Alex Klimenko’s Homepage
Alex Klimenko, D.Eng.
Director,
Centre for Muiliscale Energy Systems (formely Energy Futures)
Fellow of the Combustion Institute
Links
- Combustion and Multiscale Modelling research group
- Conferences chaired by Klimenko
- Teaching pages
- Research areas and publication archive
- Centre for Multiscale Energy Systems (CMES) – Energy Futures
- CMES on Facebook
- Back to Mechanical Engineering home page
Research Interests
Reacting flows, Turbulence, Energy, Thermodynamics, Quantum and statistical physics, Direction of time, Technology and its cycles, Complex systems and networks, Multiscale phenomena, Asymptotic methods, Algorithms and computational methods
A.Y. Klimenko originated
conditional approach to multiscale turbulent combustion modelling (e.g. CMC,
MMC) that are used and recognised worldwide, introduced the 4/3 power law for
hurricanes and tornadoes, developed the framework of Complex
Competitive/Evolving Systems – see Publication Archive for details
Senior visiting appointments at
- Tsinghua University
- University of Wyoming
- Karlsruhe University
- Stanford University
- Cornell University
- FZK, Germany
Research Associates and long-term visitors (past and present):
- Dr. I. Vladimirov
- Dr. A. Wandel
- Dr. K. Weinman
- Dr. Mathew Cleary
- Dr. Dmitri Saulov
- Dr. Jingyu Ran (Visiting Scholar)
- Prof. Gus Plumb (Visiting Professor)
Publications
- A.Y. Klimenko has 2 books and >100 journal publications (including 15 invited) which are cited >3000 times. The pdf files of some of the papers can be found in the Publication Archive
Books
The Evolution of Technology and Emergence of the
Knowledge Society
Underground Coal Gasification and Combustion
Editing special issues
·
Combustion Science -
Achievements and Challenges in 21st Century, The Open Thermodynamics Journal, 2013
· Thermodynamics in the 21st Century, Inventions, 2019
· The Second Law and Asymmetry of Time, Entropy, 2020
List of Main
Publications
1
A.Y.Klimenko, “Asymptotic analysis of the nucleation rate
for rapidly varying gas dynamic parameters”, Fluid Dynamics, 23, 135-143, (1988)
2
A.B.Vatazhin, A.Y.Klimenko, A.B.Lebedev and A.A.Sorokin,
“Homogeneous condensation in turbulent submerged isobaric jets”, Fluid Dynamics, 23, 194-203, (1988).
3
A.Y.Klimenko, “Multicomponent diffusion of various
scalars in turbulent flow”, Fluid
Dynamics, 25, 327-333, (1990).
4
A.Y.Klimenko, “Diffusion of different scalars in
turbulent flow. Condensation equations in passive scalar space” chapter in Turbulent
Shear Flows with Condensation and Electrophysical
effects, ed. By A.B.Vatazhin,
CIAM,
5
A.Y.Klimenko, “Conditional moment closure and
fluctuations of scalar dissipation”, Fluid
Dynamics, 28, 630-637, (1993).
6
A.B.Vatazhin and A.Y.Klimenko,
“Continuous models of the motion of inertial particles in laminar and turbulent
flows based on the Fokker-Planck equations”, Fluid Dynamics, 29, 178-185, (1994).
7
A.Y.Klimenko, “Some PDF estimations for spray combustion
in turbulent flows”, 15th International Colloquium on the Dynamics
of Explosions and Reactive Systems, University of Colorado at Boulder, USA,
pp.29-32, (1995).
8
A.Y.Klimenko and R.W.Bilger,
“Some analytical and asymptotic results for pdfs and conditional expectations
in turbulent shear flows”, 10th Symposium on Turbulent Shear Flows,
Pennsylvania State University, USA, v.3, pp. 31.25-31.29, (1995).
9
A.Y.Klimenko and R.W.Bilger ,
“Mixing micro-structure in sprays and application to Conditional Moment Closure
methods”, Australian Symposium on Combustion, Session B2, paper 3, (1995)
10 A.Y.Klimenko, R.W.Bilger
and M.R.Roomina, “Some PDF integrals for self-similar
turbulent flows”, Comb. Sci. and Tech.,
107, 4-6, p.403-411, (1995).
11 A.Y.Klimenko, “Conditional methods and Lagrangian particle diffusion”, 12th Australian
Fluid Mechanics Conference (1995), pp.751-754.
12 A.Y.Klimenko, “Note on the conditional
moment closure in turbulent shear flows”, Physics
of Fluids, 7, 446-448, (1995)
13 A.Y.Klimenko, "Premixed combustion
and cascade processes in turbulence", Australian Symposium on Combustion,
pp.128-132, (1997) .
