19
Turbulence, Heat and Mass Transfer 9 th International Symposium Rio de Janeiro, RJ, Brazil July, 10-13, 2018
Turbulence, Heat and Mass Transfer
9th International SymposiumRio de Janeiro, RJ, Brazil
July, 10-13, 2018
This conference series, initiated by the Joint ICHMT/IUTAM Sympo-sium on Structure of Turbulence, Heat and Mass Transfer (Dubrovnik, 1982) and revived in 1994, has evolved into a regular ICHMT triennial event, held earlier in Lisbon (Portugal, 1994), Delft (the Netherlands, 1997), Nagoya (Japan, 2000), Antalya (Turkey, 2003), Dubrovnik (Croa-tia, 2006), Rome (Italy, 2009), Palermo (Italy, 2012) and Sarajevo (Bosnia and Herzegovina, 2015). The Symposium aims at providing a forum for scientists and engineers from industries and academia for presenting the state-of-the-art, recent advances and future prospects in the research and applications of turbulence related heat and mass transfer. Major top-ics and new trends and challenges are introduced through keynote and special lectures given by internationally recognized experts.
The broad spectrum of topics covered in the symposium is reflected in the varied content of this program. Novel experimental techniques and powerful computing hardware are unveiling ever new prospects for gaining deeper insight into turbulence structure, its interactions and effects on heat and mass transfer, as well as for resolving many durable problems and challenges. The large number of contributions to the sym-posium is the best indicator of the continuous and vigorous worldwide research activity in this field. The contributions are divided through the following subjects: (1) Fundamentals, (2) DNS/LES Studies, (3) RANS Methods, (4) Combined RANS/LES Studies, (5) Turbulence and Buoyancy, (6) Turbulence in Non-Newtonian Fluids, (7) Impingement, Separation, Swirl and Rotation, (8) Sprays, Bubbles and Droplets, (9) Particle-Laden Flows, (10) Combustion and Reacting Flows, (11) Envi-ronmental and Geophysical Flows, (12) Flow and Heat Transfer Control, (13) Industrial Applications, (14) Energy and Power, (15) Heat Exchang-ers and Reactors.
In all, there are 7 keynotes, 1 special lecture and 126 contributing pa-pers. The latter were selected from over 170 extended abstracts, based on reviews by the members of the Scientific Advisory Committee and Orga-nizing Committee, and by some other experts in the field. The selection of the papers was made on the basis of quality and scientific novelty, as well as the relevance to the symposium scope and topic.
Th e impact of subsurface turbulent processes on the upper ocean thermal structure: LES studies S. Sarkar and H. T. Pham. Mechanical and Aerospace Engineering, University of California at San Diego, USA
Heat and mass transfer issues in fuel cells and hydrogen systems N. Djilali. Institute for Integrated Energy Systems and Department of Mechanical Engineering, Canada
Flow and thermal management in automotive engineering: recent CFD aided develop-ments B. Basara and S. Jakirlic. AVL LIST GmbH, Advanced Simulation Technologies, Austria, and Institute of Fluid Mechanics and Aerodynamics, Technische Universität Darmstadt, Germany
Special Lecture
Computational-analytical integral transforms and lumped-diff erential formulations: bench-marks and applications in nuclear technology R. M. Cotta, J. Su, A. Pontedeiro and K. M. Lisboa, Department of Mechanical Engineering, Federal University of Rio de Janeiro, Brazil
Scientifi c Advisory Committee
R. Amano, USAH.I. Andersson, NorwayV. Armenio, ItalyJ.R. Barbosa, BrazilD. Bergstrom, CanadaB.J. Boersma, NLS.C. Kassinos, CyprusI. Castro, UKH. Choi, KoreaA. Corsini, ItalyD. Cokljat, UKT.J. Craft, UKD. Dennis, UKL. Davidson, SwedenC. Dopazo, SpainS. Drobniak, PolandS.E. Elghobashi, USAM. Fairweather, UKS. Frolov, Russia
Organizing Committee
A.P. Silva Freire (Chairman),Federal University of Rio de Janeiro, BrazilK. Hanjalić (Co-Chairman), Delft University of Technology, NLK. Suga (Co-Chairman), Osaka Prefecture University, Japan
B. Basara, AVL, AustriaD. Borello, Sapienza University of Rome, ItalyS. Benhamadouche, EDF, Chatou/Paris, FranceR.M. Cotta, Federal Univ. of Rio de Janeiro, BrazilC.M. Casciola, Sapienza University of Rome, ItalyS.S. Girimaji, Texas A&M University, USAM. Hadžiabdić, Int. University of Sarajevo, B&HS. Jakirlic, Darmstadt Univ. Techn., GermanyB.E. Launder, University of Manchester, UK
D. Markovich, ITP SB RAS/NSU, RussiaI. Marusic, University of Melbourne, AustraliaL. Moriconi, Federal Univ. of Rio de Janeiro, BrazilF. T. Pinho, Oporto University, PortugalA. Pollard, Queen’s University, CanadaB. Rosic, Oxford University, UKA. Silveira Neto, University of Uberlandia, BrazilS. Sarkar, Univ. of California, San Diego, USAM. Tanahashi, Tokyo Inst. of Techn., Japan
Keynote Lectures
Turbulent combustion modelling and experiments – recent trends and developmentsA. Giusti and E. Mastorakos. Department of Engineering,
University of Cambridge, UK
Anomalous heat and mass transport phenomena in drag reducing turbulence by using surfactant
Y. Kawaguchi. Department of Mechanical Engineering, Tokyo University of Science, Japan
Fluid fl ow and thermal phenomena in emerging cooling technologiesJ. R. Barbosa. Department of Mechanical Engineering, Federal University of
Santa Catarina, Brazil
Particle dynamics in turbulent pipe fl owC. W. M. van der Geld. Department of Chemical Engineering and Chemistry,
Eindhoven University of Technology, Th e Netherlands
S. Fu, ChinaY. Hagiwara, JapanH. Hattori, JapanE. Hawkes, AustraliaR.J.A. Howard, FranceJ. Janicka, GermanyT. Kajishima, JapanS. Kenjeres, NLJ. Klewicki, Australia/USAS. Komori, JapanS. Lardeau, UKR. Manceau, FranceE. Mastorakos, UKB. Niceno, SwitzerlandS. Obi, JapanS-H Peng, SwedenJ.C. Pereira, PortugalM. Reeks, UK
M. Van Reeuwijk, UKF. Rispoli, ItalyD.J.E.M. Roekaerts, NLG.P. Romano, ItalyE. Serre, FranceJ. Sesterhenn, GermanyD.Ph. Sikovsky, RussiaA. Soldati, ItalyM. Strelets, RussiaJ. Su, BrazilH.J. Sung, KoreaJ. Szmyd, PolandA. Tomboulides, GreeceP. Tucker, UKL. Vervisch, FranceS. Wallin, SwedenH. Yoshida, JapanZ. Zhang, China
Patronage/Sponsors/Donators
International Center for Heat and Mass Transfer,Turkey Federal University of Rio de Janeiro (UFRJ), BrazilInterdisciplinary Centre for Fluid Dynamics, Brazil Mechanical Eng. Program (COPPE/UFRJ), BrazilDelft University of Technology, Th e Netherlands
Osaka Prefecture University, JapanInternational University of Sarajevo, B&H
Sapienza University of Rome, Italy
Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro (FAPERJ), BrazilConselho Nacional de Desenvolvimento Científi co e Tecnológico (CNPQ), Brazil
Charis Technologies, Brazil Dantec Dynamics A/S, USA
AVL-List GmbH, AustriaElectricité de France – R&D, France
O Hotel Sete de SetembroVenue to THMT-18
Casa do Colégio Brasileiro de Altos Estudos (CBAE)(Federal University of Rio de Janeiro)
Avenida Rui Barbosa, 762 Flamengo – Rio de Janeiro
BrazilCEP 22250-020
The venue of THMT-18 is a historical building. Erected in 1922 to com-memorate the centenary of the independence of Brazil, the Hotel Sete de Setembro still keeps its imposing façade. Incorporated to the Universidade do Brasil in 1926, the building initially provided residential quarters for students of the Anna Nery Nursing School. From 1973 to 1995, the build-ing was the Student Accommodation Centre of UFRJ.
Strictly protected by the National Historic Heritage of Brazil, the old building can only have modifications and restorations made after some intricate paperwork has absolutely ensured the conservation of its original structure and materials. Participants of THMT-18 are thus warned that in the course of the symposium some limitations related to the occupancy of a historical building may occur. In any case, the organization of THMT-18 is doing its best to minimize the occurrence of any possible difficulties.
Located at the foot of the Morro da Viúva, the building offers a staggering view of Pedra do Pão de Açúcar and Botafogo cove. During the symposium, some guided tours will be allowed to the 4th floor of the building so that participants can enjoy the view.
With an eclectic architectural style, the Hotel Sete de Setembro has a total area of 5,400 m2. The evidences of grandeur and refinement in its constructive details, the internal finishing and the window frames are all originals, dating back to the time the hotel was inaugurated. With detailed restoration plans and continuous care, UFRJ keeps the buildings operating in its present shape, while seeking further financial resources for its total renewal.
Palácio do CateteWelcome Cocktail, 9 JULY 2018, 16:00h -18:00h
R. do Catete, 153Catete, Rio de Janeiro
BrazilCEP 2220-000
Th e welcome cocktail party of THMT-18 will be held at Palácio do Catete. Guided tours will be provided to participants of THMT-18 through the chambers of the palace. Rare documents related to science and technolo-gy will also be shown to participants. Th ese documents are normally kept distant from the public eye.
