of Surrey. Kok Siew is a chemical engineer by training with >15 years of research and industrial consultancy experience in systems engineering, process integration, techno-economic analysis and environmental life cycle assessment (LCA). His research vision is to develop novel and sustainable solutions from a systems engineering perspective, to facilitate the transition of the chemical, energy and waste industries from a fossil-based, linear system to one that is fundamentally sustainable by using renewables as the mainstream resources and by fully embracing circular economy principles. He has contributed to more than 10 UK and international projects funded by NERC, Innovate UK, EU FP7, Royal Academy of Engineering and Newton Fund. His research is significant in terms of addressing global challenges in the 21st century, aligned with the UN SDG 7 and 12, the UK Industrial Strategy, and international ambitions to achieving circular economy and net-zero target. Kok Siew has published more than 40 articles including journals, book chapters and magazine articles. He has authored "A New Systems Thinking Approach to Sustainable Resource Management: Principles and Applications" (2024) and co-authored “Biorefineries and Chemical Processes: Design, Integration and Sustainability Analysis” (2014). His work related to decarbonisation of energy systems has been recognised by the IChemE Junior Moulton Medal award (best publication) in 2011. Furthermore, Kok Siew has been nominated for the University of Oxford Vice-Chancellor's Environmental Sustainability Staff Award in 2022 for his contribution in actively promoting environmental sustainability through his research vision, which develops sustainable solutions from a systems engineering perspective. He is an Editorial Board Member of Resources, Conservation & Recycling Advances (RCR Advances) journal and also a reviewer for French ANR and UKRI/EPSRC proposals. Kok Siew is enthusiastic in establishing international collaboration with researchers from multidisciplinary background. He has been working closely with international academic and industrial organisations in the UK, Europe, China and South East Asia. He has organised and participated in a number of British Council/Newton Fund workshops in Malaysia, Mexico, Brazil, Kazakhstan and China, and attended the Royal Academy of Engineering Frontiers of Engineering for Development Symposium “From feeding people to nourishing people”. He has a long-term ambition in influencing resources and waste management practices in developing countries towards sustainable development through cross-disciplinary and cross-sectoral collaboration between the UK and international organisations. His ambition in international development together with the objectives of SYNERGORS are well aligned with the UK Industrial Strategy in enhancing resource efficiency and mitigating pollution and waste materials, while achieving a sustainable industrial growth and a more resilient economy at global level. Awards and Achievements Nominated for the University of Oxford Vice-Chancellor's Environmental Sustainability Staff Award, 2022. Best Oral Presentation Award, Newton-Al-Farabi UK-Kazakhstan workshop “Low-carbon Future: Efficient Management of Resources and Energy”, 26-28 September 2016, Astana, Kazakhstan. IChemE Junior Moulton Medal for the best publication, 2011 - “Ng, K.S., Lopez, Y., Campbell, G.M., Sadhukhan, J., 2010. Heat integration and analysis of decarbonised IGCC sites. Chem Eng Res Des., 88 (2): 170-188.” PhD Scholarships (2008-2011): Overseas Research Scholarship (ORS), Manchester Alumni Funds, Process Integration Research Consortium (PIRC) Research Funds, School of Chemical Engineering and Analytical Science Scholarship MEng Chemical Engineering with Chemistry Specialist Subject Course Prize (ranked 1st in the cohort), 2008, The University of Manchester. Biorefinery system design (biomass and waste valorisation; gasification; pyrolysis; hydrothermal liquefaction; Fischer-Tropsch; sustainable aviation fuel production) Decarbonised polygeneration system design (carbon capture and utilisation; combined heat and power; fuel and chemical production) Resource recovery from waste and Circular economy (management and valorisation of municipal solid waste including food waste, residual waste, recyclable waste) My research involves multidisciplinary and international collaboration in view of promoting sustainability and circular economy practices in the developing countries and addressing global challenges. Our initiatives are featured in the SYNERGORS and AGILE (Sprint 2) Final