14 A.Y.Klimenko, Evolution of vorticity in
the bathtub vortex, 13th Australian Fluid Mechanics Conference, V2,
pp. 781-784 (1998)
15 A.Y.Klimenko, “Conditional methods in
application for Lagrangian modeling”.
Phys.Fluids.
10, No 4, 922-927 (1998)
16 A.Y.Klimenko, “Examining the cascade
hypothesis for turbulent premixed combustion”. Comb.Sci. and Tech. 139, 1-6, p.
15-40 (1998) ..
17 A.Y.Klimenko and R.W.Bilger "Conditional Moment Closure for
Turbulent Combustion" (invited review) Prog. In Energy. Comb. Sci. v.25 pp.595-687 (1999)
18 A.Y.Klimenko “Main regimes of turbulent premixed combustion”, CleanAir
V (Proc. of V Int. Conf. on Tech. and Comb. for a Clean Enviroment)
v.1 pp.507-511 (1999)
19 A.Y.Klimenko & A.G.Class “Propagation speed of
premixed flames”, Aust. Comb. Symp. pp.242-246 (1999)
20 A.P.Wandel, K.A.Weinman
and A.Y.Klimenko, “Diffusion in Conserved Scalar
Space: Direct Validation by DNS”, Aust. Comb. Symp.
pp.76-80 (1999)
21 K.A.Weinman.and A.Y.Klimenko
“Estimation of the Kolmogorov constant (Co) for the Lagrangian
structure function using DNS for a continous Scalar”, Physics of Fluids
V12, 3205-3220 (2000).
22 A.Y.Klimenko & A.G.Class “On premixed flames as gasdynamic
discontinuities: A simple approach to derive their propagation speed”, Comb.Sci Tech. V. 160 pp.25-37 (2000).
23 A.Y.Klimenko “A small disturbance in the
strong vortex flow”, Physics of Fluids,
v13, No 6, pp.1815-1818 (2001).
24 A.Y.Klimenko “Near-axis asimptote of the bathtub-type inviscid vortical
flows”, Mechanics Research Communications
v.28, No2, pp.207-212 (2001).
25 A.Y.Klimenko & A.G.Class, “Asymptotic structure and NOx emission of
realistic premixed flames under influence of fluid flows”, CleanAir
VI (Proc. of VI Int. Conf. on Tech. and Comb. for a Clean Enviroment)
v.1, pp.393-399 (2001).
26 A.P.Wandel, N.S.A.Smith
and A.Y.Klimenko “Turbulent combustion modelling
using stochastic formulation of CMC”, Australian Symposium on Combustion,
pp.139-143, (2001).
27 A.Y.Klimenko, A.P.Wandel
and N.S.A.Smith, “Stochastic modelling of scalar
transport in turbulent flows
based on CMC”, Proc. of ASME Int. Mech. Eng. Cong., V.1,
HTD-24127, pp.1-8, (2001).
28 A.Y.Klimenko “Moderately strong
vorticity in a bathtub-type flow”, Theoretical
and Computational Fluid Mechanics v.14, 243-257 (2001).
29 A.Y.Klimenko “Equations for conditional
means and fluctuations of the conserved scalar dissipation”, chapter in Gas
Dynamics (collection of all-time best CIAM works on Gas Dynamics), ed. by A.N.Kraiko, Fizmatlit, Moskow, v.2, pp. 395-407, (2001).
30 A.Y.Klimenko “On relation of the
Conditional Moment Closure and unsteady Flamelets” Combustion Theory and Modelling, v5,
275-294, (2001).
31 A.Y.Klimenko and A.G.Class
“Ppropagation of non-stationary curved and stretched
premixed flames with thin reaction zones and multi-step reaction mechanisms” Combustion Science and
Technology, 174 (8), pp. 165-207, 2002.
32 .A.Y.Klimenko, A.G.Class and S.M.O'Gorman “Near-equidiffusion disturbed premixed flames with wider reaction
zones” Flow, Turbulence and Combustion,
69 (2): 95-122 2002.
33 A.Y.Klimenko, “MMC modeling and fluctuations
of the scalar dissipation”, Aust Comb. Symp.
34 A.P.Wandel and A.Y.Klimenko “Modeling of self-similar shear layer by MMC”, Aust Comb. Symp.
35 A.Y. Klimenko Modern modeling
of turbulent premixed combustion and reduction of pollution emissions. CleanAir VII proc,
36 A.G Class, L. P. H. De Goey,
A.Y.Klimenko and J. H. M. Ten Thije
Bookkamp, intrinsic disturbed flame equations and
stretched premixed flamelet model: two descriptions
of flame flow interaction, CleanAir VII proc,
37 A.Y.Klimenko and S.B. Pope, A model for
turbulent reactive flows based on Multiple Mapping Conditioning, Phys.of Fluids, 15 (7): 1907-1925, 2003
38 A.G. Class, B. J. Matkowsky, and A. Y. Klimenko, “A unified model of flames
as gasdynamic discontinuities” J.Fluid Mech, 491, 11-49, 2003.
