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James Venning

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James Venning

Research Fellow

Room Level 2, Office 3 , Cavitation Research Laboratory, Building A1

03 6324 9723 (phone)

James.Venning@utas.edu.au

Dr James Venning is a postdoctoral research fellow at the Australian Maritime College. Working in the Cavitation Research Laboratory, his specialisations are nucleation effects on cavitation, experimental fluid dynamics, and bluff-body flows.

Biography

Following an undergraduate course in Aerospace Engineering, Dr Venning’s post-graduate research at Monash University into bluff-body wakes was the start of his work in experimental fluid mechanics. Using techniques such as Particle Image Velocimetry (PIV), hot-film anemometry, laser-doppler velocimetry, and novel force measurement tools, James has studied the flows around various bluff bodies, with a particular focus on vehicle aerodynamics. James has experience working in water flumes, wind tunnels, and cavitation tunnels, on both applied and fundamental research.

Career summary

Qualifications

Degree Thesis title UniversityCountry Date of award
PhD Vortex structures in the wakes of two- and three-dimensional bodies. Monash University Australia 2015
Bachelor of Aerospace Engineering (1st Class Hons) The effect of forcing on flow over rectangular plates Monash University Australia 2010

Administrative expertise

Managing research groups and laboratory facilities

Teaching

Fluid dynamics, aerodynamics, computational mechanics, hydrodynamics, industrial design, MATLAB

View more on Dr James Venning in WARP

Expertise

  • Cavitation
  • Nucleation effects on cavitation
  • Microbubble generation
  • Experimental fluid dynamics
  • Bluff body and vehicle aerodynamics
  • Model reduction with POD and DMD
  • Vortex-induced-vibration
  • PIV and time-resolved PIV

Collaboration

Dr Venning has active collaborations with Monash University, Institut de Mécanique des Fluides de Toulouse (Institute of Fluid Mechanics of Toulouse, IMFT, France), Defence Science and Technology Group (DSTG) and the Japanese Ministry of Defense.

Current projects

The project James is currently involved in is a collaborative research project between the Australian Department of Defence and the Japanese Ministry of Defense. The objective is to study the role that nuclei (weaknesses in water) play in cavitation around hydrofoils and propellers.

Fields of Research

  • Ship and platform structures (incl. maritime hydrodynamics) (401504)
  • Fluid mechanics and thermal engineering (401299)
  • Marine engineering (401501)
  • Aerodynamics (excl. hypersonic aerodynamics) (401201)
  • Microfluidics and nanofluidics (401210)
  • Experimental methods in fluid flow, heat and mass transfer (401205)
  • Special vehicles (401505)
  • Dynamics, vibration and vibration control (401702)
  • Turbulent flows (401213)

Research Objectives

  • Expanding knowledge in engineering (280110)
  • Maritime (140108)
  • Expanding knowledge in the physical sciences (280120)
  • Emerging defence technologies (140104)
  • Transport energy efficiency (170104)
  • Nautical equipment (241503)
  • Scientific instruments (241003)
  • Water transport (270499)

Publications

Total publications

39

Highlighted publications

(5 outputs)
YearTypeCitationAltmetrics
2020Journal ArticleRussell PS, Barbaca L, Venning JA, Pearce BW, Brandner PA, 'Measurement of nuclei seeding in hydrodynamic test facilities', Experiments in Fluids, 61, (79) pp. 1-18. ISSN 0723-4864 (2020) [Refereed Article]

DOI: 10.1007/s00348-020-2911-2 [eCite] [Details]

Citations: Scopus - 5Web of Science - 4

Co-authors: Russell PS; Barbaca L; Pearce BW; Brandner PA

Tweet

2018Journal ArticleBrandner PA, Venning JA, Pearce BW, 'Wavelet analysis techniques in cavitating flows', Philosophical Transactions A, 376, (2126) Article 20170242. ISSN 1364-503X (2018) [Refereed Article]

DOI: 10.1098/rsta.2017.0242 [eCite] [Details]

Citations: Scopus - 5Web of Science - 5

Co-authors: Brandner PA; Pearce BW

Tweet

2016ThesisVenning JA, 'Vortex Structures in the Wakes of Two- and Three-Dimensional Bodies' (2016) [PhD]

[eCite] [Details]