Th e Palácio do Catete was the address of Brazil’s executive power from 1897 to 1960. Th e palace was also the residence to all presidents serving in the same period. Witness to many notorious events, the Palácio do Catete saw the death of President Afonso Pena in 1909, the declarations of war against Germany and its allies in 1917 and 1942, the visit of Cardinal Eugenio Pacelli (Pope Pius XII) in 1934 and, particularly, the suicide of President Getúlio Vargas in 1954. Vargas – who had ruled Brazil for almost twenty years – killed himself with a shot through the heart, in his bedroom, on the third fl oor of the palace.
Designed by the German architect Carl Friedrich Gustav Waehneldt, con-struction of the palace started in 1858 and ended in 1866. Th e building was the residence of the coff ee producer António Clemente Pinto, Baron of Nova Friburgo.
Th e very famous garden of the palace was designed by Paul Villon. Th e eagles in the façade are art work of the celebrated sculptor Rodolfo Bernardelli.
Th e Catete Palace is protected by the National Historic Heritage of Brazil.
Museu NacionalGala Dinner, 11 JULY 2018, 19:00h - 22:00h
Quinta da Boa Vista São Cristóvão, Rio de Janeiro
BrazilCEP 20940-040
Th e gala dinner of THMT-18 will be staged at the Museu Nacional, the oldest scientifi c institution of Brazil and one of the largest museums of natural history and anthropology in the Americas. Th e Museu Nacional oc-cupies the palace that served as residence for the Portuguese and Brazilian Royal Families between 1808 and 1889, and hosted the Republican Con-stituent Assembly from 1889 to 1891. Th e building is listed as a Brazilian National Heritage since 1938.
Inaugurated by King John VI of Portugal on the 6th of June of 1818 as the “Royal Museum”, the institution was initially installed at the Campo de Santana Park, to display the former collections of the Casa dos Pássaros. Created in 1784 by the Vice-King of Brazil, Luís de Vasconcelos e Sousa, the “House of Birds” gathered large collections on zoology and mineralogy. Th e “Royal Museum” was intended at promoting the socioeconomic de-velopment of the country through the diff usion of education, culture and science. Th e Museu Nacional was incorporated to UFRJ in 1946.
Th e Museu Nacional holds a collection of more than 20 million items, including rare objects on natural science and anthropology. Assembled through more than two centuries of hard work, the collection is divided into the subjects of geology, paleontology, botany, zoology, anthropology, archaeology and ethnology. Th e collection is the sustaining basis for most of the research carried out by the academic departments of the Museu Nacional. Research activities are conducted in diverse and remote regions of Brazil and the World, including the Antarctic Continent. Th e museum also has one of the largest scientifi c libraries of Brazil, with over 470,000 volumes and 2,400 very rare manuscripts.
Participants of the gala dinner will be hosted by the Head of the Brazilian National Museum, Alex Kellner, who will deliver a short talk on the bio-mechanics of pterosaurs (20 minutes).
Alexander Wilhelm Armin Kellner (born in Vaduz, Liechtenstein) is a world leading expert in the study of pterosaurs. He holds a Ph.D. degree from Columbia University (1996), is the current head of the Brazilian National Museum and the Chief-Editor of the Proceedings of the Brazilian Academy of Sciences.
Kellner has helped organizing paleontological expeditions to diverse locations throughout the globe, including Brazil, Chile, Iran, China and the Antarctica. He has published more than fi ve hundred papers and two popular science books.
In addition to fossil studies, Kellner has carried out important theoretical research on pterosaurs, including cladistics studies on their phylogeny. Kellner’s scientifi c achievements include the description of more than thirty species. One particular specie – the Santanaraptor (1996, 1999) – was found to exhibit the softest tissue (blood vessels, muscle fi bers) ever reported in any other dinosaur. Th e Th alassodromeus (2002) instigated the introduction of a new hypothesis: the use of its head crest to regulate the body temperature.
Alexander Wilhelm Armin Kellner
Prog
ram
at
a G
lanc
e TH
MT-
18 1
0-13
JULY
201
8 TU
ESD
AY
JULY
10
WED
NES
DA
Y JU
LY 1
1 TH
UR
SDA
Y JU
LY 1
2 FR
IDA
Y JU
LY 1
3 08
.00-
08.3
0 Re
gist
ration
08
.30-
09.0
0 O
peni
ng
09.1
5-10
.00
Keyn
ote
Lect
ure
Turb
ulen
t co
mbu
stion
mod
ellin
g an
d ex
peri
men
ts –
rec
ent
tren
ds a
nd
deve
lopm
ents
A
. Giu
sti a
nd E
. Mas
tora
kos
8.30
-9.1
5 Ke
ynot
e Le
ctur
e Fl
uid flo
w a
nd t
herm
al p
heno
men
a in
em
ergi
ng coo
ling
techno
logi
es
J. R
. Bar
bosa
9.
20-1
0.40
S7
RA
NS
Metho
ds
S8 S
pray
s, B
ubbl
es a
nd D
ropl
ets
S9 T
urbu
lenc
e Bu
oyan
ce
8.30
-9.1
5 Th
e im
pact
of
subs
urface
tur
bule
nt process
es
on th
e up
per ocea
n th
erm
al
stru
ctur
e: L
ES s
tudi
es
S. S
arka
r an
d H
. T. P
ham
9.
20-1
0.40
S1
8 D
NS an
d LE
S St
udie
s S1
9 Pa
rticle-
Lade
n Flow
s
8.30
-9.1
5 Flow
and
the
rmal
m
anag
emen
t in
automoti
ve
engi
neer
ing:
rec
ent
CFD
aid
ed
deve
lopm
ents
B.
Bas
ara
and
S. Ja
kirl
ic
9.20
-11.
00
S26 Co
mbu
stion
and
Rea
cting
Flow
s S2
7 Im
ping
emen
t, S
eparati
on,
Swir
l and
Rot
ation
10
.00-
10.2
0 Co
ffee
Bre
ak
10.4
0-11
.00
Coffee
Bre
ak
10.4
0-11
.00 Co
ffee
Bre
ak
11.0
0-11
.20
Coffee
Bre
ak
10.2
0-12
.20
S1
Fun
dam
enta
ls
S2 Com
bustion
and
Rea
cting
Flow
s
11.0
0-12
.40
S10
RAN
S M
etho
ds
S11
Spra
ys, B
ubbl
es and
Dro
plet
s S1
2 En
viro
n. a
nd G
eoph
ysic
al F
low
s
11.0
0-13
.00
S20
Ener
gy a
nd Pow
er
S21
Turb
ulen
ce a
nd N
on-
New
tonian
Flu
ids
11.2
0-12
.40
S28
Partic
le-L
aden
Flo
ws
S29
Hea
t Ex
chan
gers
and
Re
acto
rs
12.2
0-14
.00
Lunc
h 12
.40-
13.4
0Lu
nch
13.0
0-14
.00
Lunc
h12
.40-
13.4
0Closin
g14
.00-
14.4
5 Ke
ynot
e A
nom
alou
s he
at a
nd m
ass
tran
spor
t ph
enom
ena
in d
rag
redu
cing
tu
rbul
ence
by
usin
g su
rfac
tant
Y.
Kaw
aguc
hi
14.5
0-16
.10
S3 F
unda
men
tals
S4
Com
bustion
and
Rea
cting
Flow
s
13.4
0-14
.00
ECT
Pres
entation
14
.00-
14-4
5 Ke
ynot
e Le
ctur
e Pa
rticl
e dy
nam
ics
in t
urbu
lent
pip
e flo
w
C. W
. M. v
an d
er G
eld
14.5
0-16
.10
S13
Com
bine
d RA
NS/
LES
Stud
ies
S14
Flow
and
Hea
t Tr
ansf
. Con
trol
S1
5 In
dust
rial
App
licati
ons
14.0
0-14
-45
Hea
t an
d m
ass
tran
sfer
issu
es in
fu
el c
ells
and
hyd
roge
n sy
stem
s N
. Djil
ali
14.5
0-16
.10
S22
DN
S an
d LE
S St
udie
s S2
3 H
eat
Exch
ange
rs a
nd
Reacto
rs
16.1
0-16
.30 Co
ffee
Bre
ak
16.1
0-16
.30
Coffee
Bre
ak
16.1
0-16
.30 Co
ffee
Bre
ak
16
.30-
17.5
0 S5
Fun
dam
enta
ls
S6 Flow
and
Hea
t Tr
ansf
er Con
trol
16.3
0-17
.50
S16
Com
bine
d RA
NS/
LES
Stud
ies
S17
Indu
stri
al A
pplicati
ons
16.3
0-17
.50
S24
DN
S an
d LE
S St
udie
s S2
5 Im
ping
emen
t, S
eparati
on,
Swir
l and
Rotati
on
17.5
0-18
.30
Spec
ial L
ectu
re
Com
putation
al-ana
lytic
al in
tegr
al
tran
sfor
ms
and
lum
ped-diff
eren
tial
form
ulati
ons:
ben
chm
arks
and
ap
plic
ation
s in
nuc
lear
techn
olog
y.
R. M
. Cott
a, J.