39 A.G Class, B. J. Matkowsky, and A. Y. Klimenko, “Stability of planar flames
as gasdynamic discontinuities” J.Fluid Mech, 491, 51-63, 2003
40 A.P. Wandel,
N.S.A. Smith, and A.Y. Klimenko, “Verification of Markov Hypothesis for Conserved Scalar
Process: Validation of Conditional Moment Closure for Turbulent Combustion”, ANZIAM Journ..
v.44, C802--C819, 2003
41 A.Y.Klimenko, “On Inverse Parabolicity of PDF Equations in Turbulent Flows”, Quarterly J. Mech.and
Appl.Math. 57, 79-93, 2004.
42 A.Y.Klimenko, “Matching the conditional
variance as a criterion for selecting parameters in the simplest MMC models”, Phys. Fluids, 16, 4754-4757, 2004.
43 M.S. Blinderman
and A.Y.Klimenko Reverse Combustion Linking in
Underground Coal Gasification, Chemeca 2005 on
CD-ROM, Paper 160.
44 A.Y.Klimenko, Matching
Conditional Moments in PDF modelling of non-premixed combustion, invited
paper, Combustion & Flame 143,
369-385, 2005.
45 A.P. Wandel
and A.Y. Klimenko “Testing MMC mixing for Monte-Carlo PDF simulations” Phys.
Fluids, 17, 128105, 2005.
46 M.S. Blinderman
D.N. Saulov and A.Y. Klimenko “The Exergy
Optimization of the Reverse Combustion Linking in Underground Coal Gasification”,
23
47 A.Y.Klimenko and M.M.
Abdel-Jawad, Conditional methods for continuum reacting flows in porous media, Proceedings of the Combustion Institute
31 (2007) 2107–2115.
48
M.S. Blinderman and A.Y. Klimenko “Theory of
Reverse Combustion Linking” Combustion
and Flame 150 (2007) 232–245.
49
A.Y.Klimenko,
"Generalized MMC approach", ECCOMAS conference
50 A.Y.
Klimenko "Why does one need to be taught engineering logic?" ICEE
(International Conference on Engineering Education),
51 A.Y.Klimenko, On simulating scalar
transport by mixing between Lagrangian particles, Physics of Fluids, Letter, 19, 031702,
2007
52
A.Y.Klimenko
Analysis of compensating regime in intensification region of strong vortices WSEAS Transactions on Fluid Mechanics, 1, issue 12, pp1009-10016, 2006. •
53
A.Y.Klimenko,
"Do we find hurricanes on other planets?" 16 AFMC paper D2-4, 2007.
54
Chetan
R. Chodankar, Bo Feng, Jingyu
Ran, A. Y. Klimenko, " Kinetic Study of Australian Bituminous Coal
Char in Carbon dioxide ", Pittsburgh Coal Conference, Johannesburg,
2007.
55
A.Y.Klimenko,
'Technological Cycles and their impact on Science, Engineering and Engineering
Education', The International Journal of
Technology, Knowledge and Society, 4 (2), 11-18, 2008.
56
M.S. Blinderman, D.Saulov and A.Y. Klimenko, "Forward and Reverse
Combustion Linking in Underground Coal Gasification" ENERGY- the International Journal, 33, 446-454, 2008.
57
M.S. Blinderman, D.Saulov and A.Y. Klimenko "Optimal Regimes of Reverse
Combustion Linking in Underground Coal Gasification" Journal
of the Energy Institute, 81 No 1, 7-12, 2008.
58
Chetan
R. Chodankar,
59
M.J. Cleary , A.Y.
Klimenko, J. Janicka, M. Pfitzner
"LES sparse-Lagrangian
MMC in a piloted jet flame" Aust. Comb Symp.
paper 1A4 2007, www.mecheng.adelaide.edu.au/combinst/pubs.php?conf=acs200
60
Chetan
R. Chodankar, Bo Feng, A. Klimenko,
"Gasification Kinetics of Australian Bituminous Coal in CO2 environment:
Unification Approach of Reactivity", Aust. Comb. Symp.
paper 1B3, pp. 82-86, 2007
61
A.Y. Klimenko, "Underground coal
gasification" invited article for the new Wiley Encyclopedia of Energy, to be
published.
62
A.Y. Klimenko, "Gasification of
coals" invited article for the new Wiley
Encyclopedia of Energy, to be published.