2015Journal ArticleHuang Y, Venning J, Thompson MC, Sheridan J, 'Vortex separation and interaction in the wake of inclined trapezoidal plates', Journal of Fluid Mechanics, 771 pp. 341-369. ISSN 0022-1120 (2015) [Refereed Article]

DOI: 10.1017/jfm.2015.160 [eCite] [Details]

Citations: Scopus - 5Web of Science - 3

Tweet

2015Journal ArticleVenning J, Lo Jacono D, Burton D, Thompson M, Sheridan J, 'The effect of aspect ratio on the wake of the Ahmed body', Experiments in Fluids, 56, (6) Article 126. ISSN 0723-4864 (2015) [Refereed Article]

DOI: 10.1007/s00348-015-1996-5 [eCite] [Details]

Citations: Scopus - 27Web of Science - 21

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Journal Article

(17 outputs)
YearCitationAltmetrics
2021Smith SM, Brandner PA, Pearce BW, Venning JA, Moreau DJ, et al., 'Steady and unsteady loading on a hydrofoil immersed in a turbulent boundary layer', Journal of Fluids and Structures, 102 Article 103225. ISSN 0889-9746 (2021) [Refereed Article]

DOI: 10.1016/j.jfluidstructs.2021.103225 [eCite] [Details]

Co-authors: Brandner PA; Pearce BW

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2021Venning J, McQueen T, Lo Janoco D, Burton D, Thompson M, et al., 'Aspect ratio and the dynamic wake of the Ahmed body', Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics pp. 1-10. ISSN 0894-1777 (In Press) [Refereed Article]

[eCite] [Details]

2020Ekman P, Venning J, Virdung T, Karlsson M, 'Importance of sub-grid scale modelling for accurate aerodynamic simulations', Journal of Fluids Engineering, 143, (1) Article FE-19-1268. ISSN 0098-2202 (2020) [Refereed Article]

DOI: 10.1115/1.4048351 [eCite] [Details]

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2020Khoo MT, Venning JA, Pearce BW, Brandner PA, 'Statistical aspects of tip vortex cavitation inception and desinence in a nuclei deplete flow', Experiments in Fluids, 61 Article 145. ISSN 0723-4864 (2020) [Refereed Article]

DOI: 10.1007/s00348-020-02967-x [eCite] [Details]

Citations: Scopus - 2Web of Science - 2

Co-authors: Pearce BW; Brandner PA

Tweet

2020Khoo MT, Venning JA, Pearce BW, Takahashi K, Mori T, et al., 'Natural nuclei population dynamics in cavitation tunnels', Experiments in Fluids: Experimental Methods and Their Applications to Fluid Flow, 61, (34) pp. 1-20. ISSN 0723-4864 (2020) [Refereed Article]

DOI: 10.1007/s00348-019-2843-x [eCite] [Details]

Citations: Scopus - 5Web of Science - 4

Co-authors: Pearce BW; Brandner PA

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2020Russell P, Venning J, Pearce BW, Brandner PA, 'Calibration of Mie scattering imaging for microbubble measurement in hydrodynamic test facilities', Experiments in Fluids, 61, (4) Article 93. ISSN 0723-4864 (2020) [Refereed Article]

DOI: 10.1007/s00348-020-2927-7 [eCite] [Details]

Citations: Scopus - 3Web of Science - 3

Co-authors: Russell P; Pearce BW; Brandner PA

Tweet

2020Russell PS, Barbaca L, Venning JA, Pearce BW, Brandner PA, 'Measurement of nuclei seeding in hydrodynamic test facilities', Experiments in Fluids, 61, (79) pp. 1-18. ISSN 0723-4864 (2020) [Refereed Article]

DOI: 10.1007/s00348-020-2911-2 [eCite] [Details]

Citations: Scopus - 5Web of Science - 4

Co-authors: Russell PS; Barbaca L; Pearce BW; Brandner PA

Tweet

2020Smith SM, Venning JA, Pearce BW, Young YL, Brandner PA, 'The influence of fluid-structure interaction on cloud cavitation about a stiff hydrofoil. Part 1', Journal of Fluid Mechanics, 896 Article A1. ISSN 0022-1120 (2020) [Refereed Article]

DOI: 10.1017/jfm.2020.321 [eCite] [Details]

