Biography:Stewart Turner

From HandWiki
Revision as of 08:46, 7 February 2024 by WikiG (talk | contribs) (update)
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
Short description: Australian geophysicist (1930-2022)
John Stewart Turner
Stewart Turner in laboratory.jpg
Stewart Turner in his laboratory.
Born11 January 1930
Died3 July 2022
Scientific career
InstitutionsCambridge University, University of Manchester, Woods Hole Oceanographic Institute, C.S.I.R.O., Australian National University.
Notable studentsPaul Linden, Trevor McDougall, Peter Baines, Peter Manins, Ross Griffiths.

John Stewart Turner FAA FRS (11 January 1930 – 3 July 2022) was an Australian geophysicist.

Early life

Stewart Turner was educated at North Sydney Boys High School [1] and Sydney University. He then joined the Cloud Physics Group, CSIRO Division of Radiophysics as a Research Officer. He was awarded the 1851 Exhibition Scholarship to University of Cambridge.[2]

Cambridge

He completed his PhD thesis at Cambridge University in 1956 under the supervision of Sir G.I. Taylor. His thesis title was "Dynamical aspects of cloud physics".[3] A section of this work on cloud formation contributed to the 2nd paper in the first issue of The Journal of Fluid Mechanics[4] His contemporaries in the laboratory included Owen Philips, Harold Grant and Philip Saffman.

Landscape at former British nuclear test site, Maralinga, South Australia.

The work on cloud formation had application to clouds formed by nuclear explosion clouds. This work was contemporary with the Maralinga tests being carried out in Australia. Analysis by the Atomic Weapons Research Establishment on cloud formation had proved inadequate as their predictions of the height to which the clouds had extended in the South Australian explosions were too small by a factor of over two. Turner and colleagues experiments and theory provided an improved explanation.[5]

Another piece of work from this time involved collaboration with Bruce Morton, a student of George Batchelor's, on convection forced by a buoyancy source. This became the much cited Morton, Taylor and Turner result.[6]

University of Manchester

Turner was employed for a time (1958-1959) in the Department of the Mechanics of Fluids at the University of Manchester on a project seeking to understand the mixing of methane in coal mines. This well-known problem issue results in explosive disasters in mines around the world and was historically referred to as firedamp. The work developed laboratory experiments, using salt water and fresh water, on the mixing of wall layers into a surrounding flow. The results showed that, counter to the established practice which was to try and ventilate mines in accordance with gravity, the most effective way of getting rid of the layers was to ventilate downhill. This was because the resulting more vigorous mixing reduced methane concentrations beneath critical levels very rapidly. Within a year the recommendations were enacted through in the mining regulations in Britain.[5]

CSIRO

Peter Aplin of the University of Sydney works on a component of the SILLIAC computer (unknown date; early 1950s)

Turner returned to Australia and joined the Cloud Physics group in Sydney. The work at this time involved development of results using SILLIAC an early computer operated by the University of Sydney from 1956-1968 and one of the few times Turner worked directly with numerical tools. While working at CSIRO he was given the opportunity for a short-term Rossby Fellowship to work at the Woods Hole Oceanographic Institute in the USA.

Woods Hole Oceanographic Institute

The 1962 shift to the Woods Hole Oceanographic Institute enabled him to work on problems primarily focusing on double diffusion. This was inspired by discussions with Henry Stommel who was interested in how differing rates of molecular diffusivity could drive turbulence convection and mixing.[7] The period saw Turner branch out getting involved in rotating experiments on vortices and he even availed himself of an opportunity to descend into the ocean onboard the submersible DSV Alvin.[5] After finishing his tenure at WHOI he would regularly return to work on problems and participate in their Geophysical Fluid Dynamics Summer School.