Reports: Ng, K.S., Hatton, L., Martinez-Hernandez, E. (2021) SYNERGORS - A Systems Approach to Synergistic Utilisation of Secondary Organic Streams. Final Project Report. University of Oxford. Funded by the UK Natural Environment Research Council (NE/R012938/1). ISBN: 978-1-7397541-0-5 Re-organising Nutrients Flows in Leicestershire My research employs systems engineering approach (conceptual design, simulation and mathematical modelling and optimisation, process integration), techno-economic assessment, environmental life cycle assessment (LCA) and policy analysis in developing innovative strategies for sustainable industrial system design and resource management. More information can be found in my Research Group page. CL5613/5653 Emerging Low Carbon Technologies (Module leader) CL5612/5657 Advanced Process Engineering (Module leader) CL3605 Chemical Engineering Design Project (Project group lead) CL5650 Chemical Engineering Research Project (Project lead)
Dr Edward Smith Dr Edward Smith
Email Dr Edward Smith Senior Lecturer in Fluid Dynamics
Edward Smith (www.edwardsmith.co.uk) is a researcher working on multi-scale methods combining particle and continuum simulation. He earned his PhD at Imperial College London, developing theoretical and computational techniques for the coupled simulation of molecular dynamics (MD) and computational fluid dynamics (CFD). After his PhD, he was awarded the post-doctoral excellence fellowship and published the first ever molecular dynamics simulation of near-wall turbulence. He spent time in Swinburne Australia working with experts in non-equilibrium molecular dynamics and statistical mechanics, before moving to Chemical Engineering at Imperial to work on multi-phase flow and the moving contact line. His next move was to Civil Engineering at Imperial to develop software (www.cpl-library.org), linking particles and continuum flows for granular systems. He recently took up a position at Ã÷ÐÇ°ËØÔ as a lecturer in fluid dynamics. Fluid Dynamics Computational Fluid Dynamics (CFD) Molecular Dynamics (MD) Coupled and multiscale simulation linking CFD and MD A developing idea: a complete 1D Navier-Stokes Solver on one page. Using Jupyter notebook to explain the complete discretisation of the Navier Stokes equations in 1D, explaining the simplest possible case (1D) how we can discretise our equations, issues with osciallations, (eventually) boundary conditions and the fractional step pressure solver. Multi-Scale Modelling Here are the notes for the continuum part of the multi-scale modelling course I taught 2017 and 2018. This was for masters students who have a background in a mathematical subject. Slides for the lectures, part one notes and part two notes two, as well as background notes. The lectures are available: Part one video, introduction to the continuum, differential equations and numerical solutions. Part two video, review of part one, more differential equations and an overview of the steps which lead the the Navier-Stokes equation. A white-board derivation video of the Navier-Stokes equation considering the link to molecular systems. Python Intro Course In order to address the lack of general Python teaching here at Imperial, I put together and gave a three part introduction course through the HPC support here at Imperial. This class was aimed at beginners and also for those who want to switch from Matlab to Python. Introduction to Python for scientific computing, 3/3/17 (Video) (Slides) (Solutions) Motivation for using Python. Introduction to programming in Python Python concepts (lists, iterators, etc) and discussion of the differences to other languages. Scientific libraries numpy and matplotlib. Examples of usage for scientific problems. Further details of the Python language, 10/3/17 (Video) (Slides) (Solutions) More on Python data structures: concepts like references, immutable, lists, data organisation with Dictionaries and numpy arrays. Use of functions and design of interfaces. Introduction to classes and objects. Structuring a project, importing modules and writing tests. Examples of usage for scientific problems. Python libraries, 17/3/17 (Video) (Slides) (Solutions) Using Python to read files (ascii, binary, hp5) and plot. Running parameter studies by calling executables repeatedly with subprocess. Designing a basic Graphical User Interface. Unit testing frameworks and version control. Other libraries and how to wrap your own code from fortran, c++, etc Further course details are available on my website:
Dr James Tyacke Dr James Tyacke
Email Dr James Tyacke Senior Lecturer in Aerospace Engineering (Aerodynamics)