Citations: Scopus - 10Web of Science - 8

Co-authors: Pearce BW; Brandner PA

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2020Smith SM, Venning JA, Pearce BW, Young YL, Brandner PA, 'The influence of fluid-structure interaction on cloud cavitation about a flexible hydrofoil. Part 2', Journal of Fluid Mechanics, 897 pp. A28-1-A28-39. ISSN 0022-1120 (2020) [Refereed Article]

DOI: 10.1017/jfm.2020.323 [eCite] [Details]

Citations: Scopus - 7Web of Science - 6

Co-authors: Pearce BW; Brandner PA

Tweet

2020Smith SM, Venning JA, Pearce BW, Young YL, Brandner PA, 'The influence of fluid-structure interaction on cloud cavitation about a flexible hydrofoil. Part 2', Journal of Fluid Mechanics, 897 Article A28. ISSN 0022-1120 (2020) [Refereed Article]

DOI: 10.1017/jfm.2020.323 [eCite] [Details]

Citations: Scopus - 7Web of Science - 6

Co-authors: Pearce BW; Brandner PA

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2019Smith SM, Venning JA, Giosio DR, Brandner PA, Pearce BW, et al., 'Cloud cavitation behavior on a hydrofoil due to fluid-structure interaction', Journal of Fluids Engineering, 141, (4) Article 041105. ISSN 0098-2202 (2019) [Refereed Article]

DOI: 10.1115/1.4042067 [eCite] [Details]

Citations: Scopus - 10Web of Science - 8

Co-authors: Giosio DR; Brandner PA; Pearce BW

Tweet

2018Brandner PA, Venning JA, Pearce BW, 'Wavelet analysis techniques in cavitating flows', Philosophical Transactions A, 376, (2126) Article 20170242. ISSN 1364-503X (2018) [Refereed Article]

DOI: 10.1098/rsta.2017.0242 [eCite] [Details]

Citations: Scopus - 5Web of Science - 5

Co-authors: Brandner PA; Pearce BW

Tweet

2018Venning JA, Khoo MT, Pearce BW, Brandner PA, 'Background nuclei measurements and implications for cavitation inception in hydrodynamic test facilities', Experiments in Fluids, 59 Article 71. ISSN 0723-4864 (2018) [Refereed Article]

DOI: 10.1007/s00348-018-2520-5 [eCite] [Details]

Citations: Scopus - 12Web of Science - 10

Co-authors: Pearce BW; Brandner PA

Tweet

2017Venning J, Lo Jacono D, Burton D, Thompson M, Sheridan J, 'The nature of the vortical structures in the near wake of the Ahmed body', Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering, 231, (9) pp. 1239-1244. ISSN 0954-4070 (2017) [Refereed Article]

DOI: 10.1177/0954407017690683 [eCite] [Details]

Citations: Scopus - 13Web of Science - 13

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2016Crouch TN, Burton D, Venning JA, Thompson MC, Brown NAT, et al., 'A comparison of the wake structures of scale and full-scale pedalling cycling models', Procedia Engineering, 147 pp. 13-19. ISSN 1877-7058 (2016) [Refereed Article]

DOI: 10.1016/j.proeng.2016.06.182 [eCite] [Details]

Citations: Scopus - 6Web of Science - 5

Tweet

2015Huang Y, Venning J, Thompson MC, Sheridan J, 'Vortex separation and interaction in the wake of inclined trapezoidal plates', Journal of Fluid Mechanics, 771 pp. 341-369. ISSN 0022-1120 (2015) [Refereed Article]

DOI: 10.1017/jfm.2015.160 [eCite] [Details]

Citations: Scopus - 5Web of Science - 3

Tweet

2015Venning J, Lo Jacono D, Burton D, Thompson M, Sheridan J, 'The effect of aspect ratio on the wake of the Ahmed body', Experiments in Fluids, 56, (6) Article 126. ISSN 0723-4864 (2015) [Refereed Article]

DOI: 10.1007/s00348-015-1996-5 [eCite] [Details]

Citations: Scopus - 27Web of Science - 21

Tweet

Conference Publication

(18 outputs)
YearCitationAltmetrics
2020Barbaca L, Venning JA, Russell PS, Russell ES, Pearce BW, et al., 'Dynamics of cavitation inception in high Reynolds number shear flow', Proceedings of the 33nd Symposium on Naval Hydrodynamics, 18-23 October 2020, Osaka, Japan, pp. 1-12. ISBN 978-4-907621-01-8 (2020) [Refereed Conference Paper]