Su,
A
. Pon
tede
iro,
K.M
. Lis
boa
19.0
0-22
.00
Gal
a D
inne
r
Final Program
Turbulence, Heat and Mass Transfer
TU
ESDA
Y 10
JULY
AFT
ERNO
ON14
.00
– 14
.45
K2. A
nom
alou
s hea
t and
mas
s tra
nspo
rt ph
enom
ena
in d
rag r
educ
ing t
urbu
lenc
e by
usin
g sur
fact
ant
Y. K
awag
uchi
. Cha
irman
: K. S
uga.
S3 Fu
ndam
enta
ls RO
OM A
. Ch
airm
an: M
. Fai
rwea
ther
. S4
Com
busti
on a
nd R
eacti
ng Fl
ows R
OOM
C.
Chai
rman
: M. T
anah
ashi
. 14
.50
– 15
.10
S3.1
Moi
st tr
ansfe
r in
turb
ulen
t multip
hase
Ray
leigh
-Bén
ard
conv
ectio
n.
K.-Q
. Xia
and
Lu Zh
ang
S4.1
CFD
inve
stigatio
n of
hea
t and
mas
s tra
nsfe
r in
a pre
ssur
ed si
ngle
pa
rticle
gasifi
catio
n re
acto
r F.
An,
A. R
ichte
r and
B. M
eyer
15
.10
– 15
.30
S3.2
Seco
ndar
y cur
rent
s and
hea
t tra
nsfe
r in flo
w a
roun
d a
cylin
der
mou
nted
in a
nar
row
chan
nel:
LES a
nd P
IV
E. P
alkin
, R. M
ullya
dzha
nov,
M. S
hest
akov
, B. N
ičeno
, D. M
arko
vich
and
K. H
anja
lić
S4.2
Effe
cts o
f dro
plet
size
on
the
igniti
on o
f con
venti
onal
and
al
tern
ative
jet f
uels
in tu
rbul
ent a
ir P.
M. d
e Oliv
eira
and
E. M
asto
rako
s
15.3
0 –
15.5
0S3
.3 C
ombi
ned
prob
e fo
r sim
ulta
neou
s mea
sure
men
t of v
eloc
ity,
tem
pera
ture
, and
pre
ssur
e M
. Tak
ahas
hi, K
. Iw
ano,
Y. S
akai
and
Y. I
to
S4.3
Impa
ct o
f dro
plet
size
dist
ributi
on o
n au
to-ig
nitio
n tim
e an
d fla
me
stab
ilisati
on d
istan
ce in
tem
pora
lly a
nd sp
atially
evol
ving m
ixing
la
yers
A.
Tyli
szcz
ak a
nd L.
Kub
an
15.5
0 –
16.1
0S3
.4 T
herm
al in
stab
ilities
in su
perc
ritica
l flui
ds u
nder
vibr
ation
D. Sh
arm
a, A
. Erri
guib
lean
d an
d S.
Amiro
udin
e S4
.4 Sp
heric
ally
expa
ndin
g tur
bule
nt flam
es in
fuel
dro
plet
-mist
s: A
Dire
ct N
umer
ical S
imul
ation
ana
lysis
G. O
zel E
rol, J
. Has
slber
ger,
M. K
lein
and
N. C
hakr
abor
ty
16.1
0 –
16.3
0Co
ffee
Brea
k
S5Fu
ndam
enta
ls RO
OM A
. Ch
airm
an: S
. Am
iroud
ine.
S6
Flow
and
Hea
t Tra
nsfe
r Con
trol
ROO
M C
. Ch
airm
an: Y
. Kaw
aguc
hi.
16.3
0 – 1
6.50
S5.1
Exp
erim
ents
in tu
rbul
ent p
artia
lly-fille
d pi
pe fl
owH.
C.-H
. Ng,
H. L
. F. C
rega
n, J.
M. D
odds
, R. J
. Poo
le a
nd D
. J. C
. Den
nis
S6.1
Influ
ence
of c
ontro
l par
amet
ers o
f tra
vellin
g wav
e bl
owin
g and
su
ction
in tu
rbul
ent T
aylo
r-Cou
ette �o
w
H. M
amor
i, K. O
gino
, N. F
ukus
him
a, K
. Fuk
udom
e and
M. Y
amam
oto
16.5
0 – 1
7.10
S5.2
A si
mul
tane
ous s
pect
ral/s
patia
l ana
lysis
of tu
rbul
ent k
ineti
c en
ergy
in tu
rbul
ent c
hann
el flow
: the
effe
ct o
f the
Rey
nold
s num
ber
J. R.
And
rade
, R. S
. Martin
s, G.
Mom
pean
, L. T
hais
and
T. B
. Gat
ski
S6.2
Rel
amin
ariza
tion
of tu
rbul
ent p
ipe
flow
due
to tr
avel
ling w
avy
blow
ing a
nd su
ction
cont
rol
S. Ko
gane
zaw
a, K
. Iw
amot
o, A
. Mur
ata
and
H. M
amor
i 17
.10 –
17.
30S5
.3 Effe
ct o
f com
pres
sibilit
y on
inho
mog
eneo
us p
lana
r she
ar �
ows:
Stab
ilizin
g mec
hani
sms
R. L.
Ber
tsch
, D. S
. Pra
turi
and
S. S.
Girim
aji
S6.3
Com
putatio
nal s
tudy
of h
eat a
nd flui
d flo
w a
roun
d a
rota
ry
oscil
latin
g cyli
nder
at a
high
Re
num
ber
M. H
adžia
bdić,
E. P
alkin
, R. M
ulla
dyan
ov a
nd K
. Han
jalić
17
.30 –
17.
50S5
.4 Effe
ct o
f com
pres
sibilit
y on
inho
mog
eneo
us p
lana
r she
ar fl
ows:
Reyn
olds
stre
ss e
volutio
n dy
nam
ics
R. L.
Ber
tsch
, D. S
. Pra
turi
and
S. S.
Girim
aji
17.5
0 – 1
8.35
SL. C
ompu
tatio
nal-A
nalyti
cal I
nteg
ral T
rans
form
s and
Lum
ped-
Diffe
renti
al Fo
rmul
ation
s: Be
nchm
arks
and
App
licati
ons i
n Nu
clear
Tec
hnol
ogy
R.M
. Cott
a, J.
Su, A
. Pon
tede
iro, K
.M. L
isboa
. Cha
irman
: G.R
ibat
ski
TU
ESD
AY 1
0 JU
LY M
ORN
ING
08
.30
– 09
.00
Sym
posi
um O
peni
ng
09.1
5 –
10.0
0 K1
. Tur
bule
nt c
ombu
stion
mod
ellin
g an
d ex
perim
ents
– re
cent
tren
ds a
nd d
evel
opm
ents
. A.
Giu
sti a
nd E
. Mas
tora
kos.
Cha
irman
: A. P
olla
rd.
10.0
0 –
10.2
0 Co
ffee
Brea
k
S1
Fund
amen
tals
RO
OM
A.
Chai
rman
: J. S
zmyd
. S2
Com
busti
on a
nd R
eacti
ng F
low
s RO
OM
C.
Chai
rman
: E. M
asto
rako
s.
10.2
0 –
10.4
0 S1
.1 E
ddy
diffu
sivity
of s
hort
-cor
rela
ted
rand
om fl
ows:
hel
icity
, m
olec
ular
-diff
usio
n &
mea
n-st
ream
ing
effec
ts
M. M
artin
s Afo
nso,
S. M
. A. G
ama
and
A. M
azzi
no
S2.1
Hig
h-Sp
eed
imag
ing
of tu
rbul
ent n
on-p
rem
ixed
syn
gas
flam
es a
t el
evat
ed p
ress
ures
W
. R. B
oyett
e, T
. F. G
uibe
rti, A
. M. E
lbaz
and
W. L
. Rob
erts
10
.40
– 11
.00
S1.2
The
Loc
al V
ortic
ity S
igna
ture
of V
orte
x St
ruct
ures
J.H
. Elsa
s and
L. M
oric
oni
S2.2
Sim
ulati
on o
f met
hane
/air
non-
prem
ixed
turb
ulen
t flam
es b
ased
on
RED
IM si
mpl
ified
che
mis
try
F.
Min
uzzi
, C. Y
u an
d U
. Maa
s 11
.00
– 11
.20
S1.3
Dis
sim
ilarit
y be
twee
n he
at a
nd m
omen
tum
tran
spor
t for
the
turb
ulen
t str
ipes
in tr
ansiti
onal
pla
ne C
ouett
e Fl
ow
K. F
ukud
ome,
T. T
suka
hara
and
Y. O
gam
i
S2.3
Coh
eren
t str
uctu
res i
n a
swirl
ing
jet w
ith v
orte
x br
eakd
own
and
com
busti
on. I
nves
tigati
on b
y PI
V an
d PL
IF
A. S
. Lob
asov
, L. M
. Chi
kish
ev, V
. M. D
ulin
and
D. M
. Mar
kovi
ch
11.2
0 –
11.4
0 S1
.4 A
sim
ilarit
y la
w fo
r tra
nspi
red
turb
ulen
t flow
s sub
ject
ed to
pr
essu
re g
radi
ents
and
sepa
ratio
n M
. C. G
uim
arãe
s, D
. O. A
. Cru
z an
d A.