As Senior Lecturer in Aerospace Engineering, I am primarily interested in Large Eddy Simulation (LES) of complex flows including Urban Air Mobility Vehicles (Air Taxis), Jet Aeroacoustics, Turbomachinery, Electronics Cooling and Geothermal Energy. Multi-fidelity modelling underpins these areas, both in terms of turbulence modelling and geometry representation. Modern High Performance Computing (HPC) architectures are also being leveraged for both simulation and analysis of large data sets (Big Data), revealing unsteady flow physics. Further interests include increasing CFD automation, including mesh generation and optimisation, solution analysis and feedback into knowledge-based systems using Machine Learning and AI. I am Director (numerical methods) of the Ã÷ÐÇ°ËØÔ Aerospace Research Centre (ARC). With a vibrant multi-disciplinary research culture, the ARC solves todays pressing aerospace challenges. We pride ourselves in supporting diverse researchers at all career stages and working with the largest and smallest industries. Please get in touch to see how the ARC can meet your needs. An EPSRC funded Doctoral Landscape Award (DLA) PhD studentship is currently avilable for Next-Generation CFD modelling of High-Pressure Turbine cooling. For Chinese applicants, Ã÷ÐÇ°ËØÔ also has 20 PhD scholarships available. Please get in touch to discuss potential projects. A range of self-funded projects are also possible, focusing on multi-fidelity Computational Fluid Dynamics (CFD). Example projects: DLA (previously DTP) funding details: Research degree funding: External funding: My interests lie in tackling challenging and often complex geometry flows using LES and HPC and the use of hybrid LES-RANS to reduce computational cost. Wider research includes solver technology, utilising both second and higher order numerical methods to enable selective application of the best tools for industrial use and to understand detailed flow physics. Detailed datasets can then also be exploited to improve lower order design modelling. I am Director (numerical methods) of the Ã÷ÐÇ°ËØÔ Aerospace Research Centre (ARC). With a vibrant multi-disciplinary research culture, the ARC solves todays pressing aerospace challenges. We pride ourselves in supporting diverse researchers at all career stages and working with the largest and smallest industries. Please get in touch to see how the ARC can meet your needs. I am Editor for the Cambridge Unsteady Flow Symposium proceedings which has now been published: Proceedings of the Cambridge Unsteady Flow Symposium 2024 I am currently focused on Urban Air Mobility Vehicle modelling and Geothermal Energy. I have recently investigated installed jet engine aeroacoustics using LES, solving challenges such as the use of the Ffowcs Williams-Hawkings method for complex geometry installed ultra-high bypass ratio jets under flight conditions. Previously I have pioneered engine-airframe coupling where an engine with bypass duct internal geometry generates resolved turbulence and is coupled to a jet-pylon-wing-flap geometry. To reveal noise generation mechanisms I am developing parallel analytical tools for 3D unsteady datasets. Prior to this I investigated application of LES to gasturbine zones. Flows studied included internal cooling, labyrinth seals and LPT/HPT blades. This investigation defined where LES is suitable and affordable relative to rig testing. It also provided a flow categorisation and framework for performing LES in industry, identifying future challenges.During my PhD, I studied conjugate heat transfer for an array of heated cubes and convective heat transfer within ribbed ducts and within large electronics system enclosures. For these I tested a wide range of linear and non-linear RANS models, linear and mixed non-linear LES sub-grid scale models, hybrid LES-RANS and high-order central and upwind spatial discretisations. Aerospace MSc Course Director ME5681 Aerospace MSc group design projects (module leader and supervisor) ME3621 Applied Fluid Dynamics and CFD ME2619 Aerodynamics ME2555 Industrial Work Placement (CEng, IMechE MPDS mentor) ME5500 Mechanical/Aerospace/Automotive Engineering MSc dissertation supervision ME3620 Mechanical/Aerospace/Automotive Engineering final year dissertation supervision BE1707 Statics and Dynamics
