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Index
of papers by Session |
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6th International Symposium on
Supercritical Fluids General
summary |
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PLENARY SESSIONS |
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NATURAL PRODUCTS |
PROCESS
AND EQUIPMENT DEVELOPMENT |
THERMODYNAMIC
& PHYSICO-CHEMICAL PROPERTIES |
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N : Natural
Products |
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REACTIONS |
MATERIALS |
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Rm : Mineral |
Mp
: Polymer Processing |
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Ro
: Organic |
Md
: Particle Design |
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Mn
: New materials |
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Mc
: Cleaning |
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Mt
: Textile Processing |
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Current
status of supercritical fluid technology in the East Asia. |
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Fukuzato
R., SCF Techno-Link, Inc., Ashiya ( |
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N : Natural Products |
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N1 |
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Pellerin P., DANISCO, Seillans (France). |
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N2 |
Hot
pressurized water extractions of free radical scavenging compounds from
Taiwan yams. |
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Chang
Chieh-Ming, Chen Po-Yen and Tu Yu-Xun, National
Chung-Hsing University (Taiwan). |
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N3 |
A comparison
of methods for the extraction of the fragrance from Ylang Ylang. |
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McGaw
D.R, Watson M., Paltoo V., Chang Y.I. and Grannun J., University
of West Indies, St Augustine (Trinidad and Tobago). |
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N4 |
Extraction
of PUFAs rich oils from algae with supercritical carbon dioxide. |
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Perretti
G., Bravi E., Montanari L., and Fantozzi P., University
of Perugia (Italy). |
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N5 |
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Gast K.,
Jungfer M., Saure C. and Brunner G., TU Hamburg-Harburg (Germany). |
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N6 |
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Setianto
W.B, Smith R.L., Inomata H. and Arai Kunio, Tohoku
University, Sendai (Japan). |
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N7 |
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Pereira C.G, Meireles M. A. A., UNICAMP, Sao Paulo, Marques M.O.M., Laboratorio de Produtos Naturals, Sao Paulo, Siani A.C, Instituto de Produtos em Farmacos, Rio de Janeiro (Brazil). |
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N8 |
Extraction
of antimicrobial compounds from wood using supercritical CO2. |
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Catchpole
O.J., Grey J.B, Mackenzie A.N., Indusrial Research
Ltd., Lower Hutt, Mende
D.R, Mende-Dek Ltd., Masterton (New Zealand). |
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N9 |
Supercritical
fluid extraction of triterpenoids from birch bark. |
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Boumghar Y., Fournier J., El Mehdi N., CEPROCQ, Montréal, Pichette A. and Lavoie S., University of Québec, Chicoutmi (Canada). |
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N10 |
Extraction
of volatile oil from Piper aduncum l. leaves with supercritical carbon dioxide. |
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Martinez Julian, Rosa P.T.V., Ming
L.C, Marques M.O.M. and Meireles M. A. A., UNICAMP,
Sao Paulo (Brazil). |
|
N11 |
Supercritical
fluid extraction of oleoresin from Curcuma xanthorrhiza : modeling and simulation. |
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Margono,
Sumarno, Sugeng W. and Farah, Sepuluh Nopember
Institute of Technology, Surabaya (Indonesia). |
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N12 |
Oil
extraction from shell of Bactris gasipaes HBK fruits using compressed carbon dioxide. |
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Pasquel A., Del Castillo A. and Sotero V., University Nacional Amazonia, Iquitos (Peru). |
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N13 |
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Zhao
Suoqi., Hu Yunxiang., Qi Guopeng, Wang Renan, University
of Petroleum, Beijing, Liu
Kuifang, Liu Yumel, Chen Dejun and Liu Yuyin, Xin
Jiang University (China). |
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N14 |
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Riera
E., Gallego J.A., Acoustic Institute, Madrid, Golas Y.,
University of Valencia, Blanco
A.., Applied Physics Institute, Madrid, Garcia-Reverter
J. and Subirats S., Agro-Food Research Institute, AINIA,
Valencia (Spain). |
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N15 |
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Hutchenson
K.W., Kao Chien Ping, DuPont Central R & D, Jensen
O.F. and Stenby E.H., Technical University of Denmark, Lyngby
(Denmark). |
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Posters |
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PN3 |
Supercritical
CO2 is a tool for natural materials treatments. |
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Lumia
G., Perre C., Schrive L., Barth F., CEA Pierrelatte
, Chaumat G., CEA Grenoble, and Aracil J.M., Groupe Sabate-Diosos
(France). |
|
PN6 |
Modeling of
the extraction of Semen biotae oil using supercritical carbon dioxide. |
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Pan I.C., Chen Yan-Ping and Tang M., National Taiwan University (Taiwan). |
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PN7 |
Extraction of
volatile and fixed oil products from hot peppers. |
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McGaw D.R, Holder R., Commissiong E. and Maxwell A., University of West Indies, St
Augustine (Trinidad and Tobago) |
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PN8 |
Supercritical
carbon dioxide extraction of bixin from annatto seeds. |
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Nobre B.P., Mendes R.L., INETI, Lisboa
(Portugal), Queiroz E.M., Pessoa F.L.P., DEQ/EQ/UFR, Rio de
Janeiro (Brazil), Coelho J.P., DEQ/ISEL, Lisboa, Palavra A.F, Instituto Superior Tecnico, Lisboa (Portugal). |
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PN9 |
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Simental
J. and OrozcoAvila I., Universidad de Guadalajara (Mexico). |
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PN10 |
Determination
of the global yield isotherms for the system rosemary (Rosemarinus
officinalis) + CO2. |
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Carvalho
Junior R.N., Moura L.S., Quispe-Condori S., Rosa P.T.V., Meireles M.A.A, UNICAMP, Sao Paulo, Ming
L.C, Sao Paulo State University
(Brazil). |
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PN11 |
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Duarte C.M.M., Matias A.A., Nunes A.V.M., Bronze M.R., Mota Veiga H.I. and Nunes da Ponte M., Instituto de Biologia Experimentale Tecnologica,
Oeiras (Portugal). |
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PN12 |
Modelling
and simulation of extraction of marjoram essential oil using supercritical
CO2. |
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Saldańa
M. D. A., Smith R. L. and Inomata H., Tohoku University
(Japan). |
|
PN13 |
Oleoresin
extraction of Polygala cyparissias using SFE and organic solvent
methods. |
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Weinhold
T.S, Tridapalli C.W, Hense H. and Ferreira S.R.S., LATES/EQA/CTC,
Florianopolis (Brazil). |
|
PN14 |
Modeling
the supercritical fluid extraction of field horsetail (Equisetum arvense)
oleoresin. |
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Michielin E.M.Z., Danielski L., Hense H. and Ferreira
S.R.S., LATES/EQA/CTC,
Florianopolis (Brazil). |
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PN15 |
Extraction
kinetics of natural antioxidants from potato industry by-products. |
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Andrich
G., Stevanin E., Zinnai A., Venturi F. and Fiorentini R., University
of Pisa (Italy). |
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PN16 |
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Ziémons
E., Goffin E., Lejeune R., Angenot L.