P. S
ilva
Frei
re
S2.4
Inve
stiga
tion
of re
actio
n zo
ne st
ruct
ure
of le
an m
etha
ne–a
ir tu
rbul
ent p
rem
ixed
flam
es w
ith O
H–C
H2O
PLI
F
M. S
him
ura,
T. M
aeda
, Y. M
inam
oto
and
M. T
anah
ashi
11
.40
– 12
.00
S1.5
Inve
stiga
tion
of te
mpe
ratu
re in
fluen
ce in
the
prod
uctio
n of
hi
gher
turb
ulen
ce
T. S
. Caç
ão F
erre
ira a
nd T
. Art
s
S2.5
Num
eric
al in
vesti
gatio
n of
igni
tion
char
acte
ristic
s in
a H
CCI
confi
gura
tion
214
Y. K
ondo
, Y. M
inam
oto,
M. S
him
ura
and
M. T
anah
ashi
12
.00
– 12
.20
S1.6
Sm
all s
cale
ent
rain
men
t cha
ract
eristi
cs in
hig
h Re
ynol
ds n
umbe
r je
ts a
nd w
akes
M
. Zec
chett
o, T
. S. S
ilva
and
C. B
. da
Silv
a
S2.6
Sta
tistic
s of s
cala
r flux
tran
spor
t of m
ajor
spec
ies i
n di
ffere
nt
prem
ixed
turb
ulen
t com
busti
on re
gim
es 8
6 V.
Pap
apos
tolo
u, N
. Cha
krab
orty
, M. K
lein
and
H. G
. Im
12
.20
– 14
.00
Lunc
h an
d Cu
ltura
l Acti
vity
flows:
W
EDN
ESD
AY 1
1 JU
LY M
ORN
ING
08
.30
– 09
.15
K3. F
luid
Flo
w a
nd T
herm
al P
heno
men
a in
Em
ergi
ng C
oolin
g Te
chno
logi
es
J. R.
Bar
bosa
. Cha
irman
: J.B
.R. L
oure
iro.
S7
RAN
S M
etho
ds R
OO
M A
. Ch
airm
an: N
. Djil
ali.
S9 T
urbu
lenc
e Bu
oyan
ce R
OO
M B
. Ch
airm
an: N
. Kor
nev.
S8
Spr
ays,
Bub
bles
and
Dro
plet
s RO
OM
C.
Chai
rman
: C.W
.M. v
an D
er G
eld.
09
.20
– 09
.40
S7.1
Phy
sics u
nder
lyin
g re
aliza
bilit
y co
nstr
aint
s S.
S. G
irim
aji
S9.1
Num
eric
al si
mul
ation
of t
urbu
lent
hea
t tra
nsfe
r of
natu
ral c
onve
ction
ove
r a tw
o-di
men
siona
l hor
izont
al
heat
ed p
late
. A.
Mits
uish
i, T.
Suz
uki a
nd K
. Kita
mur
a
S8.1
Det
ectio
n an
d m
easu
rem
ent o
f bub
bles
in g
as-
liqui
d tw
o-ph
ase
flow
usin
g m
agne
tic fi
elds
A.
Wie
derh
old,
T. B
oeck
, C. R
esag
k an
d C.
Cie
rpka
09
.40
– 10
.00
S7.2
RAN
S m
odel
ling
of tu
rbul
ent h
eat t
rans
fer i
n m
oder
ate
Pran
dtl n
umbe
r flu
ids
D. S
arno
, T.J.
Craft,
H. I
acov
ides
and
A. N
asse
r
S9.2
Effe
cts o
f buo
yanc
y on
the
turb
ulen
ce o
f spa
tially
de
velo
ping
buo
yant
jet
K. N
akao
, Y. H
attor
i and
H. S
uto
S8.2
Cav
itatin
g flo
w a
roun
d a
tand
em o
f 2D
hydr
ofoi
ls:
high
-spe
ed im
agin
g an
d PI
V m
easu
rem
ents
K.
Per
vuni
n, I.
Zap
ryag
aev,
M. T
imos
hevs
kiy
and
D.
Mar
kovi
ch
10.0
0 –
10.2
0 S7
.3 U
nify
ing
the
near
-wal
l tre
atm
ent o
f the
tu
rbul
ent h
eat fl
uxes
for a
ll ki
nds o
f tem
pera
ture
bo
unda
ry c
ondi
tions
with
the
Ellip
tic B
lend
ing
appr
oach
. G. M
ange
on, S
. Ben
ham
adou
che,
JF. W
ald
and
R. M
ance
au
S9.3
Exp
erim
enta
l stu
dy o
f the
rmal
bou
ndar
y la
yer i
n a
dual
cav
ity so
lar c
him
ney
K. C
hauh
an, K
. M. T
allu
ru a
nd J.
Patt
erso
n
S8.3
Pha
se F
ield
/Flu
ctua
ting
Hydr
odyn
amic
s app
roac
h fo
r bub
ble
nucl
eatio
n M
. Gal
lo, F
. Mag
aletti
and
C.M
. Cas
ciol
a
10.2
0 –
10.4
0 S7
4 M
acro
scop
ic m
odel
ling
of ro
ugh
wal
l tur
bule
nce
base
d on
the
seco
nd m
omen
t clo
sure
Y.
Kuw
ata,
K. S
uga
and
Y. K
awag
uchi
S9.4
Nat
ural
and
mix
ed c
onve
ction
in e
nclo
sure
s co
ntai
ning
liqu
id m
etal
s and
par
tition
wal
ls
M. B
. Dzo
dzo
S8.4
Vel
ocity
fiel
d an
d bu
bble
size
mea
sure
men
ts o
f a
gas/
liqui
d flo
w a
cros
s a T
-junc
tion
Y. S
. Gav
ioli,
V. Y
. Aib
e an
d J.
B. R
. Lou
reiro
10
.40
– 11
.00
Coffe
e Br
eak
S1
0 RA
NS
Met
hods
RO
OM
A.
Chai
rman
: G. M
ompe
an.
S12
Envi
ronm
enta
l and
Geo
phys
ical
Flo
ws
ROO
M B
. Ch
airm
an: D
. Pul
lin.
S11
Spra
ys, B
ubbl
es a
nd D
ropl
ets
ROO
M C
. Ch
airm
an: J
.R. B
arbo
sa.
11.0
0– 1
120
S10.
1 Ro
ughn
ess c
orre
ction
s for
turb
ulen
ce m
odel
s:
low
-Rey
nold
s and
wal
l fun
ction
app
roac
hes
F.
Che
deve
rgne
S12.
1 Vo
rtex
iden
tifica
tion
for t
he st
udy
of a
tmos
pher
ic
flow
: a n
ew v
orte
x cr
iterio
n ap
plie
d to
win
d re
sour
ce
asse
ssm
ent
D. A
. Ram
os, R
.R.S
. Per
eira
, V.G
. Gue
des a
nd R
.L.T
hom
pson
S11.
1 M
icro
bubb
le c
oale
scen
ce a
nd b
reak
up in
tu
rbul
ent v
ertic
al c
hann
el fl
ows
K.S.
Asia
gbe,
M. F
airw
eath
er, D
.O. N
jobu
enw
u an
d M
. Co
lom
bo
11.2
0– 1
1.40
S1
0.2
Neu
ral n
etw
ork
tech
niqu
es fo
r acc
urac
y im
prov
emen
t of R
ANS
simul
ation
s M
. A. C
ruz,
R. L
. Tho
mps
on, R
. D. A
. Bac
chi a
nd L
. E.
B. S
ampa
io
S12.
2 Eff
ect o
f urb
an b
lock
geo
met
ry o
n su
rfac
e w
ind
and
air t
empe
ratu
re o
ver a
sand
bank
in th
e ce
ntra
l are
a of
O
saka
city
, Jap
an
A. Y
oshi
da a
nd R
. Yas
uda
S11.
2 M
odel
ing
of b
ubbl
e br
eaku
p an
d co
ales
cenc
e ra
tes i
n su
dden
exp
ansio
ns a
nd c
ontr
actio
ns
C. R
oser
o an
d E.
do
A. S
oare
s
11.4
0– 1
2.00
S1
0.3
Asse
ssm
ent o
f tur
bule
nce
mod
els i
n hy
droc
yclo
nes
R. A
. E. O
livei
ra, R
. P. A
njos
and
T. S
. Kle
in
S12.
3 N
umer
ical
pre
dicti
ons o
f the
hea
vy g
as tu
rbul
ent
disp
ersio
n an
d its
influ
ence
on
a pe
ople
cro
wd
evac
uatio
n:
an in
tegr
ated
app
roac
h S.
Zw
inke
ls an
d S.
Ken
jere
š
S11.
3 Co
mpa
rison
of d
iffer
ent h
eat t
rans
fer
mec
hani
sms g
over
ning
the
grow
th o
f a b
ubbl
e on
a
heat
ed su
rfac
e an
d in
a s
ubco
oled
flow
M
. Med
ghal
chi a
nd N
. Ash
griz
12.0
0– 1
2.20
S1
0.4
Impr
oved
k-ω
-γ tr
ansiti
on m
odel
con
sider
ing
dist
ribut
ed su
rfac
e ro
ughn
ess
M.C
. Yan
g an
d Z.
X. X
iao
S12.
4 Se
ason
al v
aria
tions
of t
raffi
c-in
duce
d CO
co
ncen
trati
on in
a c
ity w
ith a
larg
e riv
er: A
com
puta
tiona
l st
udy.
M. H
rebt
ov a
nd K
. Han
jalić
S11.
4 Pr
edic
tion
of w
ater
dro
plet
s ero
sion
on a
su
bson
ic c
ompr
esso
r cas
cade
P.
Ven
turin
i, D.