Dr Fang Wang Dr Fang Wang Dr Fang Wang is a Senior Lecturer in the Department of Computer Science at Ã÷ÐÇ°ËØÔ. She received a PhD in artificial intelligence from the University of Edinburgh and worked as a senior researcher in the research centre of British Telecom (BT) Group, before she joined Ã÷ÐÇ°ËØÔ in 2010. Dr. Wang has published a number of papers in books, journals and conferences and filed a series of patents. Dr. Wang is an established teacher and researcher in computer science and artificial intelligence. Her research interests include nature-inspired computing, agents, intelligent information processing, intelligent distributed computing, cognitive radio networks, e-learning and cloud education, cognitive science and computer vision. She actively participated in a number of EU, EPSRC, BT long term research projects and received several technical awards, including the Gordon Radley Technical Premium Highly Commended award of BT and ACM Best Student Paper Award at the Third International Conference on Autonomous Agents. She is on the editorial boards of several international journals and serves on many program committees. Dr. Wang’s main research interest is in artificial intelligence and its applications. This includes using nature-inspired techniques such as intelligent agents, swarm intelligence, evolutionary computing and neural networks to solve real world applications such as network optimisation, radio spectrum management, decentralised computing, user analysis, self-organising communities, and so on. Lectured, administered, tutored and examined courses at undergraduate and MSc levels on topics including Introduction to programming, Algorithms and their applications, Systems in Context, Digital Innovation, level 1 and level 2 group projects and final year projects. Class sizes varied from 8 to 350. Supervised a number of undergraduate and MSc projects.
Dr Lee Hosking Dr Lee Hosking
Email Dr Lee Hosking Senior Lecturer in Energy Geomechanics
Lee is a Senior Lecturer in Energy Geomechanics in the Department of Civil and Environmental Engineering. His research focuses on numerical modelling of deep subsurface environments with attention to coupled thermal-hydraulic-mechanical (THM) phenomena, accurate and efficient fracture network representation, and damage evolution. For over 10 years, the main practical application of his research has been geological COâ‚‚ storage with respect to storage capacity, injectivity, and migration/confinement. He has also worked on unconventional geothermal energy systems and radioactive waste disposal. Alongside his research, Lee teaches energy infrastructure engineering and climate change science and technology, and is Senior Tutor for Civil and Environmental Engineering. Before joining Ã÷ÐÇ°ËØÔ in 2020, Lee was a postdoctoral researcher at the Geoenvironmental Research Centre, Cardiff University, where he performed research on COâ‚‚ storage as part of the FLEXIS energy systems research project. He received his PhD from Cardiff University in 2014 for research on coupled THM behaviour during COâ‚‚ injection in coal, having graduated with an MEng Civil Engineering, also from Cardiff University. Lee's current research projects, funded by The Royal Society and EPSRC (via both UKCCSRC and Horizon Europe underwrite), are investigating key aspects of COâ‚‚ storage linked with injection well integrity and the prediction and management of fluid injection-induced seismicity. These projects are being delivered alongside his national and international partners from academia and industry. His professional affiliations include Fellowship of the Higher Education Academy, membership of the Editorial Board for the journal Deep Underground Science and Engineering, and membership of the UK Carbon Capture and Storage Research Centre, British Geotechnical Association, and International Society for Rock Mechanics and Rock Engineering. Within Ã÷ÐÇ°ËØÔ's research environment, he is part of the Centre for Energy Efficient and Sustainable Technologies as well as the Two-Phase Flow and Heat Transfer and Geotechnical and Environmental Engineering research groups. Lee is always looking for talented and motivated PhD students as well as new collaborators for research projects. Geological COâ‚‚ storage Unconventional geothermal energy Theoretical and numerical modelling (finite element method) Coupled thermal, hydraulic, mechanical, chemical (THMC) behaviour of fractured geomaterials Dual porosity and discrete fracture network (DFN) modelling Damage modelling Lee is currently involved in the delivery of the following modules: Module leader: CE3622 Energy Infrastructure Engineering (undergraduate, third year) CE5626 Climate Change and the Environment (postgraduate) Module contributor: CE3618/CE3630 Individual Project (undergraduate, third year) CE5516 Civil Engineering Dissertation (postgraduate)