and Thunus L., University of Ličge (Belgium). |
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PN17 |
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Liang Ming-Tsiang., Liang Chia-Chen, Wu Wen-Hao, Wang Ling-Yea, Ho
Chia-Yen., I-Shiou University, Chen Chun-Hao and Liao Jer-Yi, JOJIA Bio-Tech. Co (Taiwan). |
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PN18 |
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Aliev
A.M. and Gasanov R.Z, Mountain Botanical Gardens of Daghestan
Scientific Center, Makhachkala (Russia). |
|
PN19 |
Antioxidant
and antimycobacterial activities of basil Ocinum gratissimum extracts
obtained by SFE. |
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Leal P.F., Meireles M. A. A., UNICAMP,
Sao Paulo, Sato D.N., Instituto Adolfo Lutz, Sao Paulo, Chaves M., Célio F., Ming L.C, Sao
Paulo State University, Marques
M.O.M., Laboratorio de Produtos
Naturals, Sao Paulo (Brazil). |
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PN20 |
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Rosa P.T.V., Pereira C.G. and
Meireles M. A. A., UNICAMP, Sao Paulo (Brazil). |
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PN21 |
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Pereira C.G, Leal P.F, Meireles M. A. A, UNICAMP,
Sao Paulo, and Sato D.N., Instituto Adolfo Lutz, Sao Paulo (Brazil). |
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PN22 |
Extraction
of volatile oil from Croton zehntneri pax et hoff with pressurized
CO2. |
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Sousa
E.M.B.D., Chiavone-Filho O., Domingos T., Meireles M.A.A., UNICAMP,
Sao Paulo, and Marques M.O.M., LPN, Campinas (Brazil). |
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PN23 |
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Martinez J., Rosa P.T.V Meireles M. Angela A., UNICAMP,
Sao Paulo, and Sousa E.M.B.D., Universidade Federal do Rio Grande do
Norte, Natal (Brazil). |
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PN25 |
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Moreschi
S.R.M., Meireles M.A.A. and Petenate A.J., UNICAMP, Sao Paulo
(Brazil). |
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PN26 |
Modeling the
phase equilibrium of the system clove oil + CO2 system. |
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Souza
A.T, Guirardello R., Meireles M.A.A., UNICAMP, Sao Paulo, Corazza
M.L. and Cardozo-Filho L., Universidade Estadual de Maringa (Brazil). |
|
PN27 |
Determination
of the global yields for the system fennel (Foeniculum vulgare) + CO2. |
|
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Moura
L.S., Carvalho Junior R.N., Quispe-Condori S., Rosa P.TV, Meireles M.A.A,, UNICAMP,
Sao Paulo, and Ming L.C., Sao Paulo State University (Brazil). |
|
PN28 |
Optimization
of supercritical fluid extraction for essential oils from bitter orange (Var.
Amara). |
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Mir
Heidary S.M., Emam-Djoneh Z., Mousavi S.M. and Yamini Y., Tehran
University (Iran). |
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PN30 |
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Cretnik
L., Kotnik P., Skerget M. and Knez Z., University of
Maribor (Slovenia). |
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PN31 |
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Esmelindro
A.A., Girardi J.S., Mosele S., Dariva C. and Filho I.N, U R I, Erechim
(Brazil). |
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PN32 |
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Mossi
A.J., Carvalho A., Dariva C., Oliveira J.V., Mazutti M. and Filho I.N., U R I,
Erechim (Brazil). |
|
PN34 |
Supercritical
CO2 extraction of carotenoids from carrots and evaluation of products. |
|
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Sun
Mei and Temelli F., University of Alberta (Canada). |
|
PN35 |
Bleaching
of lipid materials using carbon dioxide as moderator. |
|
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Woerlee
G.F and Pellikaan H.C., FeyeCon Development & Implementation,
Weesp (The Netherlands). |
|
PN36 |
Extraction
of the antimalarial artemisin from Artemisia annua l. leaves with
supercritical CO2. |
|
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Sanchez
D., Zetzl C., Brunner G., TU
Hamburg-Harburg (Germany), Rosa P.T.V.,
Quispe-Condori S. and Meireles M.A.A., LASEFI (Brazil). |
|
PN37 |
Nutritional
components of supercritical fluid carbon dioxide extracted wheat germ oil. |
|
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Dunford
N.T, Oklahoma State University, Stillwater and Martinez Jose L., Thar
Technologies Inc., Pittsburgh (USA). |
|
PN38 |
Correlating
solubility values of black pepper oil in supercritical CO2 using empirical
models. |
|
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Silva D.C.M.N., Ferreira S.R.S., LATESC, Florianopolis and Meireles
M.A.A., UNICAMP (Brazil). |
|
PN39 |
Supercritical
extraction of essential oil from Cordia curassavica (Jacq.) Roemer and
schultes. |
|
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Quispe-Condori S., Rosa P.T.V., Foglio M.A, Meireles
M.A.A., UNICAMP (Brazil). |
|
PN40 |
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Sarmento C.M.P., CEFET/PR, Parana, Hense H. and Ferreira S.R.S., LATESC,
Florianopolis (Brazil). |
|
PN41 |
Extraction
of boldo (Peumus boldus m.) Leaves with hot pressurized water and
supercritical CO2. |
|
|
Rogalinski
T., Zetzl C., Brunner G., TU Hamburg-Harburg (Germany) and del
Valle J.M., Pont. Univ. Catolica de Chile (Chile). |
|
PN42 |
Isolation
of isoflavones from red clover (Trifolium pratense) extracts by means
of SFE. |
|
|
Chepe
P., Zetzl C. and Brunner G., TU Hamburg-Harburg (Germany). |
|
PN43 |
Supercritical
fluid extraction of woods and roots from the brazilian tropical forest
region. |
|
|
Ibe
R., Johannsen M., Zetzl C. and Brunner
G., TU Hamburg-Harburg (Germany). |
|
PN44 |
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|
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Braga
M.E.M., Meireles M.A.A., UNICAMP, Ehlert P.A.D., Ming Lin C., Sao Paulo State University,
and Marques M.O.M., LPN/IAC Campinas (Brazil). |
|
PN46 |
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Favati F.,
Pietrafesa A. and Galgano F., Univertsity of Basilitica, Potenza (Italy). |
|
PN47 |
|
|
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Zhao Suoqi, Qi
Guopeng and Wang Renan, University of Petroleum, Beijing (China). |
|
PN48 |
Extraction of Ferula communis l. Volatile concentrate
by supercritical carbon dioxide. |
|
|
Marongiu B.,
Piras A. and Porcedda S., University di Cagliari (Italy). |
|
PN49 |
|
|
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Blasco
M., Garcia-Reverter J., AINIA, Valencia, and Garcia-Perez J.V.