63
Clean Coal Technologies:
64
Cleary M.J and A.Y.Klimenko,
A generalised multiple mapping conditioning approach for turbulent combustion, Flow, Turbulence and Combustion, DOI 10.1007/s10494-008-9161-3, Vol. 82, Issue
4, pp 477-491, 2009.
65
M.J. Cleary , A.Y.
Klimenko, J. Janicka, M. Pfitzner
" An LES / sparse-Lagrangian
multiple mapping conditioning model for turbulent diffusion flames" Proc. Comb. Inst. 32 (2009)
1499–1507.
66
D.Saulov,
I. Vladimirov and A.Y. Klimenko, Modified Associate
Formalism without Entropy Paradox: Part I. Model Description Journal of Alloys and Compounds to
doi:10.1016/j.jallcom.2008.06.024, 2008.
67
D.Saulov
and A.Y. Klimenko, Modified Associate Formalism without Entropy Paradox: Part II. Comparison with Similar Models Journal of Alloys and Compounds doi:10.1016/j.jallcom.2008.06.021, 2008
68
A.Y.Klimenko
"Random walk, diffusion and mixing in simulations of scalar transport in
fluid flows" Physica Scripta, T132 , 014037, 2008
69
O.A. Plumb and A.Y. Klimenko, The stability
of evaporating fronts in porous media. Journal of Porous Media, v13.i2.50,
145-155, 2010.
70
Cleary, M.J. and Klimenko, A.Y.,
"Sparse-Lagrangian simulations of a passive
scalar in a turbulent jet" 7th Asia-Pacific Conference on Combustion,
71
C.R. Chodankar, B.
Feng, J. Ran and A. Klimenko, “Kinetic study of the gasification of an
Australian bituminous coal char in carbon dioxide”, Asia Pacific Journal of
Chemical Engineering, 5(3), pages 413-419. DOI: 10.1002/apj.269, 2009
72
A.Y.Klimenko, Lagrangian particles with mixing. Part 1: simulating scalar
transport. Phys. Fluids. 21, 065101, 2009
73
A.Y.Klimenko Lagrangian particles with mixing. Part 2: sparse-Lagrangian methods in application for turbulent reacting
flows, Phys. Fluids. 21, 065102, 2009.
74
A.Y.Klimenko,
Early ideas in Underground Coal Gasification and their evolution, Energies, 2,
456-476; doi:10.3390/en20200456, 2009.
75
Proceedings of Australian Combustion
Symposium, ed by A.Y. Klimenko, M. Cleary, Russell
Boyce, Bo Feng, Victor Rudolph, Andrew Wandel, Rose Clements, 2009.
76 Yipeng Ge, M.J. Cleary, A.Y. Klimenko, A Sparse-Lagrangian
Simulation with Density Coupling,
Australian Combustion Symposium, 2009
77
Chetan
R. Chodankar, Bo Feng, A. Y. Klimenko, Numerical Modeling of Underground Coal Gasification Process, Proc Australian
Combustion Symposium, PP. 223-226, 2009
78
D. N. Saulov, O. A.
Plumb, A.Y. Klimenko, Flame propagation
in a gasification channel, Energy
35, 1264–1273, 2010
79
Combustion Science -- achievements and
challenges in 21st century. Ed. by A.Y.Klimenko and
M. J. Cleary, Special Issue of Open Thermodynamics Journal, 2010.
80
A.Y. Klimenko, Computer Simulations of
Abstract Competition, Proceedings or-The International
Multi-conference on Complexity Informatics and Cybernetics, IMCIC pp.
97-102,
81
A.Y. Klimenko, Conservative and competitive mixing
and their applications, Physica Scripta,
T 142 (2010) 014054.
82
A.Y. Klimenko and Cleary M.J “Convergence to a model in sparse-Lagrangian FDF simulations”, special issue of FTC dedicated
to S.B.Pope, 85 3-4: 567-591,
2010
83
A.Y. Klimenko and Cleary M.J, Turbulent Combustion Modelling
Applications in Fires, invited plenary lecture and paper at Asia-Oceania Symposium for Fire Science and
Technology,
84
I.G. Vladimirov and
A.Y. Klimenko, Tracing diffusion in
porous media with fractal properties, Multi-scale Modeling
and Simulation, Vol. 8, No. 4, pp. 1178–1211, 2010.