Bor
ello
, F. R
ispol
i and
S. G
abrie
le
12.2
0– 1
2.40
S1
0.5
Eval
uatio
n of
a q
uadr
atic
rate
of s
trai
n Re
ynol
ds st
ress
tens
or m
odel
for a
cha
nnel
flow
em
ploy
ing
DNS
data
. F. W
. Mur
ad, L
. E. B
. Sam
paio
, R.
L. T
hom
pson
and
A. O
. Nie
ckel
e
S12.
5 En
erge
tics o
f con
vecti
ve b
ound
ary
laye
rs
M. K
arim
i and
J. P
. Mel
lado
S1
1.5
Num
eric
al in
vesti
gatio
n fo
r effe
ct o
f hea
ting
area
on
ice
accr
etion
in N
ACA0
12 a
irfoi
l S.
Ura
nai,
H. M
amor
i, N
. Fuk
ushi
ma
and
M. Y
amam
oto
12.4
0– 1
3.40
Lu
nch
and
Cultu
ral A
ctivi
ty
13.4
0– 1
4.00
ER
C Le
ctur
e: F
undi
ng o
ppor
tuni
ties i
n Eu
rope
for c
reati
ve m
inds
from
all
over
the
wor
ld. L
MA
Sant
os. C
hairm
an: A
. Pol
lard
.
WED
NESDAY
11 JULY AFTER
NOON
14.00 – 14.45
K4. Particle Dynam
ics in Turbulen
t Pipe Flow
.C.W.M
. Van
der Geld. Cha
irman
: D. B
orello.
S13 Co
mbine
d RA
NS/LES RO
OM A.
Chairm
an: B
. Basara.
S14 Flow
and
Heat T
ransf C
ontrol ROOM C.
Chairm
an: K
. Iwam
oto.
S15 Indu
stria
l App
lications ROOM B.
Chairm
an: D
. Bergstrom
. 14.50 – 15.10
S13.1 Performance of an aniso
trop
y‐resolving
hybrid LES/RAN
S mod
el fo
r high Re
ynolds‐num
ber
turbulen
t chann
el flow
s up to Re τ = 2×105
K. Abe
S14.1 On the early
onset of transition
in
circular‐orifice baffled
tube
s: an expe
rimen
tal
stud
y. J. M
uñoz, D
. Crespí, J.P
. Solan
o an
d P.G. V
icente
S15.1 Simulating the aerodynamics o
f the
Porsche
919
hybrid LMP1
racing
car
G.K. D
utzle
r and
C. Pashias
15.10 – 15.30
S13.2 A du
al‐grid
hybrid
RAN
S/LES mod
el fo
r un
der‐resolved
near‐wall regions and
its
application to heated and separatin
g flo
ws
P. Ngu
yen, J. Urib
e, I. Afgan
and
D. Lau
rence
S14.2 Ch
aracterization of heat transfer
fluctuatio
n in a tu
rbulen
t pipe flo
w with
rectangular w
ave pu
lsatio
n H. Nakam
ura an
d S. Yam
ada
S15.2 Measuremen
t of the
uctuating pressure on the
shroud
wall of a
hard‐disk driv
e mod
el
Y. Son
oda, K. San
ada an
d S. Obi
1530
– 15.50
S13.3 He
at transfer and
flow
structures fo
r structured
surfaces usin
g LES and hybrid RAN
S/LES
approach
J. Turnow
and
N. Kornev
S14.3 High
‐perform
ance dou
ble‐pipe
turbulen
t heat e
xchangers w
ith V‐shape
d ob
lique
wavy walls
K. M
orim
oto, S. Jin and
Y. Suzuki
S15.3 Turbulen
t and
mean velocity fields in a cyclonic
separator w
ith internals: experim
ental and
num
erical
approaches
G.E.O. Celis, M
.G. Pereira and
P.L.C. Lag
e 15.50 – 16.10
S13.4 Num
erical simulation of tu
rbulen
t flow and
he
at transfer over rotating disks u
sing a hybrid
LES‐RA
NS metho
d L. Kap
pis, J. Turno
w and
N. Kornev
S14.4 Flow
con
trol fo
r a simplified
truck using
an array of streamwise
synthe
tic jets
G. M
inelli, T. Liu, J. Zha
ng, V
. Chernoray, B.
Basara and
S. Krajnovic
S15.4 Ph
ysicoche
mical m
odelling of calcium
carbo
nate
scaling in pipe flo
w
G. F. N
. Gon
çalves, E. do A. Soa
res a
nd J. B. R
. Lou
reiro
16.10 – 16.30
Coffe
e Break
S16 Co
mbine
d RA
NS/LES RO
OM A.
Chairm
an: S. Sarkar.
S17Indu
stria
l App
lications ROOM B.
Chairm
an: P
.L.C. Lage.
16.30–
16.50
S16.1 Enhanced
delayed
DES of sho
ck
wave/bo
undary layer interactio
n in a planar
transonic no
zzle. G
. Della Posta, E. M
artelli, P. P.
Ciottoli, F. Stella and
M. B
erna
rdini
S17.1 Multip
hase Eulerian‐Lagrangian
LES of
particulate fouling on
structured
heat transfer
surfaces
R. Kasper, J. Turnow
and
N. Kornev
16.50–
17.10
S16.2 Ap
plication of a hybrid
URA
NS/LES
turbulen
ce m
odel to
turbom
achine
ry flow
s R. T. Kelly and
A. Jem
cov
S17.2 CFD An
alysis of th
e erosion of a light g
as
strati
catio
n by
means of a
hot air jet in the
minipanda
facility
A. Attavino, L. Koloszar, M. A
dorni and
P. Planq
uart
17.10–
17.30
S16.3 Influ
ence of the
num
erical sc
hemes on the
flow states of a
simplified
heavy veh
icle
A. Rao
, J. Zha
ng, G
. Minelli, B. B
asara an
d S.
Krajno
vić
S17.3 An
alysis of con
trolling parameters d
uring
turbulen
t air jet impingem
ent for app
lications in
commercial coo
king
S. S. Shevade, R. G
uldiken an
d M. M
. Rahman
17.30–
17.50
S16.4 De
veloping
num
erical wall fun
ction for large
eddy simulation using ed
dy – visc
osity
mod
els in
the em
bedd
ed RAN
S do
main
B.E.O. Iyamab
o, I. Afgan
, D. Lau
rence an
d A. Revell
19.00–
22.00
GalaDinn
er: M
useu
Nacional
TH
URS
DAY
12
JULY
MO
RNIN
G
08.3
0 –
09.1
5 K5
. The
Impa
ct o
f Sub
surf
ace
Turb
ulen
t Pro
cess
es o
n th
e U
pper
Oce
an T
herm
al S
truc
ture
: LES
Stu
dies
S.
Sar
kar.
Chai
rman
: M. H
adži
abdić.
S18
DNS
and
LES
Stud
ies R
OO
M A
. Ch
airm
an: S
. Jak
irlic
. S1
9 Pa
rticl
e-La
den
Flow
s RO
OM
C.
Cha
irman
: S. K
enje
reš.
09
.20
– 09
.40
S18.
1 Di
rect
num
eric
al si
mul
ation
of t
urbu
lent
hea
t tra
nsfe
r ove
r an
isotr
opic
por
ous m
edia
Y.
Nish
iyam
a, Y
. Kuw
ata
and
K. S
uga
S19.
1 An
alyz
ing
dom
inan
t par
ticle
-flow
stru
ctur
es in
side
a bu
bblin
g flu
idize
d be
d us
ing
POD
M
. R. H
aghg
oo, D
. J. B
ergs
trom
and
R. J
. Spi
teri
09.4
0 –
10.0
0 S1
8.2
DNS
stud
y of
dua
l-plu
me
inte
rfer
ence
in a
wal
l-bou
nded
turb
ulen
t flo
w
B.-C
. Wan
g an
d A.
Noo
rmoh
amm
adi
S19.
2 N
ear-
wal
l int
erpa
rticl
e co
llisio
n dy
nam
ics i
n m
ulti-
phas
e tu
rbul
ent
chan
nel fl
ows
L.F.
Mor
timer
, M. F
airw
eath
er a
nd D
. O. N
jobu
enw
u 10
.00
– 10
.20
S18.
3 DN
S of
a su
bson
ic je
t on
a he
ated
cur
ved
surf
ace
A. S
alva
gni,
G. C
amer
leng
o, J.
Ses
terh
enn
and
D. B
orel
lo
S19.
3 Eff
ect o
f fra
ctal
dim
ensio
n of
agg
lom
erat
e st
ruct
ure
on p
artic
le-p
artic
le
inte
racti
ons i
n tu
rbul
ent fl
ow
D.O
. Njo
buen
wu
and
M. F
airw
eath
er
10.2
0 –
10.4
0 S1
8.4
DN
S st
udy
on c
hara
cter
istics
and
stru
ctur
es o
f tur
bule
nt h
eat
tran
sfer
in th
erm
ally
-str
atifie
d bo
unda
ry la
yer o
ver 2
D Hi
ll H.
Hatt
ori,
Y. M
uray
ama,
T. H
oura
and
M. T
agaw
a
S19.
4 Si
ze-r
esol
ving
sim
ulati
on fo
r col
lidin
g in
ertia
l par
ticle
s in
hom
ogen
eous
iso
trop
ic tu
rbul
ence
R.