and Mulet A., University of Valencia (Spain). |
|
PN50 |
Hot
pressurized water extraction of gypenosides from Gynostemma pentaphyllum. |
|
|
Chang
Chieh-Ming, Chen Chun-Hao and Lin C.S., National Chung Hsing University (Taiwan). |
|
PN51 |
|
|
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Hamdan
S., Daood H.G., Central Food Research Institute, Budapest, and
Illés V., University of Vesprem (Hungary). |
|
PN52 |
Supercritical
antisolvent fractionation of propolis tincture. |
|
|
Catchpole
O.J., Grey J.B, Mitchell K.A and Lan J.S., Industrial Research
Ltd., Lower Hutt (New Zealand). |
|
PN53 |
Experimental
research into the supercritical carbon dioxide fluid extraction for soybean
seed oils. |
|
|
Jianzhong
Yin, Xinwei Ding, Dalian University of Technology, Aiqin Wang, Chinese
Academy of Sciences, Dalian (China) and Chung-Sun Tan, National Tsing
Hua University (Taiwan) |
|
PN54 |
Fractionation
of fish oil using supercritical carbon dioxide. |
|
|
Corréa
A.P.A., Gonçalves L.A.G. and Cabral F.A., State University of
Campinas (Brazil). |
|
PN56 |
Selective
extraction of phospholipids from egg yolk with supercritical carbon dioxide. |
|
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Elst K., Van
Ginneken L. and Weyten H., Vito, Mol (Belgium). |
|
PN57 |
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Chuang
M.H. and Brunner G., TU Hamburg-Harburg (Germany). |
|
PN58 |
Chemical
characterization of castor meal extracts from high-pressure CO2. |
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Oliveira D., Dos Santos J.G, Oliveira J. V., Dariva C.,
Erechim, Alves D.M., Schneider R., UNISC, Santa Cruz del Sul, Schlosser P., Martinelli M. and Caramăo E.B., UFRGS, Porto Alegre (Brazil). |
|
PN59 |
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Kotnik
P., Skerget M. and Knez Z., University of Maribor (Slovenia). |
|
PN60 |
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Sesti Osseo L., Caputo G., Reverchon E., Universita degli Studi di
Salerno (Italy), Gracia I., Universidad de Castilla-La Mancha, Ciudad Real (Spain). |
|
PN61 |
Comparison
of two monitoring methods for almond oil extraction with supercritical CO2. |
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Garcia-Reverter J., Casas E., AINIA, Valencia,
Benedito J., Poly-Technical University of
Valencia, and Berna
A., University of Valencia (Spain)
|
|
PN63 |
Subcritical
water extraction of anthocyanins from fruit berry substrates. |
|
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King J.W, Los Alamos National Laboratory, Grabiel R.D.,Wightman J.D., Artemis
International Inc., Fort Wayne (USA). |
|
PN65 |
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Perre
C., CEA-VALRHO, Hans A.L., C.T.C., Dedieu M., I.F.T.H.,
CTC, Gand O., ITECH, Saldinari
L., Tanneries Roux and Dutel L., ATC Co. (France). |
|
PN66 |
Countercurrent
extraction for the fractionation of natural tocopherols with supercritical
CO2. |
|
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Fang
Tao, Goto M., Hirose T., KuMamoto University (Japan), Liu
Qing-Song and Ding Xiao-Lin, Southern Yangtze University, Wuxi (China). |
|
PN67 |
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Favati
F., Di Lauro R., Pietrafesa A., Lo Voi A. and Galgano F., University
of Basilitica, Potenza (Italy). |
|
PN68 |
Solubility
of triglycerides in unmodified supercritical carbon dioxide. |
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Botha
B. M. and McCrindle R.I., Department of Chemistry and Physics
Technikon Pretoria (South Africa). |
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Pe :
Process & equipment development |
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Pe1 |
The world’s
first commercial supercritical wood treatment plant. |
|
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Iversen
S.B., Larsen T., Henrikson O. and Felsvang K., FLS
miljo a/s, Valby (Denmark). |
|
Pe2 |
Separation of
n-methylamphetamine enantiomers by supercritical fluid extraction. |
|
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Kmecz I., Simandi B., Fogassy E. and Szekely E., Budapest University of
Technology (Hungary). |
|
Pe3 |
Interfacial
phenomena in countercurrent processes using supercritical fluids. |
|
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Marckmann
H., Jaeger P. and Eggers R., TU Hamburg-Harburg
(Germany). |
|
Pe4 |
pH
“switches” for the selective extraction of metal ions from biphasic water-CO2
systems. |
|
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Ziegler
K.J., Hanrahan J.P., Glennon J.D., Holmes J.D., University
College, Cork (Ireland), Steytler
D.C., University of East Anglia, Norwich and
Eastoe J., University of Bristol (United Kingdom). |
|
Pe5 |
Mixtures of
petroleum macromolecules : their fractionation characterization and phase
behavior. |
|
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Edwards
W.F, Jin L. and Thies M.C, Clemson University
(USA). |
|
Pe6 |
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|
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Staudt
R., Nitzsche J. and Harting P., University of
Leipzig (Germany). |
|
Pe7 |
Fully-continuous
supercritical fluid extraction of naphthalene from soil slurries. |
