PhD Studentship in Chemical Engineering
Programme Details
- Programme Length: Four years
- Contract Type: Full-time
- Prospective Start Date: October 2026
The positions are filled on a first-in, first-served basis; therefore, early expression of interest is encouraged.
Net2Zero Centre for Doctoral Training
The EPSRC and BBSRC Centre for Doctoral Training in Negative Emission Technologies for Net Zero (CDT in Net2Zero) is an equal partnership between Aston University (lead), University of Nottingham, Queen’s University Belfast, and University of Warwick.
Through cutting-edge research and interdisciplinary collaboration, this CDT aims to tackle global challenges related to climate change and sustainability.
This four-year doctoral programme is training the next generation of research leaders tasked with removing greenhouse gases from the environment.
The CDT in Net2Zero focuses on the use of biomass to replace fossil fuels and removal (or capture) of CO2 from the atmosphere, with the potential to create new sources of fuels and chemicals. The centre’s expertise covers:
- Direct Air Capture and CO2 Storage (DACCS)
- CO2 utilisation
- Biochar synthesis and utilisation
- Biomass transition to materials and chemicals
- Biomass to energy with carbon capture and storage (BECCS)
Training and Development
Through the research training programme, students will be able to:
- Develop a network with doctoral researchers, academia, government and industry.
- Access cutting-edge facilities and opportunities for international collaboration, preparing for a successful career in academia, industry, or policymaking.
- Carry out a training programme covering practical engineering, communication, entrepreneurship, and business skills to prepare students for diverse sectors.
- Engage directly with industrial partners, policymakers, and third-sector organisations to support future careers.
- Undertake a three-month placement with industry, research collaborators, or policymakers.
Project Overview and Background
The project aims to develop and demonstrate a laboratory-scale reactor that can function as a biochar/bio-syngas generator and a bioenergy with carbon capture and storage (BECCS) reactor.
Objectives
- In collaboration with a commercial laboratory furnace manufacturer, to conceptually design a laboratory-scale electrically heated furnace that can house the multifunctional reactor.
- To design and work with university engineering technicians to manufacture at least two types (fluidised bed and fixed bed) of laboratory-scale reactors to produce biochar and evaluate BECCS technology based on calcium-based and other solid sorbents.
- To conduct biochar production tests using a multifunctional reactor system with a range of biomass feedstocks and characterise biochar properties (e.g., pore size distribution, porosity) using analytical equipment (e.g., BET, SEM, XRD, TGA) available at the University of Nottingham.
- To conduct CO2 capture tests using calcium-based sorbents (high temperatures) and other solid sorbents (including biochar-derived sorbents) (low temperatures), using simulated CO2-containing gaseous mixtures in phase 1 and real CO2-containing flue gases in phase 2.
Person Specification
Essential
Candidates should hold or expect to gain a first-class or upper second-class honours degree (or equivalent) in:
- Chemical Engineering
- Mechanical Engineering
- Materials Sciences
- Chemistry
- Or a closely related subject
Desirable
Previous design and operational experience with fluidised bed reactors at any scale is an advantage.
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