Oni
shi,
S. T
akeu
chi,
T. F
ukad
a, K
. Mat
suda
and
T. K
ajish
ima
10.4
0 –
11.0
0 Co
ffee
Brea
k
S20
Ener
gy a
nd P
ower
. Ch
airm
an: S
. Ben
ham
adou
che.
S2
1 Tu
rbul
ence
and
Non
-New
toni
an F
luid
s RO
OM
C.
Chai
rman
: D.O
.A. C
ruz.
11
.00–
112
0 S2
0.1
A m
ultis
cale
mod
el o
f tra
nspo
rt p
heno
men
a in
a si
ngle
pla
nar s
olid
ox
ide
fuel
cel
l M
. Moz
dzie
rz, G
. Bru
s, S
. Kim
ijim
a an
d J.S
. Szm
yd
S21.
1 Ap
pear
ance
of g
el-li
ke sh
ear-
indu
ced
stru
ctur
es a
nd fl
ow m
odifi
catio
n in
turb
ulen
t cha
nnel
flow
with
dos
ing
of d
ilute
surf
acta
nt so
lutio
n S.
Har
a, K
. Ish
ii, T
. Tsu
kaha
ra a
nd Y
. Kaw
aguc
hi
11.2
0– 1
1.40
S2
0.2
Num
eric
al v
erifi
catio
n of
rapi
d-pr
otot
yped
flex
ible
surr
ogat
es o
f la
bora
tory
mod
els o
f hyd
rotu
rbin
es
A. M
inak
ov, I
. Litv
inov
, D. P
lato
nov,
A. D
ekte
rev,
S. S
htor
k an
d K.
Han
jalić
S21.
2 PI
V/LI
F sim
ulta
neou
s mea
sure
men
t on
turb
ulen
t cha
nnel
flow
with
flu
ores
cent
ly-la
bele
d po
lym
er fo
r fric
tion
drag
redu
ction
E.
Yam
aguc
hi, K
. Iw
amot
o, A
. Mur
ata
and
H. A
ndo
11.4
0– 1
2.00
S2
0.3
Num
eric
al a
nd e
xper
imen
tal s
tudy
of a
perio
dic
pres
sure
pul
ses i
n Fr
anci
s tur
bine
A.
Min
akov
, D. P
lato
nov,
D. D
ekte
rev
and
A. M
asle
nnik
ova
S21.
3 Se
para
ted
turb
ulen
t bou
ndar
y la
yers
of p
ower
-law
shea
r thi
nnin
g flu
ids
L. C
aste
llano
s, J.
B. R
. Lou
reiro
and
A. P
. Silv
a Fr
eire
12.0
0– 1
2.20
S2
0.4
An e
xper
imen
tal a
ppro
ach
to si
mul
tane
ously
mea
sure
the
tem
pera
ture
fiel
d an
d flu
id fi
lm th
ickn
ess i
n th
e cy
linde
r blo
ck/v
alve
pla
te
gap
of a
n ax
ial p
iston
pum
p A.
Sho
rbag
y, R
. Iva
ntys
yn a
nd P
rof.
J. W
eber
S21.
4 En
ergy
spec
tra
in fo
rced
hom
ogen
ous i
sotr
opic
turb
ulen
ce o
f FEN
E-P
solu
tions
C.
B. d
a Si
lva,
F. T
. Pin
ho a
nd D
. O. A
. Cru
z
12.2
0– 1
2.40
S2
0.5
Num
eric
al p
redi
ction
of w
inda
ge p
ower
loss
es fo
r a sp
ur g
ear i
n tw
o ph
ase
med
ia
M.K
. Akt
as, A
.K. E
rsan
and
M.A
. Yav
uz
S21.
5 A
new
ela
stic
dum
bbel
l mod
el w
ith v
aria
ble
affini
ty in
mul
ti-s
cale
an
alys
is of
pol
ymer
-dilu
ted
turb
ulen
t flow
K.
Hor
iuti
and
R. K
anza
ki
12.4
0– 1
3.00
S2
0.6
Inve
stiga
tion
of v
orte
x an
d sw
irl re
ducti
on b
y flo
or sp
litter
in a
sin
gle
pum
p in
take
Z.
Har
un,T
.A. N
oriza
n, E
. Red
a, S
. Abd
ulla
h an
d W
.H.M
. Wan
Mok
htar
S21.
6 Di
rect
Num
eric
al S
imul
ation
of t
urbu
lent
non
-New
tona
in fl
ow in
a ro
d-ro
ughe
ned
chan
nel
H.R.
Anb
arlo
oei,
S. P
arva
r, D.
Cru
z and
F. P
inho
13
.00–
14.
00
Lunc
h an
d Cu
ltura
l Acti
vity
TH
URS
DAY
12
JULY
AFT
ERN
OO
N
14.0
0 –
14.4
5 K6
. Hea
t and
Mas
s Tra
nsfe
r Iss
ues i
n Fu
el C
ells
and
Hydr
ogen
Sys
tem
s N
. Djil
ali.
Chai
rman
: R.M
. Co
tta.
S22
DNS
and
LES
Stud
ies
ROO
M A
. Ch
airm
an: S
.S. G
irim
aji.
S23
Heat
Exc
hang
ers a
nd R
eact
ors
ROO
M C
. Ch
airm
an: M
.B. D
zodz
o.
14.5
0 –
15.1
0 S2
2.1
Wal
l-res
olve
d LE
S of
cha
nnel
flow
: A c
orre
latio
n fo
r the
di
scon
tinui
ty o
f εθ
at th
e flu
id-s
olid
inte
rfac
e C.
Fla
geul
, I. T
iselj,
S. B
enha
mad
ouch
e an
d M
. Fer
rand
S23.
1 He
at tr
ansf
er in
a fi
xed
bed
of p
artic
les f
or e
nerg
y st
orag
e: a
mul
ti-s
cale
nu
mer
ical
stud
y M
. Bel
ot, T
. Pha
n, F
. Euz
énat
, J-L
. Pie
rson
, D. T
eixe
ira, G
. Vin
ay, Q
. Fa
lcoz
, A. T
outa
nt a
nd A
. Wac
hs
15.1
0 –
15.3
0 S2
2.2
Gen
erati
on o
f Arti
ficia
l Sca
lar F
luct
uatio
ns b
ased
on
the
Dive
rgen
ce-F
ree
Turb
ulen
t Spo
t Met
hod
H. K
röge
r and
N. K
orne
v
S23.
2 A
num
eric
al a
naly
sis o
n th
e co
nden
satio
n he
at tr
ansf
er fo
r a v
ertic
al ty
pe
cond
ense
r J.-
H. H
wan
g an
d D.
-W. J
erng
15
30 –
15.
50
S22.
3 N
on-h
omog
eneo
us th
erm
al b
ound
ary
cond
ition
s in
low
Pra
ndtl
num
ber p
ipe
flow
s S.
Str
aub,
P. F
oroo
ghi,
L. M
aroc
co, T
. Wet
zel a
nd B
. Fro
hnap
fel
S23.
3 Eff
ect o
f gra
vity
and
met
al fo
am o
n m
eltin
g of
pha
se c
hang
e m
ater
ial i
n a
verti
cal s
hell
and
tube
hea
t exc
hang
er
S. M
ali,
S. N
aray
anam
urth
y an
d S.
Sen
gupt
a 15
.50
– 16
.10
S22.
4 Si
mul
ation
of t
herm
al tr
ansf
er u
sing
the
imm
erse
d bo
unda
ry
met
hod
and
adap
tive
mes
h R.
R. S
. Mel
o, D
. Kin
oshi
ta, M
. M. V
illar
, R. S
erfa
ty a
nd A
. Silv
eira
-Net
o
S23.
4 Si
zing
of a
cor
ruga
ted
plat
e he
at e
xcha
nger
in a
bott
omin
g or
gani
c Ra
nkin
e cy
cle
for w
aste
hea
t rec
over
y of
pist
on a
ero-
engi
nes
M. H
ughe
s and
J. O
lsen
16.1
0 –
16.3
0 Co
ffee
Brea
k
S24
DNS
and
LES
Stud
ies.
Ch
airm
an: Z
.X. X
iao.
S2
5 Im
ping
emen
t, Se
paratio
n, S
wirl
and
Rot
ation
RO
OM
C.
Chai
rman
: R. v
an H
out.
16.3
0– 1
6.50
S2
4.1
Num
eric
al si
mul
ation
s of w
all t
rans
pira
tion
in p
ipe
flow
s M
. Rem
pto
and
H. A
mba
rlooe
i S2
5.1
Larg
e-ed
dy si
mul
ation
of fl
ow a
bout
a ro
tatin
g cy
linde
r at l
arge
Rey
nold
s nu
mbe
r D.
Pul
lin, W
. Che
ng a
nd R
. Sam
tane
y 16
.50–
17.
10
S24.
2 D
irect
num
eric
al si
mul
ation
of s
epar
ated
-flow
tran
sitio
n in
low
-pr
essu
re tu
rbin
e
S. Ji
ang
and
S. F
u
S25.
2 Vi
sual
izatio
n of
low
-Rey
nold
s num
ber fl
ow a
bove
a fi
nite
-hei
ght s
quar
e pr
ism
H. H
osse
inza
de, R
. Cha
krav
arty
, D.J.
Ber
gstr
om a
nd D
. Sum
ner
17.1
0– 1
7.30
S2
4.3
Dyn
amic
s of p
ulsa
ting
low
-Rey
nold
s num
ber c
hann
el fl
ow
R. L
ozow
y an
d D.
Kuh
n
S25.