|
|
Fortin
M. and Stiver W., University of Guelph (Canada). |
|
Pe8 |
|
|
|
Petermann
M., Kareth S., Weidner E, University of
Bochum, Hammer
E., Minitec Engineering GmbH, Gelsenkirchen (Germany). |
|
Pe9 |
|
|
|
Schwarz C.E. and Nieuwoudt I., University of Stellenbosch (South Africa). |
|
Pe10 |
Integration
of extraction and ress for solvent recovery from asphaltene. |
|
|
Zhao Suoqi, Wang Shuhui, Ma Jianwei and Wang Renan, University of Petroleum, Beijing
(China). |
|
Posters |
|
|
PPe1 |
Extraction
of lipids from human blood plasma using compressed gases. |
|
|
Bezold A. and Brunner G., TU Hamburg-Harburg (Germany). |
|
PPe2 |
Analytical
extraction of PCBs and OCPs from water
by direct supercritical fluid extraction. |
|
|
Pól J., Karásek P. and Roth M., Academy of Sciences of the Czech Republic,
Brno (Czech Republic). |
|
PPe3 |
Remediation
of flare pit soils using supercritical fluid extraction. |
|
|
Nagpal
V. and Guigard S.E., University
of Alberta (Canada). |
|
PPe4 |
Supercritical
fluid extraction of ethylene oxide from its aqueous solution |
|
|
Sabirzyanov
A.N., Gumerov F.M., Gumerova G.I., Akhunov A.R, Gabitov F.R, Maksudov R.N., Kazan
State Technological University, Tatarstan (Russia) and Le Neindre B., LIMHP,
Villetaneuse (France). |
|
PPe5 |
Fly ash of
municipal waste incinerator leachability of metals after SFE wth CO2. |
|
|
Kersch C., Witkamp G.J., Delft University of Technology, Woerlee G.F., FeyeCon Development & Implementation, Weesp (The Netherlands). |
|
PPe6 |
|
|
|
Patil V.E,
Van den Broeke L.J.P. and Keurentjes J.T.F., Eindhoven University
of Technology (The Netherlands). |
|
PPe7 |
Effect of
solvent on the supercritical extraction of Moroccan oil shale. |
|
|
Abourriche A., Oumam M., Hannache H., Faculté des Sciences Ben M'sik, Casablanca
(Morocco), Pailler
R., Naslain R., Birot M. and Pillot J.P., Université de
Bordeaux I (France). |
|
PPe8 |
Modelling
of equilibrium sorption of m-xylene on day zeolite and supercritical
desorption. |
|
|
El
Brihi T., Jaubert J.N., Barth D. and Perrin L., ENSIC, Nancy
(France). |
|
PPe9 |
|
|
|
Luz da Silva
D. and Brunner G., TU Hamburg-Harburg (Germany). |
|
PPe10 |
|
|
|
Johannsen
M. and Brunner G., TU Hamburg-Harburg (Germany). |
|
PPe11 |
|
|
|
Lübbert
M., Johannsen M. and Brunner G., TU Hamburg-Harburg
(Germany). |
|
PPe12 |
|
|
|
Peper
S., Cammerer S., Johannsen M. and Brunner G., TU Hamburg-Harburg
(Germany). |
|
PPe13 |
|
|
|
Wubbolts
F.E, Smits P.J, FeyeCon Development & Implementation, Weesp, Van
Roosmalen M.J.E. and Fernandez-Cid M.V, Delft University of
Technology (The Netherlands). |
|
PPe14 |
|
|
|
Van der
Kraan M., Peeters M., Fernandez Cid M.V, Witkamp G.J., Delft
University of Technology, Woerlee
G.F. and Veugelers W.J.T, FeyeCon Development & Implemantation,
Weesp (The Netherlands). |
|
PPe15 |
Standardised
low-cost batch SFE – units for university education and comparative research. |
|
|
Zetzl
C., Brunner G., TU Hamburg-Harburg (Germany) and Meireles
M.A.A., UNICAMP, Sao Paulo (Brazil). |
|
PPe16 |
|
|
|
Fouassier
O., Guitton L. and Cansell F., ICMCB, Pessac (France). |
|
|
|
|
Pm1 |
|
|
|
Pereda
S., Roveto L. Bottini S.B. and Brignole E.A., PLAPIQUI,
Bahia Blanca (Argentina). |
|
Pm2 |
Characterization
of micromixing efficiency by a new chemical method in supercritical medium. |
|
|
Carretier E., Badens E., Guichardon P. and Charbit
G., Université
d’Aix-Marseille (France). |
|
Pm3 |
|
|
|
Wiegand
G., Bürck J., Roth S., Mathieu H. and Krämer K., Forschungszentrum
Karlsruhe (Germany). |
|
Pm4 |
|
|
|
Kikic
I., Colussi S, University of Trieste and Elvassore N., University of Padova
(Italy). |
|
Posters |
|
|
PPm1 |
|
|
|
Rampley
G. and Stiver W., University of Guelph (Canada). |
|
PPm2 |
|
|
|
Ruivo R., Paiva A. and Simoes P.C, Universidade Nova de Lisboa (Portugal). |
|
PPm3 |
|
|
|
Aliev A.M., Gasanov R.Z, Mountain Botanical Gardens of Daghestan
Scientific Center, Makhachkala, Nevruzov I.A., Institute of Geothermy of Daghestan Scientific Centre (Russia). |
|
PPm4 |
|
|
|
Yin
Jianzhong, Ding Xinwei, Dalian University of Technology (China), and
Tan Chung-Sun, National Tsing Hua University (Taiwan). |
|
PPm5 |
|
|
|
Del
Valle J.M., P. Universidad Catolica de Chile and Uquiche
E., Universidad de la Frontera, Temuco (Chile). |
|
PPm6 |
|
|
|
Lucas S.,
Calvo M.P., Palencia C., Alonso E. and Cocero M.J., University
of Valladolid (Spain). |
|
PPm7 |
Regular
packing types for CFD simulation of SCF extraction and reaction equipment. |
|
|
Guardo A., Larrayoz M.A. and Recasens F., ETSEIB-UPC,
Barcelona (Spain). |
|
PPm8 |
|
|
|
Habchi Tounsi K., Barreau A., Lecorre E., Mougin P., Institut Français du Pétrole,
Rueil-Malmaison, Neau E., Université
de la Méditerranée, Marseille (France). |
|
PPm9 |
The
interaction of a supercritical fluid free-jet expansion with a flat surface. |
|
|
Khalil
I. and Miller D.R., University of California, La Jolla (USA). |
|
|
|
|
|
Johnston K.P., Korgel B.A., Lu
Xianmao, Ryoo W., Shah P., The University of Texas, Austin, (USA). |
|
|
|
|
Te : Equations
of State / critical properties |
|
|
PTe1 |
|
|
|
Nieuwoudt
I. and Du Rand M., University of Stellenbosch (South Africa). |