Computational modelling of salt fingers

Return to DAMTP

He returned to Cambridge in 1966 when he was offered a position at the Department of Applied Mathematics and Theoretical Physics, University of Cambridge. It was unusual to have a laboratory in a mathematics department, despite this the laboratory maintained a significant profile internationally. Work at this time explored further facets of salt fingering including a study that appeared in Nature with the New Zealander, Tim Shirtcliffe.[8]

1973 monograph

In 1969 Turner published a review article on buoyant plumes which appeared in the first volume of the Annual Reviews of Fluid Mechanics.[9] Based on this he was invited to produce a monograph. This appeared as the 1973 text "Buoyancy Effects in Fluids" (with a 1979 paperback edition)[10] that brought together the developments in the field including his own his seminal work on plumes,[6][9] gravity currents[11] entrainment in density stratified shear flows,[12] double diffusive convection[13] mixed layer dynamics in the ocean[14] and the dynamics of ventilated flows.[15][16] Much of his work used laboratory experiment to understand the basic physics and associated scaling relationships.

Paperback cover of classic text by Stewart Turner originally published in 1973 but republished in paperback in 1979[10].

Australian National University

In 1975 he returned to Australia to become the Foundation Professor of Geophysical Fluid Dynamics, Research School of Earth Sciences, Australian National University in Canberra. As Foundation Professor of Geophysical Fluid Dynamics Turner was able to set up a new geophysical fluid dynamics group. Research problems at this time included crystal formation and seafloor convection.[17]

Emeritus work

He retired in 1996, although remained active as an emeritus professor and visiting fellow at the Australian National University for many years. It was only after his retirement that the laboratory was housed in a purpose-built space. Turner's fundamental research of stratified fluid dynamics has made a significant impact[18] on the fields of physical oceanography, limnology and civil engineering. Some examples of his videos of double diffusive laboratory experiments are available on YouTube.[19]

In 2010 he was made the Inaugural Fellow, Australian Fluid Mechanics Society recognising his role as one of the nation's preeminent geophysical scientists.[20][21][22] His doctoral students include Paul Linden, Trevor McDougall, Peter Baines, Peter Manins, Ross Griffiths. He died in 2022.

Awards

  • 1958 - Fellow, Royal Meteorological Society
  • 1969 - Fellow, Institute of Physics
  • 1979 - Australian Academy of Science
  • 1980 - Fellow, Australian Institute of Physics
  • 1982 - Fellow, Royal Society, London
  • 1990 - Matthew Flinders Medal and Lecture
  • 2001 - Centenary Medal for service to Australian society and earth sciences [23]
  • 2010 - Inaugural Fellow, Australian Fluid Mechanics Society

