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Design, build, commission and operation of a bespoke carbon capture plant in UK

Ongoing

This is an exciting project which aims to design, build, commission and operate a bespoke carbon capture unit with a capacity of 100 tCO2/year in the UK. 

In other to limit the global temperature increase to less than 2 C, carbon emissions from various sectors such as power and industry must be reduced.

This is a challenging task due to the high costs of CO2 capture and process complexities associated with such technologies. Removing carbon directly from the air, known as direct air capture (DAC), is a difficult and energy-intensive process, given the very low concentration of atmospheric CO2.

In this project, we are investigating the feasibility of an innovative process to remove CO2 from seawater - a media that holds higher concentrations of CO2 compared to air. The final gas stream will have a much higher concentration of CO2, comparable to the flue gas generated at a gas-fired power plant. This higher concentration would make the separation a less energy-intensive process compared to direct air capture, due to an increased "concentration" driving force.

We will design, build, commission and operate a pilot plant to remove 100 tonnes of CO2 per year (hence, proving the conceptual process), and therefore, accelerate the transition towards a net-zero-carbon future.

The team comprises experts from Ã÷ÐÇ°ËØÔ (Dr Salman Masoudi Soltani), the University of Exeter (Dr Paul Halloran - project lead) and Plymouth University (Dr Thomas Bell), as well as our industrial partner, Eliquo Hydrok ltd.

This project aims to prove the process concept and raise the TRL level for this specific and bespoke CO2 separation technology in the UK.


Meet the Principal Investigator(s) for the project

Dr Salman Masoudi Soltani
Dr Salman Masoudi Soltani - 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. 

Partnering with confidence

Organisations interested in our research can partner with us with confidence backed by an external and independent benchmark: The Knowledge Exchange Framework. Read more.


Project last modified 02/10/2023