|
PTe2 |
Evaluation
of some gc methods to predict the critical properties of aroma compounds. |
|
|
Cerpa M.G., C. & C.E.I.R.L., Lima (Peru). |
|
PTe4 |
|
|
|
Hu Zhong-Qiao, Yang Ji-Chu and Li
Yi-Gui, Tsinghua University, Beijing (China). |
|
|
|
|
Ts1 |
High-pressure
phase behavior of binary systems of carbon dioxide and certain ionic liquids. |
|
|
Shariati A. and Peters C.J., Delft University of Technology (The
Netherlands). |
|
Ts2 |
|
|
|
Valyashko V.M., Kurnakov Institute of General and Inorganic
Chemistry, Moscow (Russia). |
|
Ts3 |
|
|
|
Van
Schilt M., Wering R., Kemmere M.F., Keurentjes J.T.F., Eindhoven University of Technology, De
Loos T.W., Delft
University of Technology (The Netherlands). |
|
Ts4 |
|
|
|
Aki
S.N.V.K.., Anthony J.L., Brennecke J.F, University of Notre
Dame (USA), Scurto
A.M., Institut für Technische Chemie
und Makromolekulare Chemie, Aachen (Germany). |
|
Ts5 |
|
|
|
Planeta
J. and Roth M., Institut of Analytical Chemistry, Brno (Czech Republic). |
|
Ts6 |
|
|
|
Mukhopadhyay M. and Dalvi S.V., Indian Institute of Technology,
Bombay (India). |
|
Ts7 |
|
|
|
Beier A., Stephan K. and Hasse H., University of Stuttgart
(Germany), and Kuranov G., St-Petersburg, University (Russia). |
|
Ts8 |
|
|
|
Valderrama J.O. and Alvarez V.H., University La Serena, Casilla
(Chile). |
|
Posters |
|
|
PTs1 |
|
|
|
Petrova E., Neau E., Crampon
C., Université de la Méditerranée, Marseille, and Jaubert
J.N, E.N.S.I.C., Nancy (France). |
|
PTs2 |
|
|
|
Queiroz
E.M., Pessoa F.L.P., DEQ/EQ/UFRJ, Rio de Janeiro (Brazil), Nobre
B.P., Mendes R.L., INETI, Lisboa, Coelho J.P., DEQ/ISEL,
Lisboa, Palavra
A.F, Instituto Superior Tecnico, Lisboa (Portugal). |
|
PTs3 |
|
|
|
Shimoyama Y., Iwai Y., Shinkai I. and Arai Yoshio, Kyushu University, Fukuoka
(Japan). |
|
PTs4 |
|
|
|
Uchida H., Usui I., Takiyama H. and Matsuoka M., Tokyo University of Agriculture
and Technology (Japan). |
|
PTs5 |
|
|
|
Oliveira
A.L., University of Sao Paulo, Cabral F.A. and Eberlin M.N., State
University of Campinas (Brazil). |
|
PTs6 |
Solubility
measurement of noble-metal chelates in supercritical CO2. |
|
|
Tsuruta N., Yoda S., Sugeta T., Takebayashi Y., Otake K., NAIST, Ibaraki, Hasegawa A. and Tsuji T., Nihon University (Japan). |
|
PTs7 |
High pressure
vapor liquid equilibrium for carbon dioxide + ethanol + 2-buthanone system. |
|
|
Tsuji
T., Sakai M. and Hiaki T., Nihon University (Japan). |
|
PTs8 |
Solubility
of flurbiprofen and timolol maleate in dense carbon dioxide. |
|
|
Coimbra P., Duarte A.R.C., Duarte C.M.M., Instituto de Biologia
Experimental e Tecnologica, Oeiras, De Sousa H.C., Universidade de
Coimbra (Portugal). |
|
PTs11 |
Determination
of solid-liquid-gas equilibrium curves for some fats in presence of carbon
dioxide. |
|
|
Alessi P., Cortesi A., Fogar A.
and Kikic I., University of Trieste (Italy). |
|
PTs13 |
High-pressure
solubility data of system ethanol (1) + quercetin (2) + CO2 (3). |
|
|
Chafer A., Berna A., Monton J.B., University of Valencia, and Femenia A., Chemistry
Department, Palma de Mallorca (Spain). |
|
PTs14 |
|
|
|
Higashi
H., Iwai Y., Ogino Y., Oki M. and Arai Yoshio, Kyushu University, Fukuoka (Japan). |
|
PTs15 |
|
|
|
Foster
N.R, Bezanehtak K. and Dehghani F., The
University of New South Wales, Sydney (Australia). |
|
PTs16 |
|
|
|
Barbosa
A.A.D.O., Muniz E.C., Rubira A.F., Andrade Cid M.G. and Povh N.P., Universidade
Estadual de Maringa (Brazil). |
|
PTs17 |
Experimental
study of thermoyphysical properties of liquids and liquid mixtures. |
|
|
Mirskaya
V., Russian Academy of Sciences, Makhachkala (Russia). |
|
PTs18 |
|
|
|
Ferreira O., Pereda S., Bottini S.B. and Brignole E.A.,
PLAPIQUI, Bahia Blanca
(Argentina). |
|
PTs19 |
|
|
|
Rovetto
L.J., Pereda S., Bottini S.B., PLAPIQUI, Bahia Blanca (Argentina), and
Peters C.J., Delft University of Technology (The Netherlands). |
|
PTs20 |
Multiphase
equilibria in ternary water-salt systems at high temperatures and pressures. |
|
|
Urusova
M.A., Kurnakov Institute of General and Inorganic Chemistry, Moscow (Russia). |
|
PTs21 |
|
|
|
Seifried
B.A. and Guigard S.E., University of Alberta (Canada). |
|
PTs22 |
Phase
transitions of binary and ternary systems with carbon dioxide, triglycerides
and ethanol. |
|
|
Ndiaye P.M., Priamo W.L., Franceschi E., Dariva C., Oliveira D.,
Oliveira J.V., Erechim, Tavares F.W, Federal University of Rio de Janeiro (Brazil). |
|
PTs25 |
Solubility of
thiophene in supercritical carbon dioxide at temperature from 313 to 363 K. |
|
|
Elizalde-Solis
O., Serrano-Cocoletzi V. and Galicia-Luna L.A, ESIQIE, Mexico
(Mexico). |
|
PTs26 |
The phase behavior
of systems of supercritical CO2 and propane with edible fats. |
|
|
Münükhlü
P., Wubbolts F.E., Jansens P.J., and De Loos T.W., Delft
University of Technology (The Netherlands). |
|
PTs27 |
Solubility behavior
of ternary systems of lipids, cosolvents and supercritical carbon dioxide. |
|
|
Güçlü-Üstündäg
Ö. and Temelli F., University of Alberta (Canada). |
|
PTs28 |
|
|
|
Shim Jae-Jin, Sung Hwan-Do, Ahn Jae-Myoung and Lee Gun-Ho, Yeugnam University (Korea). |
|
PTs29 |
|
|
|
Türk M., Upper G. and Steuerenthaler M.,
Universität Karlsruhe (Germany). |
|
PTs30 |
Phase