85
Chodankar,
C. R., Feng, B., and Klimenko, A. Y., “Numerical Modeling
of Underground Coal Gasification Process for Estimation of Product Gas Composition
”, Proceeding of 26 International
86
C. R. Chodankar, B.
Feng, A. Y. Klimenko, Numerical Modeling of
Underground Coal Gasification :Euler-Euler Multiphase Model, ACS019, Australian
Combustion Symposium, Proceedings, 2011
87
D.M. Saulov C.R. Chodankar M.J. Cleary A.Y. Klimenko A CMC Model for
Reactive Flows through Porous Media with Altering Pore Structures ACS002,
Australian Combustion Symposium, Proceedings, 2011
88
Y.Ge,
M.J. Cleary, A.Y. Klimenko A
gradient/fractal model for determining the mixing particle distance in Multiple
Mapping Conditioning, ACS008, Australian Combustion Symposium, Proceedings,
2011
89
A.Y. Klimenko, F.A. Williams, On the flame
length in firewhirls, ACS001, Australian Combustion
Symposium, Proceedings, 2011
90
Cleary M.J and A.Y. Klimenko “Multiple Mapping Conditioning: a new
modelling framework for turbulent combustion”, chapter in Turbulent
Combustion Modeling: Advances, New Trends and
Perspectives ed
by T. Echekki and E. Mastorakos, Springer,
91
Y. Ge, M. J. Cleary and A.Y. Klimenko “Sparse-Lagrangian FDF simulations of Sandia Flame E with density
coupling” Proc. Comb. Inst. 33, (1),
pp. 1401—1409, 2011.
92
Cleary, M.J., Klimenko, A.Y., A detailed
quantitative analysis of sparse-Lagrangian filtered
density function simulations in constant and variable density reacting jet
flows Physics of Fluids 23 (11),
2011.
93
Saulov,
D.N., Cleary, M.J., Klimenko, A.Y. Modeling of
in-situ CO2 sorption in a fluidized bed coal/biomass gasifier (2011) 28th
Annual International Pittsburgh Coal Conference 2011, PCC 2011, 4, p. 2891.
94
Klimenko, A.Y., Saulov,
D.N., Rudolph, V. Modeling of enhanced coal bed
methane recovery and CO2 sequestration in coal seams (2011) 28th Annual
International Pittsburgh Coal Conference 2011, PCC 2011, 4, pp. 2363-2372.
95 D.
N. Saulov, V. Rudolph and A. Y. Klimenko, Adsorption
Thermodynamics in the Framework of the Modified Associate Formalism , Open Thermodynamics Journal , 5
11-15, 2012
96 Klimenko, A.Y., Saulov, D.N., Massarotto, P.,
Rudolph, V., Conditional model for sorption in porous media with fractal
properties, Transport in Porous Media
92 (3) , pp. 745-765, 2012
97 D. N. Saulov,
C. R. Chodankar, M. J. Cleary and A. Y. Klimenko,
Coupling the porous conditional moment closure with the random pore model:
applications to gasification and CO2 capture, Frontiers of Chemical Science and Engineering, Volume 6, Number 1
(2012), 84-93
98 A. Y. Klimenko, Teaching the
third law of thermodynamics, Open
Thermodynamics Journal, 6, 1-14, 2012
99 A. Y. Klimenko and S. B. Pope. Propagation speed of
combustion and invasion waves in stochastic simulations with competitive
mixing. Combustion Theory and Modelling, 16, (4), 679-714, 2012.
100 A. Y. Klimenko, Mixing,
entropy and competition, Physica Scripta, 85,
068201, 2012.
101 D.A. Klimenko, K. Hooman, A.Y. Klimenko, Evaluating transport in irregular
pore networks. Physical Review E ,vol. 86 (1)
July, 011112 – 011122, 2012.
102 A. Y. Klimenko, Abstract
competition and competitive thermodynamics, Phil.
Trans. R. Soc. A, 2013, 371. (invited)
103 A. Y. Klimenko, What is
mixing and can it be complex?, Physica Scripta, 2013,
88 (T155), 014047
104 Y. Ge, M.J. Cleary, A.Y.
Klimenko, A comparative study of Sandia flame series (D–F) using sparse-Lagrangian MMC modeling, Proc. Comb. Inst.
34, 2013, 34
(1), pp. 1325-1332.
105 A. Y. Klimenko and F.A.
Williams, On the flame length in firewhirls with
strong vorticity, Combustion and Flame 160, 2013, 335.
106 A.Y.Klimenko, Searching for a unified theory of vortical flows. AFMC18, 2012, paper 349
107 L. Dialameh,
B. Sundaram, M. J. Cleary and A. Y. Klimenko, Differential
diffusion of passive scalars with MMC mixing model in isotropic turbulent flow.