3 Sp
atial
ly a
dvan
cing
cur
ved
chan
nel t
urbu
lent
hea
t tra
nsfe
r with
isot
herm
al
wal
l hea
ting
cond
ition
Ko
ji M
atsu
bara
and
Tak
uya
Mur
omot
o 17
.30–
17.
50
S2
5.4
DNS
stud
y of
turb
ulen
t flow
in a
circ
ular
pip
e su
bjec
ted
to ra
dial
rota
tion
Z.-P
. Zha
ng a
nd B
.-C. W
ang
FR
IDAY
12
JULY
MO
RNIN
G
08.3
0 –
09.1
5 K7
. Flo
w a
nd T
herm
al M
anag
emen
t in
Auto
moti
ve E
ngin
eerin
g: R
ecen
t CFD
Aid
ed D
evel
opm
ents
B.
Bas
ara
and
S. Ja
kirli
c. C
hairm
an: K
. Han
jalic
.
S26
Com
busti
on a
nd R
eacti
ng F
low
s RO
OM
A.
Chai
rman
: D.J.
C. D
enni
s S2
7 Im
ping
emen
t, Se
paratio
n, S
wirl
and
Rot
ation
RO
OM
C.
Chai
rman
: B.-C
. Wan
g.
09.2
0 –
09.4
0 S2
61 F
lam
e st
ruct
ure
of s
uper
criti
cal C
H4/C
O2/
O2
non-
prem
ixed
turb
ulen
t co
mbu
stion
by
mea
ns o
f lar
ge e
ddy
simul
ation
E.
Gia
com
azzi,
D. C
ecer
e, N
.M. A
rcid
iaco
no a
nd F
.R. P
icch
ia
S27.
1 Fl
ow fi
eld
mea
sure
men
ts o
f a ro
und
jet i
mpi
ngin
g on
smoo
th a
nd
dim
pled
surf
aces
R.
van
Hou
t, V.
Rin
sky,
N. S
asso
n, C
. Her
shco
vich
, Y.J.
Gro
bman
and
M.
Tshu
va, L
. Pus
tyln
ik
09.4
0 –
10.0
0 S2
62 L
arge
edd
y sim
ulati
on o
f sup
erso
nic
com
busti
on u
sing
the
Eule
rian
stoc
hasti
c fie
lds m
etho
d
Y. P
. Alm
eida
and
S. N
avar
ro-M
artin
ez
S27.
2 H
eat t
rans
fer a
nd fl
ow fi
eld
mea
sure
men
ts o
f a p
ulsa
ting
roun
d je
t im
ping
ing
on a
flat
hea
ted
surf
ace
M. R
aizn
er, V
. Rin
sky
, R. v
an H
out a
nd G
. Gro
ssm
an
10.0
0 –
10.2
0 S2
63 L
ow-t
empe
ratu
re fl
amel
ess c
ombu
stion
of d
odec
ane
drop
lets
in
mic
rogr
avity
con
ditio
ns
S. M
. Fro
lov,
V. Y
a. B
asev
ich,
S. N
. Med
vede
v an
d F.
S. F
rolo
v
S27.
3 P
ost R
ough
ness
Dom
inan
t Reg
ime
in th
e Tu
rbul
ent F
low
Thr
ough
Ro
ugh
Pipe
s C.
M.M
. San
tos,
H.R
. Anb
arlo
oei,
D.O
.A C
ruz a
nd F
. Ram
os
10.2
0 –
10.4
0
S27.
4 C
onju
gate
d he
at tr
ansf
er m
odel
for r
ibbe
d su
rfac
e c
onve
ction
en
hanc
emen
t and
solid
bod
y te
mpe
ratu
re fl
uctu
ation
s L.
A. C
arril
ho a
nd M
. B. D
zodz
o 10
.40
– 11
.00
S2
7.5
Effec
t of r
otati
on a
nd st
ratifi
catio
n on
hom
ogen
eous
shea
red
turb
ulen
ce th
roug
h se
cond
ord
er m
odel
S.
Nai
fer a
nd M
. Bou
zaia
ne
11.0
0 –
11.2
0 Co
ffee
Brea
k
S28
Parti
cle-
Lade
n Fl
ows R
OO
M A
. Ch
airm
an: L
uca
Mor
icon
i. S2
9 He
at E
xcha
nger
s and
Rea
ctor
s RO
OM
C.
Chai
rman
: D.-W
. Jer
ng.
11.2
0– 1
1.40
S2
8.1
Aniso
trop
ic p
artic
le c
lust
erin
g in
the
visc
ous s
ubla
yer o
f wal
l-bo
unde
d tu
rbul
ent fl
ows
D.
Ph. S
ikov
sky
S29.
1 Fl
ow V
isual
izatio
n an
d LE
S Si
mul
ation
s ins
ide
a Ch
evro
n Ty
pe P
late
Hea
t Ex
chan
ger
E. P
eçen
ek, Ő
. Ert
unc
and
C. Ş
enka
l 11
.40–
12.
00
S28.
2 Ta
ylor
-Gre
en-K
ubo
form
ula
and
asym
ptoti
c tr
ansp
ort o
f ine
rtial
pa
rticl
es
S. B
oi, A
. Maz
zino
and
P. M
urat
ore-
Gina
nnes
chi
S29.
2 An
alys
is of
a H
TR u
sing
Ope
nFO
AM w
ith p
orou
s med
ia a
ppro
ach
for
turb
ulen
t, co
mpr
essib
le fl
ow
P. D
ahl a
nd J.
Su
12.0
0– 1
2.20
S2
8.3
Effec
t of S
tefa
n flo
w o
n dr
ag c
oeffi
cien
t of r
eacti
ve sp
heric
al p
artic
les
in g
as fl
ow
T.R.
Jaya
wic
kram
a, N
.E.L
. Hau
gen,
M.U
. Bab
ler a
nd K
. Um
eki
S29.
3 N
on-p
rem
ixed
com
busti
on in
rota
ry k
ilns u
sing
Ope
n-FO
AM: i
nflue
nce
of c
onju
gate
hea
t tra
nsfe
r and
ext
erna
l rad
iativ
e he
at lo
ss o
n tu
rbul
ent fl
ame
and
wal
l tem
pera
ture
M
. el A
bbas
si, D
. Abd
illah
Ram
adha
n Fi
kri,
D.J.P
. Lah
aye
and
C. V
uik
12.2
0– 1
2 40
S2
8.4
Parti
cle
velo
city
dist
ributi
on b
ased
on
the
thre
e-di
men
siona
l st
ocha
stic
parti
cle–
bed
colli
sions
in w
ind-
blow
n sa
nd fl
ux
T. Ji
n, P
. Wan
g, N
. Che
ng a
nd X
.J. Z
heng
12.4
0– 1
3.00
Cl
osin
g Ce
rem
ony
Author Index
Abassi, M. el S29.3 Abdullah, S. S20.6 Abe, K. S13.1 Adorni, M. S17.2 Afgan, I S13.2 Afgan, I. S16.4 Aibe, V. Y. S8.3 Aktas, M. K. S20.5 Almeida, Y. P. S26.2 Amiroudine, S. S3.4 An, F. S4.1 Anbarlooei, H. R. S21.6, S24.1,
S27.3 Ando, H. S21.2 Andrade, J. R. S1.2 Anjos, R. P. S10.3 Arcidiacono, N. M. S26.1 Arts, T. S1.5 Ashgriz, N. S11.3 Asiagbe, K. S. S11.1 Attavino, A. S17.2 Babler, M. U. S28.3 Bacchi, R. D. A. S10.2 Barbosa, J. R. K3 Basara, B. S14.4, S16.3Basevich, V. Ya. S26.3 Belot, M. S23.1 Benhamadouche, S. S7.3, S22.1Bergstrom, D. J. S19.1, S25.2Bernardini, M. S16.1 Bertsch, R. L. S5.3, S5.4 Boeck, T. S8.1 Boi, S. S28.2 Borello, D. S11.4, S18.3Bouzaiane, M. S27.5 Boyette, W. R. S2.1 Brus, G. S20.1 Cação Ferreira, T. S. S1.5 Camerlengo, G. S18.3 Carrilho, L. A. S27.4 Casciola, C. M. S8.2 Castellanos, L. S21.3 Cecere, D. S26.1 Celis, G. E. O. S15.3 Chakraborty, N. S2.6, S4.4 Chakravarty, R. S25.2 Chauhan, K. S9.3 Chedevergne, F. S10.1 Cheng, N. S28.4 Cheng, W. S25.1 Chernoray, V. S14.4 Chikishev, L. M. S2.3 Cierpka, C. S8.1 Ciottoli, P. P. S16.1
Colombo, M. S11.1Cotta, R. M. SLCraft, T. J. S7.2Cregan, H. L. F. S5.1Crespí, D. S14.1Cruz, D. O. A. S1.4, S21.4,
S21.6, S27.3 Cruz, M. A. S10.2Dahl, P. S29.2Dekterev, A. S20.2Dekterev, D. S20.3Della Posta, G. S16.1Dennis, D. J. C. S5.1Djolali, N. K6Dodds, J. M. S5.1Dulin, V. M. S2.3Dutzler, G. K. S15.1Dzodzo, M. B. S9.4, S27.4Elbaz, A. M. S2.1Elsas, J. H. S5.2Erriquible, A. S3.4Ersan, A. K. S20.5Ertunc, Ő. S29.1Euzénat, F. S23.1Fairweather, M. S11.1, S19.2,