equilibrium measurements for the clove oil + CO2 system. |
|
|
Corazza M.L., Cardozo-Filho L., Universidade Estadual de Maringa, Souza A.T., Martinez Julian, Rosa P.T.V. and Meireles M.A.A., UNICAMP, Sao Paulo (Brazil). |
|
PTs31 |
|
|
|
Aznar M., Arce P.F. and Meireles M.A.A., UNICAMP, Sao Paulo (Brazil). |
|
PTs32 |
Butanol
structure-solubility relationship in supercritical carbon dioxide. |
|
|
Ghaziaskar H.S. and Rezayat M., University of Technology, Ispahan (Iran). |
|
PTs34 |
|
|
|
Florusse L.J, Van’t Hof A., Peters C.J., Delft University of Technology
(The Netherlands), Fornari T. and Bottini S.B., PLAPIQUI, Bahia Blanca (Argentina). |
|
PTs35 |
Fluid phase
behavior of systems of carbon dioxide and certain essential oils. |
|
|
Bittencourt Dutra de Sousa E.M., Chiavone-Filho O., Universidade Federal de Rio
Grand, Meireles M.A.A., Quispe-Condori S., UNICAMP, Sao Paulo (Brazil), Toussaint V.A., and Peters C.J., Delft University of Technology (The
Netherlands). |
|
PTs36 |
|
|
|
Holser R.A., USDA-ARS-NCAUR, Peoria (USA). |
|
PTs37 |
Selective metal
ion extraction using supercritical carbon dioxide. |
|
|
Glennon J.D., O’Keeffe A., Curran N.M., Treacy J., O’Connell M.,
McSweeney C.C. and Cocker D., University College Cork (Ireland). |
|
PTs38 |
|
|
|
Liang Ming-Tsiang, Chern Shyh-Ming., Hsu Ching-Yi, Li Qing-Fan, Ye
Nai-Jai, Lu Hua-Yao, I-Shiou University, Chung Z.J., Institute of Nuclear Energy Research (Taiwan). |
|
PTs39 |
Solubility
of syringic and vanillic acids in supercritical carbon dioxide. |
|
|
Murga
R., Sanz M.T., Beltrán S. and Cabezas J.L., Department of
Chemical Engineering, University of Burgos (Spain). |
|
|
|
|
Tp1 |
|
|
|
Sakellarios
N.I. and Kazarian S.G., Imperial College (United Kingdom). |
|
Tp2 |
Phase
behavior and spectroscopic characterization of CO2-expanded fluorinated
microemulsions. |
|
|
Knutson
B.L. and Kho Yeh Wei, University of Kentucky (USA). |
|
Tp3 |
Development
of fluorinated surfactant for water-in supercritical CO2 microemulsion. |
|
|
Sagisaka
M., Sakai H., Abe M., Tokyo University of Science, Otake
K., Yoda S., Takebayashi Y., Sugeta T., Nakazawa N.,
NIAIST, Ibaraki, Kondo
Y. and Yoshino N., Tokyo University of Science (Japan). |
|
Posters |
|
|
PTp1 |
Supercritical
water as reaction media : physical properties at supercritical conditions an
overview. |
|
|
Garcia J., Perez O.E., Fernandez-Polanco F. and Cocero M.J., University of Valladolid
(Spain). |
|
PTp2 |
Interfacial
tension measurements of polymer/sc-CO2 systems by the pendant drop method. |
|
|
Kobayashi
M., Sakai H., Abe M., Tokyo University of Science, Otake
K., Yoda S., Takebayashi Y., Sugeta T., Nakazawa N., NIAIST,
Ibaraki, (Japan). |
|
PTp4 |
Dynamic and
rheological properties at supercritical CO2-water interface. |
|
|
Tewes
F. and Boury F., INSERM-ERIT, Angers (France). |
|
PTp7 |
Diffusion coefficient measurements using stefan tube at
supercritical conditions. |
|
|
Ozguler
I.E., Sunol S.G. and Sunol A.K., University of South
Florida (USA). |
|
PTp8 |
|
|
|
Funazukuri
T., Chuo University, Kong C.Y. and Kagei S., Yokohama National
University (Japan). |
|
PTp9 |
|
|
|
Kong
C.Y., Kagei S., Yokohama National University and Funazukuri T.,
Chuo University, Tokyo (Japan). |
|
PTp10 |
|
|
|
Sun
Yongda, Grimsey I.M. and York P., University of Bradford
(United Kingdom). |
|
PTp11 |
|
|
|
Mu
Tiancheng, Zhang Xiagang, Han Buxing, Li Hongping, Wu Weize, Du Jimin, Chen
Jiawei and Sun Donghai and Zhao Guoying, Chinese Academy of
Sciences, Beijing (China). |
|
PTp12 |
|
|
|
Bernal-Garcia J.M., Zuńigo-Moreno A. and Galicia-Luna L.A, ESIQIE, Mexico (Mexico). |
|
PTp13 |
|
|
|
Ullrich
A. and Eggers R., TU Hamburg-Harburg (Germany). |
|
PTp14 |
Supercritical
fluid solvent effects on carboxylic acid dimer formation. |
|
|
Bell
P.W., Thote A.J., Gupta R.B., Roberts C.B., Auburn University
and Park Yoonkook, Tuskegee
University (USA). |
|
PTp15 |
Investigation
of solute behaviour in supercritical fluids by dielectric spectroscopy. |
|
|
Piazza
S., Galia A., Iaia V. and Filardo G., Universita di
Palermo (Italy). |
|
PTp16 |
Mid-IR
investigation of solvent clustering around solutes in CO2-expanded organic
solutions. |
|
|
Sala S., Ventosa N., Veciana J., Institut de ciencia de Materials de
Barcelone (Spain), Tassaing T., Danten Y. and Besnard M., Université de Bordeaux 1 (France). |
|
PTp17 |
|
|
|
Aizawa
T., Kanakubo M. and Ikushima Y., NIAIST, Sendai
(Japan). |
|
PTp18 |
Are
molecules at surfaces solvated by supercritical fluids differently than in
solution ? |
|
|
Bright F.V., Page P.M., Munson C.A., Gardinier W.E., University of Buffalo (USA). |
|
PTp19 |
|
|
|
Kazarian
S.G. and Chan K.L.A, Imperial College, London (United Kingdom). |
|
PTp20 |
|
|
|
Liu Dongxia, Zhang Jianling, Mu Tiancheng,
Chen Jing, Wu Weize, He Jun, Yang Guangying and Han Buxing, Chinese Academy of Sciences,
Beijing (China). |
|
PTp21 |
Measurements
of interfacial tension and investigation of liquid dispersion in
supercritical media. |
|
|
Boutin O., Badens E., Charbit G., University Aix-Marseille, Boinon C. and Cagna A., IT Concept, Longessaigne (France). |
|
|
|
|
Rm :
Mineral |
|
|
Rm1 |
Chemical
fluid deposition of metals from supercritical fluids. |