AFMC18, 2012, paper 318
108 B. Sundaram,
M.J. Cleary and A.Y. Klimenko, Effects of Mixing Localisation in LES-MMC
Simulations of a Lifted Hydrogen Flame, AFMC18, 2012, paper 323
109 Y.Ge, B.Sundaram,
M.J.Cleary and A.Y.Klimenko, A bluff body jet mixer simulation with a new
developed OpenFOAM based sparse-Lagrangian
Multiple Mapping Conditioning model, AFMC18, 2012, paper 347
110 M. M. Zhao, D. N. Saulov, M. J. Cleary, and A. Y. Klimenko Numerical
Simulation of Coal Gasification with CO2 Capture Based on Two-Dimensional
Fluidized Bed Model International Journal of Chemical Engineering and
Applications 2012 Vol.3(6): 466.
111 D. N. Saulov,
M. M. Zhao, M. J. Cleary, D. A. Klimenko, K. Hooman,
and A. Y. Klimenko General Approach for Modelling of Reactive Transport in
Porous Media International Journal of Chemical Engineering and Applications
2012 Vol.3(6): 471
112 Klimenko A.Y., Maas U. CPT
invariance and its implications for thermodynamics and kinetics, invited paper
at Joint European Thermodynamic Conference, 2013,
113 Maas U., Klimenko A.Y.
Hierarchical concepts for model reduction for reacting flows based on
low-dimensional manifolds, invited paper at Joint European Thermodynamic
Conference, 2013, Italy, pp 304-312.
114 Brruntha Sundaram ; Leila Dialameh ;
Matthew Cleary ; A.Y. Klimenko 1; Yipeng Ge Multiple
Mapping Conditioning – The Concept and its Development , European Combustion
Meeting, 2013, paper 1-66
115 L. Dialameh, B. Sundaram, Y. Ge1, M.J. Cleary, A.Y. Klimenko Recent
Developments of the Multiple Mapping Conditioning Mixing Model., 24th International Colloquium on the Dynamics of
Explosions and Reactive Systems(ICDERS 2013)- Taipei, Taiwan.
116 D.N. Saulov
A. Veeraragavan K. Hooman
J.L. Torero A.Y. Klimenko, Review of
Combustion Issues in Underground Fires, Aust Comb Symp 2013 B1-01
117 L. Dialameh
M.J. Cleary A.Y. Klimenko, Differential Diffusion effects in Multiple Mapping
Conditioning (MMC) mixing model, Aust Comb Symp 2013 B5-01
118 B. Sundaram
A.Y. Klimenko M.J. Cleary U. Maas
Prediction of Extinction Modes for Turbulent Premixed Combustion with an
MMC-Partially Stirred Reactor, Aust Comb Symp 2013, E5-03
119 A.Y.
Klimenko, Note on invariant properties of a quantum system placed into
thermodynamic environment, Physica A: (0378-4371), 03/2014, Volume 398, p.
120 A.Y.
Klimenko, Entropy and Equilibria in Competitive Systems, Entropy
(1099-4300), 01/2014, Volume 16, Issue 1, pp. 1 – 22
121 A.Y. Klimenko, Strong swirl approximation and
intensive vortices in the atmosphere Journal of Fluid Mechanics (0022-1120),
01/2014, Volume 738, pp. 268 – 298
122 L. Dialameh, M. J.
Cleary, and A. Y. Klimenko, A multiple mapping conditioning model for
differential diffusion, Physics of Fluids 26, 025107 (2014)
123 A. Y. Klimenko U. Maas One antimatter— two
possible thermodynamics, Entropy 2014, 16, 1191-1210;
124 D.
N. Saulov, S. Watanabe, J. Yin , D. A. Klimenko, K. Hooman, B. Feng, M. J. Cleary and A. Y. Klimenko Conditional Methods in Modeling CO2 Capture from Coal Syngas, Energies 2014, 7(4),
1899-1916
125 A.Y.Klimenko,
Complexity and intransitivity in technological development, J Syst Sci Syst
Eng, 2014, 23(2): 128-152
126 Sundaram, B., A.Y. Klimenko, M.J.
Cleary und U. Maas: Prediction of NOx in Premixed High-Pressure Lean Methane
Flames with a MMC-Partially Stirred Reactor. In: Proc. Comb. Inst. 2015 35 (2),
1517-1525
127AY
Klimenko, Intransitivity in Theory and in the Real World, Entropy 17 (6),
4364-4412, 2015
128V.
Bykov, A. Neagos, A.
Klimenko and U. Maas, Hierarchical structure of slow manifolds of reacting
flows, Zeitschrift für physikalische Chemie 229(6):
833-856 (2015).