S19.3 Falcoz, Q. S23.1Ferrand, M. S22.1Flageul, C. S22.1Forooghi, P. S22.3Frohnapfel, B. S22.3Frolov, F. S. S26.3Frolov, S. M. S26.3Fu, S. S24.2Fukada, T. S19.4Fukudome, K. S1.3, S6.1Fukushima, N. S6.1; S11.5Gabriele, S. S11.4Gallo, M. S8.3Gama, S. M. A. S1.1Gatski, T. B. S1.2Gavioli, Y. S. S8.3Giacomazzi, E. S26.1Girimaji, S. S. S5.3, S5.4,
S7.1 Giusti, A. K1Gonçalves, G. F. N. S15.4Grobman, Y. J. S27.1Grossman, G. S27.2Guedes, V. G. S12.1Guiberti, T. F. S2.1Guimarães, M. C. S1.4Guldiken, R. S17.3Hadžiabdić,, M. S6.3
Haghgoo, M. R. S19.1Hanjalić, K. S3.2, S6.3,
S12.4, S20.2 Hara, S. S21.1Harun, Z. S20.6Hasslberger, J. S4.4Hattori, H. S18.4Hattori, Y. S9.2Haugen, N. E. L. S28.3Hershcovich, C. S27.1Horiuti, K. S21.5Hosseinzade, H. S25.2Houra, T. S18.4Hrebtov, M. S12.4Hughes, M. S23.4Hwang, J. H. S23.2Iacovides, H. S7.2Im, H. G. S2.6Ishii, K. S21.1Ito, Y. S3.3Ivantysyn, R. S20.4Iwamoto, K. S6.2, S21.2Iwano,K. S3.3Iyamabo, B. E. O. S16.4Jayawickrama, T. R. S28.3Jemcov, A. S16.2Jerng, D. W. S23.2Jiang, S. S24.2Jin, S. S14.3Jin, T. S28.4Kajishima, T. S19.4Kanzaki, R. S21.5Kappis, L. S13.4Karimi, M. S12.5Kasper, R. S17.1Kawaguchi, Y. K2, S7.4,
S21.1 Kelly, R. T. S16.2Kenjereš, S. S12.3Kimijima, S. S20.1Kinoshita, D. S22.4Kitamura, K. S9.1Klein, M. S2.6, S4.4Klein, T. S. S10.3Koganezawa, S. S6.2Koloszar, L. S17.2Kondo, Y. S2.5Kornev, N. S13.3, S13.4,
S17.1, S22.2 Krajnović, S. S14.4, S16.3Kröger, H. S22.2Kuban, L. S4.3Kuhn, D. S24.3Kuwata, Y. S7.4, S18.1
Lage, P. L. C. S15.3 Lahaye, D. J. P. S29.3 Laurence, D. S13.2 Laurence, D. S16.4 Lisboa, K. M. SL Litvinov, I. S20.2 Liu, T. S14.4 Lobasov, A. S. S2.3 Loureiro, J. B. R. S8.3, S15.4,
S21.3 Lozowy, R. S24.3 Maas, U. S2.2 Maeda, T. S2.4 Magaletti, F. S8.2 Mali, S. S23.3 Mamori, H. S6.1, S11.5Manceau, R. S7.3 Mangeon, G. S7.3 Markovich, D. M. S2.3, S3.2,
S8.2 Marocco, L. S22.3 Martelli, E. S16.1 Martins Afonso, M. S1.1 Martins, R. S. S1.2 Maslenikova, A. S20.3 Mastorakos, E. K1, S4.2 Matsubara, K. S25.3 Matsuda, K. S19.4 Mazzino A. S1.1, S28.2Medghalchi, M. S11.3 Medvedev, S. N. S26.3 Mellado, J. P. S12.5 Melo, R. R. S. S22.4 Meyer, B. S4.1 Minakov, A. S20.2, S20.3Minamoto, Y. S2.4, S2.5 Minelli, G. S14.4, S16.3Minuzzi, F. S2.2 Mitsuishi, A. S9.1 Mompean, G. S1.2 Moriconi, L. S5.2 Morimoto, K. S14.3 Mortimer, L. F. S19.2 Mozdzierz, M. S20.1 Mullyadzhanov, R. S3.2, S6.3 Muñoz, J. S14.1 Murad, F. W. S10.5 Murata, A. S6.2, S21.2Muratore-Ginanneschi, P.
S28.2
Murayama, Y. S18.4 Muromoto, T. S25.3 Naifer, S. S27.5 Nakamura, H. S14.2
Nakao, K. S9.2Narayanamurthy, S. S23.3Nasser, A. S7.2Navarro-Martinez, S. S26.2Ng, H. C. H. S5.1Nguyen, P. S13.2
S3.2Nieckele, A. O. S10.5Nishiyama, Y. S18.1Njobuenwu, D. O. S11.1, S19.2,
S19.3 Noormohammadi, N. S18.2Norizan, T. A. S20.6Obi, S. S15.2Ogami, Y S1.3Ogino, K. S6.1Oliveira, P. M. de S4.2Oliveira, R. A. E. S10.3Olsen, J. S23.4Onishi, R. S19.4Ozel Erol, G. S4.4Palkin, E. S3.2, S6.3Papapostolou, V. S2.6Parvar, S. S21.6Pashias, C. S15.1Patterson, J. S9.3Peçenek, E. S29.1Pereira, M. G. S15.3Pereira, R. R. S. S12.1Pervunin, K. S8.2Pham, H. T. K5Phan, T. S23.1Picchia, F. R. S26.1Pierson, J. L. S23.1Pinho, F. T. S21.4, S21.6Planquart, P. S17.2Platonov, D. S20.2, S20.3Pontedeiro, A. SLPoole, R. J. S5.1Praturi, D. S. S5.3, S5.4Pullin, D. S25.1Pustylnik, L. S27.1Rahman, M. M. S17.3Raizner, M. S27.2Ramos, D. A. S12.1Ramos, F. A. T. S27.3Rao, A. S16.3Reda, E. S20.6Rempto, M. J. S24.1Resagk, C. S8.1Revell, A. S16.4Richter, A. S4.1Rinsky, V. S27.1, S27.2Rispoli, F. S11.4
Roberts, W. L. S2.1Rosero, C. S11.2Sakai,Y. S3.3Salvagni, A. S18.3Sampaio, L. E. B. S10.2, S10.5Samtaney, R. S25.1Sanada, K. S15.2Santos, C. M. M. S27.3Santos, L. M. A. ERC LectureSarkar, S. K5Sarno, D. S7.2Sasson, N. S27.1Sbdillah Ramadan Fikri, D.
S29.3
Sengupta, S. S23.3S29.1
Serfaty, R. S22.4Sesterhenn, J. S18.3Sharma, D. S3.4Shestakov, M. S3.2Shevade, S. S. S17.3Shimura, M. S2.4, S2.5Shorbagy, A. S20.4Shtork, S. S20.2Sikovsky, D. Ph. S28.1Silva Freire, A. P. S1.4, S21.3Silva, C. B. Da S1.6, S21.4Silva, T. S. S1.6Silveira Neto, A. S22.4Soares, E. do A. S11.2Soares, E. do A. S15.4Solano, J. P. S14.1Sonoda, Y. S15.2Spiteri, R. J. S19.1Stella, F. S16.1Straub, S. S22.3Su, J. SL, S29.2Suga, K. S7.4, S18.1Sumner, D. S25.2Suto, H. S9.2Suzuki, T. S9.1Suzuki, Y. S14.3Szmyd, J. S. S20.1Tagawa, M. S18.4Takahashi, M. S3.3Takeuchi, S. S19.4Talluru, K. M. S9.3Tanahashi, M. S2.4, S2.5Teixeira, F. S23.1
S1.2S10.2, S10.5, S12.1
Timoshevskiy, M. S8.2Tiselj, I. S22.1
Toutant, A. S23.1 Tshuva, M. S27.1 Tsukahara, T. S1.3, S21.1Turnow, J. S13.3, S13.4,
S17.1 Tyliszczak, A. S4.3 Umeki, K. S28.3 Uranai, S. S11.5 Uribe, J S13.2 van der Geld, C. W. M.
K4
van Hout, R. S27.1, S27.2Venturini, P. S11.4 Vicente, P. G. S14.1 Villar, M. M. S22.4 Vinay, G. S23.1 Vuik, C. S29.3 Wachs, A. S23.1 Wald, J. F. S7.3 Wan Mokhtar, W. H. M.
S20.6
Wang, B. C. S18.2, S25.4Wang, P. S28.4 Weber, J S20.4 Wetzel, T. S22.3 Wiederhold, A. S8.1 Xia, K. Q. S3.1 Xiao, Z. X. S10.4 Yamada, S. S14.1 Yamaguchi, E. S21.2 Yamamoto, M. S6.1, S6.2,
S11.5 Yang, M. C. S10.4 Yasuda, R. S12.2 Yavuz, M. A. S20.5 Yoshida, A. S12.2 Yu, C. S2.2 Zapryagaev, I. S8.2 Zeccheto, M. S1.6 Zhang, J. S14.4, S16.3Zhang, L. S3.1 Zhang, Z. P. S25.4 Zheng, X. J. S28.4 Zwinkels, S. S12.3
�
Casa do Colégio Brasileiro de Altos Estudos (CBAE)(Federal University of Rio de Janeiro)
Avenida Rui Barbosa, 762 Flamengo – Rio de Janeiro