|
|
Cabanas
A., Zong Yinfeng and Watkins J.J., University of
Massachusetts (USA). |
|
Rm2 |
|
|
|
Roberts
C.B., McLeod M.C., Kitchens C.L., Auburn University. |
|
Rm3 |
Synthesis
of fine ceramic oxide particles by the sol-gel process in supercritical CO2. |
|
|
Robbe
O., Sarrade S., Papet S., CEA-VALRHO, Pierrelatte, Guizard
C. and Julbe A., Institut Européen des Membranes, Montpellier (France). |
|
Rm4 |
|
|
|
Danchevskaya
M.N., Torbin S.N., Ivakin Y.D., Muravieva G.P. and Ovchinnikova O.G., Moscow
State University (Russia). |
|
Posters |
|
|
PRm1 |
Processes
occurring in fluid of primary alcohols at high pressure during synthesis of
corundum. |
|
|
Ivakin
Y. D. and Danchevskaya M.N., Moscow State University (Russia). |
|
PRm2 |
|
|
|
Cekova
B., Kocev D. and Jankovski V., School of Chemistry and Technology
“Marie-Curie Slodovska”, Skopje (Republic of Macedonia). |
|
PRm3 |
Electroplating
process in emulsion with fluorinated analogues of AOT in supercritical state. |
|
|
Park
Ji-Young, Kim Jae-Duck, Lee Youn-Woo, Lim Jong-Sung, KIST,
Seoul and Lee Chang Ha, Yonsei University, Seodaemoon (Korea). |
|
PRm4 |
Preparation
of metal-oxide-pillared clay using supercritical intercalation. |
|
|
Yoda
S., Endo A., Yanagishita H., Otake K., NAIST, Ibaraki, Nagashima
Y. and Tsuchiya T., Tokyo University of Science, Chiba (Japan). |
|
PRm5 |
|
|
|
Roberts
C.B., Kitchens C.L., Gale W.P., McLeod
M.C., Auburn University, Beckman
E.J., University
of Pittsburgh (USA). |
|
|
|
|
Ro : Organic |
|
|
Ro1 |
|
|
|
Licence P., Carter D., Amandi Gomez R., Ross S.K. and Poliakoff
M., University
of Nottingham (U.K.). |
|
Ro2 |
|
|
|
Lazzaroni
M.J., Bush D., Hallett J.P., Brown J.S.,
Liotta C.L., Eckert C.A., Georgia Institute
of Technology (USA), Gläser R., Institute of Chemical Technology,
University of Stuttgart (Germany). |
|
Ro3 |
|
|
|
Härröd M., Van Den Hark S., Holmqvist A.,
Härröd Research AB, Göteborg (Sweden), Möller P., Aarhus (Denmark). |
|
Ro4 |
|
|
|
Ballivet-Tkatchenko D., Picquet M., Université de
Bourgogne, Dijon (France), Solinas M., Francio G., Leitner W., MPI für
Kohlenforschung, Mülheim an der Ruhr, Wasserscheid P., ITCMC-RWTH,
Aachen (Germany). |
|
Ro5 |
Biphasic
hydrogenation and oxidation of terpenes in supercritical carbon dioxide. |
|
|
Banet-Osuna A.M., Milewska A., Fonseca I. and Nunes
da Ponte M., Universidade Nova de Lisboa (Portugal). |
|
Ro6 |
Cycloaddition
of oxirane with carbon dioxide in the supercritical homogeneous state. |
|
|
Sako T., Fukai T., Sahashi R., Shizuoka University and Sone M., Tokyo
University of Agriculture (Japan). |
|
Ro7 |
Chemical
modification of starches in the presence of supercritical CO2. |
|
|
Holser R.A. and Shogren R.L., USDA-ARS-NCAUR, Peoria (USA). |
|
Ro8 |
Estrone
synthesis under supercritical fluid using shock heating by compressed carbon
dioxide. |
|
|
Buback M., Georg-August-Universität,Göttingen (Germany). |
|
Ro9 |
Organic
reactions and nanoparticle preparation in CO2 induced
water/p104/p-xylene/microemulsions. |
|
|
Zhang Rui, Liu Jun, He Jun, Han Buxing, Jiang Tao, Shen Dong,
Huang Jun and Gao Haixiang, Chinese Academy of Sciences, Beijing
(China). |
|
Ro10 |
SCF-isopropanol
as a reagent in organic, organometallic and inorganic chemistry. |
|
|
Gubin S.P., Bustaeva E.Y., N.S.
Kurnakov Institute of General and
Inorganic Chemistry, Moscow (Russia). |
|
Ro11 |
Reaction
calorimetry in supercritical fluids – a novel tool. |
|
|
Meyer T., Lavanchy F. and Fortini S., Swiss Federal Institute of
Technology, Lausanne (Switzerland). |
|
Posters |
|
|
PRo1 |
|
|
|
Ghaziaskar H.S. and Daneshfar A., University of Technology, Ispahan (Iran). |
|
PRo2 |
|
|
|
Fanovich M.A., Fraile J., Loste E, Domingo C. ICMAB, Barcelona (Spain), Williams R.J.J., INTEMA, Mar del Plata (Argentina). |
|
PRo3 |
|
|
|
Horikawa Y., Uchino Y., Sako T., Shizuoka University, Bulgarevich D.S., AIST, Shichijo Y. JCII Shizuoka University (Japan). |
|
PRo4 |
Cyclic
carbonate synthesis by carbon dioxide fixation using the scCO2-ionic liquid
reaction system. |
|
|
Kawanami H., Sasaki A. and Ikushima Y., National Institute of Advanced
Industrial Science and Technology, Sendai (Japan). |
|
PRo5 |
|
|
|
Fernandez-Cid M.V., Van der Kraan M.,
Witkamp G.J., Delft University of Technology, Veugelers W.J.T. and Woerlee G.F., FeyeCon Development & Implementation,
Utrecht (The Netherlands). |
|
PRo6 |
|
|
|
Güzel B. and Gözüyesil S., Cukurova Universitesi, Adana (Turkey). |
|
PRo7 |
New fluorinated
rhodium-phosphine complexes for hydrogenation in supercritical carbon
dioxide. |
|
|
Güzel B. and Altinel H., Cukurova Universitesi, Adana (Turkey). |
|
PRo8 |
|
|
|
Lucien F.P., Zwolak G., The University of New South Wales, Sydney
(Australia), and Bertucco A., University of Padova (Italy). |
|
PRo9 |
|
|
|
Ramirez E., Recasens F., Fernandez M. and Larrayoz M.A., ETSEIB-UPC, Barcelona (Spain). |
|
PRo12 |
Novel
Diels-Alder chemistry in supercritical carbon dioxide. |
|
|
Cott D.J., Ziegler K.J., Holmes J.D., Hanrahan J.P., University College Cork, Cork,
(Ireland), Graham A.E., University of Wales (United Kingdom). |
|
PRo13 |
|
|
|
Abraham M.A., Marteel A.E., Davies J.A., Mason M.R., Tack T.