Dr Francesco Coletti Dr Francesco Coletti
Email Dr Francesco Coletti Senior Lecturer in Chemical Engineering
Dr. Francesco Coletti is a Senior Lecturer (part-time) in Chemical Engineering and a member of the founding team of the Chemical Engineering Department at Ã÷ÐÇ°ËØÔ. He is also a co-founder and the CEO of Hexxcell Ltd., a London based technology company providing predictive analytics and prescriptive maintenance solutions for industrial heat transfer systems to major international oil&gas and petrochemical companies. His expertise and research interests are at the intersection of the two exciting fields of Process Systems Engineering and Heat Transfer with focus on modelling, optimisation and predictive maintenance of energy systems. In these fields, he has published ~40 peer-reviewed papers and conference proceedings, 2 Special Issues, 2 patents and a monograph. He is also the Executive Editor of Heat Exchanger Design Handbook. Francesco has a track-record in industrial research having worked and consulted for a number of Fortune 500 companies (e.g. Praxair, USA) and in technology transfer having developed a commercialised software to the oil&gas industry and served as Industry Engagement Manager for Imperial Consultants. He is a Fellow of the Energy Institute, a Director of the Fuels&Petrochemical Division of the American Institution of Chemical Engineers (AIChE), the Secretary of the UK National Heat Transfer Committee and a Member of the Assembly for International Heat Transfer Conferences. He initiated, and is the Chair of, the Topical Series on Heat Exchangers held every two years at the AIChE Spring Meeting. He holds a Laurea degree in Chemical Engineering from the University of Padova, Italy, an MSc in Process Systems Engineering from Imperial College London and a PhD in Chemical Engineering also from Imperial College London which he earned in 2010, winning the Departmental Newitt Prize for theoretical and computational excellence and the College-wide award for excellence in research in fuel production. Heat Transfer Process Systems Engineering Machine Learning
Dr Princewill Ikpeka Dr Princewill Ikpeka
Email Dr Princewill Ikpeka Lecturer in Global Challenges (Global Innovation)
Princewill is a Lecturer at Ã÷ÐÇ°ËØÔ University and leads the global innovation pathway for the Global Challenges and Transdisciplinary Studies at the University. He had his PhD in Chemical Engineering from Teesside University and has several publications in high-impact journals. Princewill has been involved in several research projects including integrating Machine Learning Algorithms for optimizing natural gas production. His research interest includes Energy Transition, Sustainable Energies, and Decarbonization. Dr Princewill's research interest spans decarbonization technologies, blue hydrogen production, and sustainable hydrocarbon production conversion. In addition, he actively collaborates in interdisciplinary fields related to climate change and the advancement of lower-carbon energy sources. He has been involved in several research projects involving the integration of Machine Learning Algorithms to predict and optimize natural gas production. GC1700 - Introduction to Global Challenges GC1702 - Global Innovation Investigation GC2700 - Addressing Contemporary Global Challenges GC2704 - Global Innovation Integration GC3701 - Global Innovation Practice

Associate members

Professor Harjit Singh Professor Harjit Singh
Email Professor Harjit Singh Professor - Sustainable Energy Technologies
Dr Singh received his BEng, and MEng (IIT Roorkee, India) with specialisation in Mechanical and Thermal Engineering disciplines and PhD (University of Ulster, UK) in experimental evaluation of natural convective heat transfer in CPC solar collector cavities. He was a Senior Lecturer in Renewable Energy at the Kingston University London (2009-2011) prior to accepting the current position. He has six years of research experience on various EU, EPSRC, the Carbon Trust and Defra funded projects. Dr Singh was previously a Lecturer of Mechanical Engineering at National Institute of Technology Hamirpur, India. His research focuses on various aspects of solar energy systems, energy use in built environment. Topics currently being researched into include design and development of novel concentrating solar collectors, vacuum insulation panels and building retrofit for improved energy efficiency. Concentrating solar thermal power systems, Vacuum insulation panels, Building integrated concentrating solar systems, Building retrofit for improved energy efficiency, Polymeric solar collectors.