[eCite] [Details]

Co-authors: Barbaca L; Russell PS; Russell ES; Pearce BW; Brandner PA

2020Mori T, Takahashi K, Khoo M, Venning J, 'Experiments on the scaling of tip vortex cavitation inception for elliptical hydrofoils', Proceedings of the 2020 Annual Spring Meeting of the Japan Society of Naval Architects and Ocean Engineers, 25-26 May 2020, Tokyo, Japan, pp. 355-359. (2020) [Non Refereed Conference Paper]

[eCite] [Details]

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2020Russell PS, Barbaca L, Venning JA, Pearce BW, Brandner PA, 'Nucleation effects on tip-gap cavitation', Proceedings of the 22nd Australasian Fluid Mechanics Conference (AFMC2020), 6-10 December 2020, Brisbane, Australia, pp. 1-4. (2020) [Refereed Conference Paper]

[eCite] [Details]

Co-authors: Russell PS; Barbaca L; Pearce BW; Brandner PA

2019Russell PS, Venning JA, Brandner PA, Pearce BW, Giosio DR, et al., 'Microbubble disperse flow about a lifting surface', Proceedings of the 32nd Symposium on Naval Hydrodynamics, 5-10 August 2018, Hamburg, Germany, pp. 1-13. ISBN 978-3-00-061946-5 (2019) [Refereed Conference Paper]

[eCite] [Details]

Co-authors: Russell PS; Brandner PA; Pearce BW; Giosio DR

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2018Khoo MT, Venning JA, Pearce BW, Brandner PA, 'Nucleation effects on hydrofoil tip vortex cavitation', Proceedings of the 21st Australasian Fluid Mechanics Conference 2018, 10-13 December 2018, Adelaide, Australia, pp. 1-4. ISBN 978-0-646-59784-3 (2018) [Refereed Conference Paper]

[eCite] [Details]

Co-authors: Pearce BW; Brandner PA

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2018Russell PS, Giosio DR, Venning JA, Pearce BW, Brandner PA, et al., 'Towards real-time optical measurement of microbubble content in hydrodynamic test facilities', Proceedings of the 10th Symposium on Cavitation (CAV2018), 14-16 May 2018, Baltimore, Maryland, USA, pp. 1056-1061. ISBN 9780791861851 (2018) [Refereed Conference Paper]

DOI: 10.1115/1.861851_ch201 [eCite] [Details]

Co-authors: Russell PS; Giosio DR; Pearce BW; Brandner PA

Tweet

2018Smith SM, Venning JA, Brandner PA, Pearce BW, Giosio DR, et al., 'The influence of fluid-structure interaction on cloud cavitation about a hydrofoil', Proceedings of the 10th Symposium on Cavitation (CAV2018), 14-16 May 2018, Baltimore, Maryland, USA, pp. 1013-1018. ISBN 9780791861851 (2018) [Refereed Conference Paper]

DOI: 10.1115/1.861851_ch193 [eCite] [Details]

Co-authors: Brandner PA; Pearce BW; Giosio DR

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2018Venning J, Giosio D, Smith S, Pearce B, Brandner P, 'The influence of nucleation on the spectral content of cloud cavitation about a hydrofoil', Proceedings of the 10th Symposium on Cavitation (CAV2018), 14-16 May 2018, Baltimore, Maryland, USA, pp. 1015-1030. ISBN 9780791861851 (2018) [Refereed Conference Paper]

DOI: 10.1115/1.861851_ch195 [eCite] [Details]

Co-authors: Giosio D; Pearce B; Brandner P

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2018Venning JA, Giosio DR, Pearce BW, Brandner PA, 'Global mode visualisation in cavitating flows', Proceedings of the 10th Symposium on Cavitation (CAV2018), 14-16 May 2018, Baltimore, Maryland, USA, pp. 485-490. ISBN 9780791861851 (2018) [Refereed Conference Paper]

DOI: 10.1115/1.861851_ch92 [eCite] [Details]

