Flow Facilities with Refractive Index Matched Solution (FoRMS)
Reference Number
EP/Y036409/1
Title
Flow Facilities with Refractive Index Matched Solution (FoRMS)
Status
Started
Energy Categories
Other Cross-Cutting Technologies or Research
Not Energy Related
Not Energy Related
Research Types
Equipment
Science and Technology Fields
PHYSICAL SCIENCES AND MATHEMATICS (Physics)
PHYSICAL SCIENCES AND MATHEMATICS (Applied Mathematics)
ENGINEERING AND TECHNOLOGY (Mechanical, Aeronautical and Manufacturing Engineering)
PHYSICAL SCIENCES AND MATHEMATICS (Applied Mathematics)
ENGINEERING AND TECHNOLOGY (Mechanical, Aeronautical and Manufacturing Engineering)
UKERC Cross Cutting Characterisation
Not Cross-cutting
Principal Investigator
Dr B Ganapathisubramani
School of Engineering Sciences
University of Southampton
School of Engineering Sciences
University of Southampton
Award Type
Standard
Funding Source
EPSRC
Start Date
01 July 2024
End Date
30 June 2027
Duration
36 months
Total Grant Value
£2,415,625
Industrial Sectors
Mechanical engineering
Region
South East
Programme
National Wind Tunnel Facility
Investigators
Principal Investigator
Dr B Ganapathisubramani, School of Engineering Sciences, University of Southampton
Other Investigator
Dr S Krishna, Sch of Engineering, University of Southampton
Dr J M Lawson, Sch of Engineering, University of Southampton
Dr J M Lawson, Sch of Engineering, University of Southampton
Web Site
Objectives
Abstract
The project aims to develop a Laboratory that will house Flow Facilities with Refractive-Index-Matched Solution (FoRMS lab). The lab comprises of two recirculating fluid flow loops designed to carry out experiments by matching the refractive index of the fluid with that of clear-solid models. Typically, laser diagnostics provides full-field information in areas of a flow where there is optical access. However, it is impossible to gain optical access in most complex flows where the important information is near the surface, within the substrate or is obscured by the model. This inaccessibility can be solved by matching the refractive index of the solid to the fluid, which allows access to laser-based flow diagnostics techniques like particle image velocimetry (PIV) and obtaining full-flow field data in previously inaccessible locations. We aim to use to Sodium Iodide salt solution that has the same refractive index as most PMMA. Therefore, models made from acrylic/perspex etc as well as silicone elastomers will have the same index of refraction as the fluid. These materials are ideal for rapid manufacture of model using a combination of 3D printing as well as casting and moulding techniques. We will be able to carry out high-fidelity experiments where new full-field velocity information can be obtained in complex flows that enables using transition to a data-driven modelling paradigm that has remained elusive for these complex flows
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Added to Database
24/07/24