129B. Sundaram, A.Y. Klimenko, M. J. Cleary, Developments in Multiple Mapping Conditioning for turbulent premixed combustion Australian Combustion Symposium pp. 152-155, 2015
130A.Y. Klimenko, M. Cleary, B. Sundaram, L. Dialameh, Recent trends in modelling of turbulent combustion, Proceedings of the 53rd Japanese Combustion Symposium, pp.224-225, 2015
131B Sundaram, AY Klimenko, MJ Cleary, Y Ge, A direct approach to generalised multiple mapping conditioning for selected turbulent diffusion flame cases, Combustion Theory and Modelling, 1-30, 2016
132AY Klimenko Symmetric and antisymmetric forms of the Pauli master equation Nature.com/Scientific Reports 6, 29942, 2016
133A.Y. Klimenko, Why tornado-like vortices are persistent? AFMC-20, 2016, paper 562
134 Sundaram, B., A.Y. Klimenko, A pdf
approach to thin premixed flames with MMC In: Proc. Comb. Inst. Volume 36,
Issue 2, 2017, 1937-1945
135 F.
Salehi, M.J. Cleary, A.R. Masri,
Y. Ge, A.Y. Klimenko Sparse-Lagrangian MMC
simulations of an n-dodecane jet at engine-relevant
conditions Proceedings of the Combustion Institute, Volume 36, Issue 3, 2017,
3577-3585
136 A.
Y. Klimenko, Kinetics of interactions of matter, antimatter and radiation
consistent with antisymmetric (CPT-invariant) thermodynamics. Entropy 2017, 19(5),
202, 1-25
137 Blinderman, Michael S. and Klimenko,
Alexander Y. (2017). Underground Coal Gasification and Combustion. Elsevier.
https://doi.org/10.1016/C2014-0-03452-1
138 Blinderman, M. S. and Klimenko, A.
Y. (2017). Introduction to underground coal gasification and combustion.
Underground Coal Gasification and Combustion. Elsevier.1-8
139 Klimenko,
A. Y. (2017). Early developments and inventions in underground coal
gasification. Underground Coal Gasification and Combustion. Elsevier.11-24
140 Saulov, D., Klimenko, A. Y. and
Torero, J. L. (2017). Underground fire prospective technologies. Underground
Coal Gasification and Combustion. Elsevier.583-599
141 Klimenko,
A. Y. (2017). Notes on Advanced Engineering Education. European Journal of
Engineering Education, 42(6), 1378-1407.
142 M Monjurul Ehsan, Xurong Wang, Zhiqiang Guan, A Y
Klimenko, Modelling of A Dry Cooling Unit Operated with Supercritical CO2 in 25
MW NDDCT, Proceedings of 88th IASTEM International Conference, 4-5 November,
2017, Sydney, Australia. (Excellent paper award).
143 Ehsan,
M. Monjurul, Guan, Zhiqiang
and Klimenko, A. Y. (2018). A comprehensive review on heat transfer and
pressure drop characteristics and correlations with supercritical CO2 under
heating and cooling applications. Renewable and Sustainable Energy Reviews 92
658-675.
144 Lu,
Yuanshen, Klimenko, Alexander, Russell, Hugh, Dai, Yuchen, Warner, John and Hooman, Kamel (2018). A conceptual study on air jet-induced
swirling plume for performance improvement of natural draft cooling towers.
Applied Energy 217 496-508.
145 Ehsan,
M. Monjurul, Wang, Xurong,
Guan, Zhiqiang and Klimenko, A. Y. (2018). Design and
performance study of dry cooling system for 25 MW solar power plant
operated with supercritical CO2 cycle. International Journal of Thermal
Sciences 132 398-410.
146 Galindo-Lopez,
S., Salehi, F., Cleary, M. J., Masri,
A. R., Neuber, G., Stein, O. T., Kronenburg,
A., Varna, A., Hawkes, E. R., Sundaram, B., Klimenko,
A. Y. and Ge, Y. (2018). A stochastic multiple mapping conditioning
computational model in OpenFOAM for turbulent combustion. Computers and Fluids 172
410-425.
147 Monjurul Ehsan, M., Guan, Zhiqiang,
Klimenko, A. Y. and Wang, Xurong (2018). Design and
comparison of direct and indirect cooling system for 25 MW solar power
plant operated with supercritical CO2 cycle. Energy Conversion and Management
168 611-628.
148 M Monjurul Ehsan, Sam Duniam, Andrew Lock, Yuchen Dai, Zhiqiang Guan, A Y Klimenko, H Gurgenci,
Cooling System design and Performance Analysis for a Supercritical CO2
Recompression Cycle, 21st Australasian Fluid Mechanics Conference, 10-13
December 2018, Adelaide, Australia.
149 Dai, Yuchen, Kaiser, Antonio
S., Lu, Yuanshen, Klimenko, Alexander Y., Dong, Peixin and Hooman, Kamel (2019). Addressing the adverse cold air inflow
effects for a short natural draft dry cooling tower through swirl generation.
International Journal of Heat and Mass Transfer 145 118738.