Co-authors: Giosio DR; Pearce BW; Brandner PA

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2017Khoo MT, Venning J, Takahashi K, Ari J, Mori T, et al., 'Joint research between Australia and Japan on the cavitation inception of marine propellers and control surfaces', MAST Asia 2017 Programme, 12-14 June 2017, Chiba, Japan, pp. 1-6. (2017) [Non Refereed Conference Paper]

[eCite] [Details]

Co-authors: Pearce BW; Brandner PA; Ranmuthugala D

2017Russell PS, Giosio DR, Venning JA, Pearce BW, Brandner PA, 'Microbubble generation from condensation and turbulent breakup of sheet cavitation', Proceedings of the 31st Symposium on Naval Hydrodynamics, 11-16 September 2016, Monterey, California, USA, pp. 1-13. ISBN 978-0-692-84661-2 (2017) [Refereed Conference Paper]

[eCite] [Details]

Co-authors: Russell PS; Giosio DR; Pearce BW; Brandner PA

2017Smith S, Venning J, Giosio D, Brandner P, Pearce B, et al., 'Cloud cavitation behaviour on a hydrofoil due to fluid-structure interaction', Papers ISROMAC 17 - Forums 17 & 19, 16-21 December 2017, Maui, Hawaii, pp. 1-8. (2017) [Refereed Conference Paper]

[eCite] [Details]

Co-authors: Giosio D; Brandner P; Pearce B

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2017Venning J, Smith S, Brandner P, Giosio D, Pearce B, 'The influence of nuclei content on cloud cavitation about a hydrofoil', Papers ISROMAC 17 - Forums 17 & 19, 16-21 December 2017, Maui, Hawaii, pp. 1-6. (2017) [Refereed Conference Paper]

[eCite] [Details]

Co-authors: Brandner P; Giosio D; Pearce B

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2016Khoo MT, Venning JA, Pearce BW, Brandner PA, Lecoffre Y, 'Development of a cavitation susceptibility meter for nuclei size distribution measurements', Proceedings of the 20th Australasian Fluid Mechanics Conference (20AFMC), 5-8 December 2016, Perth, Australia, pp. 1-4. ISBN 978-1-74052-377-6 (2016) [Refereed Conference Paper]

[eCite] [Details]

Co-authors: Pearce BW; Brandner PA

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2016Venning JA, De Vincentis S, Pearce BW, Brandner PA, 'Microbubble generation for PIV seeding', Proceedings of the 20th Australasian Fluid Mechanics Conference (20AFMC), 5-8 December 2016, Perth, Australia, pp. 1-4. (2016) [Refereed Conference Paper]

[eCite] [Details]

Co-authors: Pearce BW; Brandner PA

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2015Crouch TN, Barry N, Venning JA, Burton D, THompson MC, et al., 'The application of laser diagnostics to cycling aerodynamics', Proceedings of the Seventh Australian Conference on Laser Diagnostics in Fluid Mechanics and Combustion, 9-11 December 2015, Melbourne, Australia, pp. 161-165. ISBN 978-0-646-94892-8 (2015) [Refereed Conference Paper]

[eCite] [Details]

2014McQueen T, Venning J, Sheridan J, 'Effects of aspect ratio on the wake dynamics of the Ahmed body', Proceedings of the 19th Australasian Fluid Mechanics Conference, 8-11 December 2014, Melbourne, Australia, pp. 1-4. ISBN 978-0-646-59695-2 (2014) [Refereed Conference Paper]

[eCite] [Details]

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2012Venning J, Burton D, Lo Jacono D, Thompson M, Sheridan J, 'The wakes of Ahmed bodies with varying aspect ratio', Book of Abstracts of the 9th European Fluid Mechanics Conference, 9-13 September 2012, Rome, Italy, pp. 98. (2012) [Conference Extract]

[eCite] [Details]

Thesis

(1 outputs)
YearCitationAltmetrics
2016Venning JA, 'Vortex Structures in the Wakes of Two- and Three-Dimensional Bodies' (2016) [PhD]

[eCite] [Details]

Other Public Output

(3 outputs)
YearCitationAltmetrics
2019Khoo MT, Venning JA, Pearce BW, Brandner PA, 'Hydrofoil Tip Vortex Cavitation Measurements at the Australian Maritime College Cavitation Tunnel' (2019) [Report of Restricted Access]

