Sort by
Refine Your Search
-
equivalent in a subject relevant to the proposed PhD project. Due to nature of this project, the candidate should have a strong background in Engineering, especially chemical engineering or another closely
-
reliability. This PhD project will develop lifecycle and systems‑level models that track these fuels from production through storage, onboard use and energy conversion. Using advanced simulation and analysis
-
Supervisors Dr. Yinhao Li Eligibility Criteria You must have/expect to gain, minimum 2:1 Honours degree/international equivalent in a relevant subject to the proposed PhD project. A solid background in computer science
-
equivalent in a subject relevant to the proposed PhD project (e.g., mathematics/statistics, engineering, quantitative ecology/biology). A Masters qualification in a relevant subject area will be advantageous
-
PhD project (e.g., mathematics/statistics, engineering, quantitative ecology/biology). A Masters qualification in a relevant subject area will be advantageous. This studentship is only available
-
from waste/biomass which do not compete with food production, could be the key sustainable “drop-in” marine fuel of the future. This PhD project addresses a key challenge: how to efficiently produce bio
-
PhD Studentship - Process Industries: Net Zero CDT: Advanced Process Intensification Strategies for Chemical and Catalytic Reactions Using Taylor–Couette Reactor Technology Award Summary 100% fees
-
minimum 2:1 Honours degree or international equivalent in a subject relevant to the proposed PhD project (e.g. Applied Mathematics, Physics, Mechanical or Chemical Engineering). Enthusiasm for research
-
subjects of this PhD programme including process intensification and green chemistry. Number of awards: 1 Start date: 1st October 2026 Award duration: 4 years Sponsor: EPSRC Supervisors Professor Kamelia
-
for candidates passionate about sustainability, plant science, and nature-based engineering innovation. This PhD studentship is part of the Water Infrastructure & Resilience (WIRe) CDT funded by EPSRC and the