150 Ehsan, M. Monjurul, Duniam, Sam, Guan, Zhiqiang, Gurgenci, Hal and Klimenko, Alexander (2019). Seasonal
variation on the performance of the dry cooled supercritical CO2 recompression
cycle. Energy Conversion and Management 197 111865.
https://doi.org/10.1016/j.enconman.2019.111865
151 Ehsan, M. Monjurul, Duniam, Sam, Li, Jishun, Guan, Zhiqiang, Gurgenci, Hal and
Klimenko, Alexander (2019). Effect of
cooling system design on the performance of the recompression CO2 cycle for
concentrated solar power application. Energy 180 480-494.
152 Klimenko, A. Y. (2019). The direction of time and
Boltzmann's time hypothesis. Physica Scripta 94 (3)
153 Bouet, V. and Klimenko,
A. Y. (2019). Graph clustering in industrial networks. IMA Journal of Applied
Mathematics 84 (6) 1177-1202.
154 Ehsan, M. Monjurul,
Guan, Zhiqiang, Gurgenci,
H. and Klimenko, A. Y. (2019), Irreversibility and exergy analysis of a
recompression supercritical CO2 cycle coupled with dry cooling system. 4th Thermal and Fluids Engineering
Conference, TFEC 2019, Las Vegas, Nevada, 14-17 April 2019. Danbury, CT, United
States: Begell House.https://doi.org/10.1615/TFEC2019.mph027494
155 M Monjurul
Ehsan, Zhiqiang Guan, Hal Gurgenci,
A Y Klimenko, Performance Study of a Dry-Cooled supercritical CO2 Cycle
Integrated with Solar Tower, Asia Pacific Solar Research Conference, December
3-5, 2019, Canberra, Australia
156 J. Perambadur,
A.Y. Klimenko, P. Shukla, V. Rudolph. CFD modelling of DC arc plasma system for
application in cleaner chemical production. Proceedings of the Australian
Combustion Symposium Adelaide, 4–6 December 2019.
157
Monjurul Ehsan, M., Guan, Zhiqiang, Gurgenci, Hal and
Klimenko, Alexander (2020), Novel design measures for optimizing the yearlong
performance of a concentrating solar thermal power plant using thermal storage
and a dry-cooled supercritical CO2 power block,
Energy Conversion and Management 216
158 Monjurul Ehsan, M., Duniam, Sam, Li, Jishun, Guan, Zhiqiang, Gurgenci, Hal and
Klimenko, Alexander (2020). A comprehensive thermal assessment of dry cooled
supercritical CO2 power cycles, Applied Thermal Engineering 166 114645
.
159 Y. Shorakaa,
S. Galindo-Lopez , M. J. Cleary , A. R. Masri , F. Salehi , A. Y. Klimenko, Modelling of a turbulent premixed
flame series using a new MMC-LES model with a shadow-position reference
variable, Int. Comb. Symp, accepted, 2020
160 J. Perambadur,
A.Y. Klimenko,T. Buckley, P.
Shukla, V. Rudolph. Investigation of arc-swirl phenomenon in a plasma torch
under an influence of external magnetic field using 3-D CFD modelling. Proceedings of the Chemica
2020. Brisbane, 29 Sep-22 Oct 2020.
161 J. Perambadur,
P. Shukla, A. Klimenko, V. Rudolph and K. Ramachandran. Effect of vortex gas on
the anode arc attachment behaviour inside the plasma torch: Numerical study 22nd Australasian Fluid Mechanics Conference ,
Brisbane, Queensland Australia , 7-10 December 2020.
162 J. Perambadur,
A.Y. Klimenko, V. Rudolph, P. Shukla. The investigation of arc fluctuations in
thermal plasma torch using 3D modelling approach. accepted
in International Journal of Heat and Mass Transfer. 2020
163 Dai, Y., Lu, Y.,
Klimenko, A. Y., Wang, Y., and Hooman, K Theoretical
and numerical investigations of swirl enhanced short natural draft dry cooling
towers. Theoretical and numerical investigations of swirl enhanced short
natural draft dry cooling towers. Applied Thermal Engineering 180, 115783, 2020
164 Ehsan, M. M., Guan, Z., Gurgenci,
H., and Klimenko, A. Y. Feasibility of Dry Cooling in Supercritical CO2 Power
Cycle in Concentrated Solar Power Application: Review and a Case Study, to
appear in Renewable and Sustainable Energy Reviews, 2020
165 A.Y.Klimenko,
Mixing, tunnelling and the direction of time in the context of Reichenbach’s principles, in 2019-20 MATRIX Annals, ed. by
D. R. Wood, J. de Gier, C. E. Praeger, T. Tao, to appear