[eCite] [Details]

Co-authors: Pearce BW; Brandner PA

2019Khoo MT, Venning JA, Pearce BW, Brandner PA, 'Propeller Tip Vortex Cavitation Measurements at the Australian Maritime College Cavitation Tunnel' (2019) [Report of Restricted Access]

[eCite] [Details]

Co-authors: Pearce BW; Brandner PA

2019Khoo MT, Venning JA, Takahashi K, Arai J, Mori T, et al., 'Nuclei Distribution Measurements in Australian and Japanese Cavitation Tunnels using the Australian Maritime College Cavitation Susceptibility Meter' (2019) [Report of Restricted Access]

[eCite] [Details]

Co-authors: Pearce BW; Brandner PA

Grants & Funding

Funding Summary

Number of grants

3

Total funding

$1,562,706

Projects

Microbubbles for Particle Image Velocimetry (2021 - 2025)$777,850
Description
The aim of this Research Agreement is to develop nuclei seeding techniques for improved PIV velocity measurements in cavitation tunnels. This includes generation, distribution, and sizing of microbubbles along with demonstration of the efficacy as tracer particles. The project will focus on the development of microbubbles to be used as tracer particles for Particle Image Velocimetry (PIV), a laser based technique that measures flow velocity. PIV is a standard non-intrusive measurement technique used in tow tanks and cavitation tunnels where tiny (10 m -20 m) neutral buoyant glass beads are used as the tracer particles. In the UTAS cavitation tunnel and the GTH these glass beads are unsuitable as they provide nucleation sites for cavitation. The glass beads are essentially impossible to completely remove once added to a facility. The use of microbubbles instead of glass beads will provide an easily removed tracer. The study will characterise the use of microbubbles as tracer particles and will require the creation of billions of bubbles a second within a small size bandwidth.
Funding
Defence Science and Technology Group ($777,850)
Scheme
Contract Research
Administered By
University of Tasmania
Research Team
Pearce BW; Brandner PA; Russell PS; Barbaca L; Venning JA
Period
2021 - 2025
Cavitation Inception and Hydroacoustics Measurement (2020 - 2023)$768,367
Description
This new activity is part of a continuing joint research program in Marine Hydrodynamics between the Acquisition, Technology and Logistics Agency (ATLA) Japan and the Defence Science and Technology (DST) Group. This follows on from the successful completion of the first program between Japan and Australia conducted between 2015 and 2019. The project will focus on an experimental program to conduct cavitation inception testing in the AMC cavitation tunnel and the development of acoustic measurement capabilities within the tunnel.The primary aims of the Project are to: 1.understand the cavitation inception of control surfaces and marine propellers in behind ship condition;2.develop experimental measurement techniques for hydroacoustics within hydrodynamic facilities; and3.enhance the performance of the AMC cavitation tunnel to provide the Commonwealth with access to a state-of-the-art test facility to evaluate control surfaces and marine propellers, and provide quality validation data.
Funding
Defence Science and Technology Group ($768,367)
Scheme
Contract Research
Administered By
University of Tasmania
Research Team
Venning JA; Brandner PA; Pearce BW
Period
2020 - 2023
Visualisation and quantitative measurement of turbulent boundary layers (2017)$16,489
Description
The aim of the project is to establish a capability of visualising and measuring turbulent quantities within high Reynolds number boundary layers. The project will have significant relevance to marine engineering, mechanical engineering in mixing flows, and Defence platform management. The outcomes of the project will be a greater understanding of boundary layer development and manipulation, improved design and greater efficiency of marine control surfaces, and more effective control of acoustic signatures. Funds redistributed from B0024827
Funding
University of Tasmania ($16,489)
Scheme
Grant- Research Enhancement Program
Administered By
University of Tasmania
Research Team
Venning JA
Year
2017

Research Supervision

Current

1

Completed

2

Current

DegreeTitleCommenced
PhDThe Influence of Nuclei Content on Tip Vortex Cavitation Inception2017

Completed

DegreeTitleCompleted
PhDUnsteady Loading on Hydrofoils due to Turbulence and Cavitation
Candidate: Samuel Michael Halleen Smith
2020
PhDMicrobubble Disperse Flows about a Lifting Surface
Candidate: Patrick Spenser Russell
2020