References

  1. NSBHS Leaving Certificate 1946
  2. "Turner, J. S. (John Stewart) (1930-)". trove.nla.gov.au. http://trove.nla.gov.au/people/1239047?c=people. 
  3. Turner, John Stewart (1956). Dynamical aspects of cloud physics (Thesis). OCLC 468995135.
  4. Saffman, P.G.F. and Turner, J.S., 1956. On the collision of drops in turbulent clouds. Journal of Fluid Mechanics, 1(1), pp.16-30.
  5. 5.0 5.1 5.2 Trevor McDougall (2004). "Professor Stewart Turner, geophysicist". Interviews with Australian scientists. Australian Academy of Science. https://www.science.org.au/learning/general-audience/history/interviews-australian-scientists/professor-stewart-turner. 
  6. 6.0 6.1 Morton, B. R.; Taylor, Geoffrey Ingram; Turner, John Stewart (1956-01-24). "Turbulent gravitational convection from maintained and instantaneous sources". Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences 234 (1196): 1–23. doi:10.1098/rspa.1956.0011. Bibcode1956RSPSA.234....1M. https://royalsocietypublishing.org/doi/10.1098/rspa.1956.0011. 
  7. Stern, M.E. and Turner, J.S., 1969, November. Salt fingers and convecting layers. In Deep Sea Research and Oceanographic Abstracts (Vol. 16, No. 5, pp. 497-511). Elsevier.
  8. Turner, J.S., Shirtcliffe, T.G.L. and Brewer, P.G., 1970. Elemental variations of transport coefficients across density interfaces in multiple-diffusive systems. Nature, 228(5276), pp.1083-1084.
  9. 9.0 9.1 Turner, J S (January 1969). "Buoyant Plumes and Thermals" (in en). Annual Review of Fluid Mechanics 1 (1): 29–44. doi:10.1146/annurev.fl.01.010169.000333. ISSN 0066-4189. Bibcode1969AnRFM...1...29T. http://www.annualreviews.org/doi/10.1146/annurev.fl.01.010169.000333. 
  10. 10.0 10.1 Turner, J. S.; Turner, John Stewart (1979-12-20) (in en). Buoyancy Effects in Fluids. Cambridge University Press. ISBN 978-0-521-29726-4. https://books.google.com/books?id=x8NqYA97-wMC&dq=Buoyancy+effects+in+fluids&pg=PR13. 
  11. Ellison, T. H.; Turner, J. S. (October 1959). "Turbulent entrainment in stratified flows" (in en). Journal of Fluid Mechanics 6 (3): 423–448. doi:10.1017/S0022112059000738. ISSN 1469-7645. Bibcode1959JFM.....6..423E. https://www.cambridge.org/core/journals/journal-of-fluid-mechanics/article/abs/turbulent-entrainment-in-stratified-flows/4370CDB55B36F70597341BF061A820C7. 
  12. Turner, J. S. (December 1986). "Turbulent entrainment: the development of the entrainment assumption, and its application to geophysical flows" (in en). Journal of Fluid Mechanics 173: 431–471. doi:10.1017/S0022112086001222. ISSN 0022-1120. Bibcode1986JFM...173..431T. https://www.cambridge.org/core/product/identifier/S0022112086001222/type/journal_article. 
  13. Turner, J S (January 1974). "Double-Diffusive Phenomena" (in en). Annual Review of Fluid Mechanics 6 (1): 37–54. doi:10.1146/annurev.fl.06.010174.000345. ISSN 0066-4189. Bibcode1974AnRFM...6...37T. http://www.annualreviews.org/doi/10.1146/annurev.fl.06.010174.000345. 
  14. Kraus, E. B.; Turner, J. S. (1967-01-01). "A one-dimensional model of the seasonal thermocline II. The general theory and its consequences". Tellus 19 (1): 98–106. doi:10.3402/tellusa.v19i1.9753. ISSN 0040-2826. Bibcode1967Tell...19...98K. 
  15. Baines, W. D.; Turner, J. S.; Campbell, I. H. (March 1990). "Turbulent fountains in an open chamber" (in en). Journal of Fluid Mechanics 212 (–1): 557. doi:10.1017/S0022112090002099. ISSN 0022-1120. Bibcode1990JFM...212..557B. http://www.journals.cambridge.org/abstract_S0022112090002099. 
  16. Baines, W. D.; Turner, J. S. (June 1969). "Turbulent buoyant convection from a source in a confined region" (in en). Journal of Fluid Mechanics 37 (1): 51–80. doi:10.1017/S0022112069000413. ISSN 1469-7645. Bibcode1969JFM....37...51B. https://www.cambridge.org/core/journals/journal-of-fluid-mechanics/article/abs/turbulent-buoyant-convection-from-a-source-in-a-confined-region/A2C954F6CB42E3399B0FF43C26B03802. 
  17. Turner, J.S. and Gustafson, L.B., 1981. Fluid motions and compositional gradients produced by crystallization or melting at vertical boundaries. Journal of Volcanology and Geothermal Research, 11(2-4), pp.93-125.
  18. "J Stewart Turner". https://scholar.google.com/citations?user=zjTffeAAAAAJ&hl=en. 
  19. (in en) Video 1 - regular gravity current, https://www.youtube.com/watch?v=OzdTaqUFWE8, retrieved 2021-05-17 
  20. "J. Stewart TURNER". Emeritus Faculty Member. Australian National University. 2005. http://www.anu.edu.au/emeritus/members/J_Stewart_Turner.html. 
  21. "John Stewart (Stewart) Turner". CSIROpedia. 13 January 2015. https://csiropedia.csiro.au/turner-john-stewart/. 
  22. "Turner, John Stewart (Stewart) (1930 - )". Biographical entry. Encyclopaedia of Australian Science. http://www.eoas.info/biogs/P003673b.htm. 
  23. "Centenary Medal". It's an Honour. 1 January 2001. https://honours.pmc.gov.au/honours/awards/1126161. "For service to Australian society and earth sciences"