Professor Valentina Stojceska Professor Valentina Stojceska PhD in Food Engineering – School of Biosystems Engineering, University College Dublin Postgraduate Certificate in Academic Practice (PGCAP) –Manchester Metropolitan University BSc in Biotechnology and Food Process Engineering - Faculty of Technology, St. Cyril and Methodius University of Skopje She has an extensive industrial and academic experience in sustainable food processing and innovative food product development, which she has put into practice via extensive collaboration with the food industry. She has successfully delivered a number of national and international projects as principal investigator and co-investigator. She supervises research assistants, postgraduate and final year students and lectures on the MSc and BSc courses. Valentina has been publishing internationally in high regarded journals and presenting at the conferences worldwide. Her previous research was focused on improving the quality of the food products (nutritional and sensorial properties) using novel functional ingredients and different processing techniques. Valentina’s main research interests are in the area of food technology, sustainability, resource and energy efficiency. Course director: BSEM Module leader: ME5522: Environmental Legislation: Energy and Environmental Review and Audit (MSc) ME5500: MSc Dissertation Module ME5551: Management of Facilities & Engineering Contracts (MSc) ME5507: Management of People in Eng. Activities (MSc) ME5555: Engineering Finance & Accounting (MSc) Previous teaching (selected modules) Food Innovation and Product Design (MSc) Food Product Innovation (BSc) Food Chemistry (BSc)
Professor Savvas Tassou Professor Savvas Tassou
Email Professor Savvas Tassou Professor - Energy
Academic and Professional Qualifications BSc (1st Class Honours) Mechanical Engineering PhD Department of Mechanical Engineering. Thesis titled `An Investigation of the Criteria to Give Optimum Performance from a Variable Capacity Heat Pump\'. MBA Master of Business Administration. CEng Chartered Engineer. MIMechE Corporate member of the Institution of Mechanical Engineers. MASHRAE Member of the American Society of Heating Refrigerating and Air Conditioning Engineers.. MIIR – Member of International Institute of Refrigeration FInstR - Fellow of the Institute of Refrigeration Academic Career 1978 - 1981 Research Assistant - University of Westminster 1981 - 1986 Lecturer in thermofluids and energy - University of Westminster 1986 to date - Lecturer/Senior Lecturer/Reader/Professor in Thermodynamics and Building Services Engineering - Ã÷ÐÇ°ËØÔ 2001 - 2004 - Head of Department of Mechanical Engineering 2004 - 2014 - Head of School of Engineering and Design 2014 to date - Director of Institute of Energy Futures Environmental control systems for buildings – both active and passive technologies (Refrigeration, air conditioning, heat pump systems, heat recovery, systems driven by renewable sources). Development and application of modelling techniques and control strategies for the thermal design, performance prediction and control of refrigeration and HVAC equipment. Food refrigeration including supermarket refrigeration and environmental control systems and unitary equipment. Energy systems including tri-generation and renewable energy technologies. Heat transfer and heat exchangers. Wastewater filtration. Thermodynamics and heat transfer Air conditioning and refrigeration Building services design Energy Systems