A fully funded PhD opportunity at Manchester Metropolitan University focusing on developing a next-generation smart Coriolis mass flow meter using advanced fluid–structure interaction (FSI) modelling and machine-learning approaches. Ideal for candidates in Mechanical Engineering, Applied Mechanics, or Computational Modelling.
Important Information Table
| Field | Details |
|---|---|
| Title | PhD – Smart Coriolis Flow Meter: FSI Computational Modelling |
| Organization/Publisher | Manchester Metropolitan University |
| Work Location | Manchester, United Kingdom |
| Research Field | Mechanical Engineering, Fluid–Structure Interaction, CFD/FEM, Applied Mechanics |
| Funding Info | Home tuition fees + UKRI stipend £20,780 (2025/26) |
| Application Deadline | 1 December 2025 |
| Country | United Kingdom |
| Researcher Profile | PhD Student |
| Apply Button | (Official Link below) |
| Required Qualification | BEng/BSc/MSc in Mechanical Engineering / Applied Mechanics / Applied Mathematics |
| Required Experience | CFD/FEM software (ANSYS, Abaqus, SolidWorks); knowledge of fluid & solid mechanics |
| Salary Details | UKRI stipend £20,780/year (2025/26) |
The Coriolis Mass Flowmeter (CMF) is recognized as one of the most accurate mass flow measurement technologies used across oil & gas, water, and wastewater industries. Its operation depends on the vibration behaviour of flow tubes and phase shift measurement. However, the full fluid–structure interaction (FSI) mechanism influencing CMF accuracy has not yet been completely modelled due to computational complexity.
This PhD project aims to develop a novel modelling and analytical framework to better understand and optimise CMF performance by focusing on the global interaction of fluid behaviour and structural vibration. Supported jointly by MMU and an industrial partner, the research will combine advanced simulation, mathematical modelling, and machine-learning predictive techniques.
Who Is Eligible?
Applicants must be Home (UK) students holding a strong academic background in:
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Mechanical Engineering
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Applied Mechanics
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Applied Mathematics
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Computational Engineering
Key Research Areas
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Fluid–Structure Interaction (FSI) modelling
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CFD and FEM simulation
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Deep learning predictive modelling
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Vibrational behaviour of flow tubes
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Sensitivity and performance analysis of flow meters
Benefits
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Fully funded Home tuition fees for 3 years
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UKRI standard stipend of £20,780 (2025/26)
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Access to advanced research facilities in the Dalton Building
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Opportunities to work with an industrial partner
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Multidisciplinary training and real-world validation
How to Apply
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Contact Dr. Jiling Feng for an informal discussion.
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Complete the online application for a full-time PhD in Engineering at MMU.
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Upload your CV and a cover letter (max 2 pages) addressing essential criteria.
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Alternatively, email your documents to PGRAdmissions@mmu.ac.uk.
Expected Start Date: April 2026
Reference: SciEng-JF-April 2025-26-Coriolis Flow Meter
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