and Bektesevic S., University of Toledo (USA). |
|
PRo14 |
|
|
|
Kim
Jae-Duck, Hong Seung-Tae, Lim Jong-Sung and Lee Youn-Woo, Korea
Institute of Sciences and Technology, Seoul (Korea). |
|
PRo15 |
Polymer supported
homogeneous catalysts for reactions in supercritical carbon dioxide. |
|
|
Akgerman A., Flores R., Lopez-Castillo Z.K., Kani I. and Fackler
J.P. Jr., Texas
A & M University, College Station (USA). |
|
PRo17 |
New methods
for the determination of the phase behaviour of supercritical reaction
mixtures. |
|
|
Ke Jie, Sokolova M., George M.W., Poliakoff M., King P.J., Mellor
C.J., University
of Nottingham (U.K), Avdeev M.V., Konovalov A.N., Popov V.K. and Bagratashvili V.N., Institute of Laser and
Information Technologies, Moscow (Russia). |
|
PRo18 |
|
|
|
Oum K.,
Sekiguchi K., Luther K. and Troe J., Universität Chemie,
Göttingen (Germany). |
|
PRo19 |
|
|
|
Kalpala J.,
Hartonen K. and Riekkola M.L., University of Helsinki (Finland). |
|
|
|
|
Rw1 |
Chemical
reactions in supercritical water with density-dependent rates. |
|
|
Savage P., Henrikson J.T. and Benjamin K.M., University of Michigan (USA). |
|
Rw2 |
Hydrothermal synthesis at
supercritical conditions : experiments and simulation. |
|
|
Adschiri T., Takami S., Umetsu M. and Tsukada T., Tohoku University (Japan). |
|
Rw3 |
|
|
|
Petitet
J.P., CNRS-LIMHP, Villetaneuse, Baudelet F., Carlčs P. and Beauverger M., Université de Paris
VI (France). |
|
Rw4 |
|
|
|
Fauvel E., Joussot-Dubien C., Tanneur V.,
Sarrade S., CEA-VALRHO, Pierrelatte, Guichardon P., Charbit G. and Charbit F., Université de
Marseille (France). |
|
Rw5 |
Hydrothermal
oxidation treatment and reaction control by oxygen injection. |
|
|
Mateos D., Cansell F., ICMCB, Pessac (France), Portela J., Facultad
de Ciencias, Cadiz (Spain), Marraud C., SNPE Propulsions, Saint-Médard-en-Jalles (France). |
|
Rw6 |
Novel
treatment of hazardous solid wastes using a hybrid SCWO system. |
|
|
Kawasaki S.L., Fujii T.,
Suzuki A., Organo Corporation, Kimura T., New Energy and Industrial Technology Development Organisation, Sato H., The Energy Conservation Center
(Japan). |
|
Rw7 |
Supercritical
water oxidation of industrial waste water from pilot to demonstration plant. |
|
|
Cocero M.J., Martin A., Bernejo M.D., Santos M., Rincon D., Alonso
E. and Fernandez-Polanco F., Valladolid University (Spain). |
|
Rw8 |
|
|
|
Turc H.A, Broudic J.C., CEA-Valrho, Bagnols-s-Cčze, and
Joussot-Dubien C., CEA Pierrelatte (France). |
|
Rw9 |
|
|
|
Dutournié P., LETEE, Lorient, Aymonier
C., Cansell F., ICMCB, Pessac
and Mercadier J., ENSGTI, Pau (France). |
|
Rw10 |
Gasification
of organic compounds by a ruthenium (IV) oxide catalyst in supercritical
water. |
|
|
Park
Ki-Chui and Tomiyasu H., Shinshu University, Nagano (Japan). |
|
Rw11 |
|
|
|
Galkin A.A., Turakulova A.O., Sadykov A.F., Kuznetsova N.N. and
Lunin V.V., Moscow State University (Russia). |
|
Posters |
|
|
PRw1 |
Alkylation
and dealkylation of alkyl phenols in supercritical water. |
|
|
Sato Takafumi, Sekiguchi G., Adschiri T. and Arai Kunio, Tohoku University, Sendai
(Japan). |
|
PRw2 |
|
|
|
Okazaki
M. and Funazukuri T., Chuo University, Tokyo (Japan). |
|
PRw3 |
Reaction of
decomposition and oxidation of aliphatic nitro compounds in supercritical
water. |
|
|
Anikeev V.L., Yermakova A., Institut of Catalysis Russian Academy of
Sciences, Novosibirsk (Russia), Goto M., Kumamoto University (Japan). |
|
PRw4 |
|
|
|
Dudd L.M., Venardou E., Garcia-Verdugo E. Poliakoff M., University of Nottingham (U.K.), Gorbaty Y. E., Institute of Experimental Mineralogy, Moscow (Russia). |
|
PRw5 |
The
catalytic influence of the reactor material on the reforming of methanol in
supercritical water. |
|
|
Diem V., Boukis N., Habicht W. and
Dinjus E., Institut für Technische Chemie, Karlsruhe (Germany). |
|
PRw6 |
|
|
|
Feng J., Aki S.N.V.K., Brennecke J.F., University of Notre Dame, Chateauneuf J.E, Western
Michigan University (USA). |
|
PRw7 |
Waste
plastic gasification and hydrogen production in supercritical water. |
|
|
Okajima I., Shimoyama D.,
Sako T., Shizuoka
University and Yamagai Y., JECTEC, Shizuoka (Japan). |
|
PRw8 |
Efficiency
of a stirred reactor to treat organic effluent containing mineral salt in
SCWO. |
|
|
Calzavara
Y., Joussot-Dubien C., Turc H.A. and Sarrade S., CEA-VALRHO,
Pierrelatte (France). |
|
PRw9 |
Modelling
of new reactor concept for hydrothermal oxidation. |
|
|
Vielcazals S., Mercadier J., Marias F., Dutournié P., LTEP, Pau, Bottreau
M., HOO, Pessac, Cansell F., ICMCB, Pessac (France). |
|
|
|
|
Rp1 |
|
|
|
Roberts
G.W., Shi Chunmei, DeSimone J.M.,
Kiserow D.J., North Carolina State University, Raleigh, Gross S.M., MiCell Technologies (USA). |
|
Rp2 |
|
|
|
Vygodskii
Y. S., Said-Galiyev E.E., Nikitin L.N., Vinokur R.A, Khokhlov A.R., A.N.
Nesmeyanov Institute of Organoelement Compounds, Moscow, Gallyamov
M.O., M.V. Lomonosov State University, Moscow, Pototskaya
I.V., Kireev V.V., D.I. Mendeleev Russian University of
Chemical Engineering, Moscow(Russia) Schaumbourg
K., University of Copenhagen (Denmark). |
|
Rp3 |
|
|
|
Galia
A., Giaconia A., Iaia V. and Filardo G., Universita di
Palermo (Italy). |
|
Rp4 |
|
|
|
Kuijpers
M.W.A., Kemmere M.F and Keurentjes J.T.F., Eindhoven
University of Technology (The
Netherlands). |
|
Rp5 |
|
|
|
DeSimone
J.M., Folk S., André P. and Adam M., University
of North Carolina, Chapell Hill (USA). |
|
Rp6 |
|
|
|
Panasyuk
G.P., Azarova L.A., Khaddaj M., Voroshilov I.L., Boudova G.P., Izotov A.D.
and Grusha T.V., N.S. Kurnakov Institute of General and
Inorganic Chemistry, Moscow (Russia). |
|
Rp7 |
|
|
|
Genta
M., Uehara R., Yano F., Kondo Y., Mitsubischi Heavy
Industries, Kobe, Matsubara
W., Mitsubischi Heavy Industries, Hiroshima (Japan). |
|
Rp8 |
Depolymerization
scheme of polyethylene terephtalate in supercritical methanol. |
|
|
Goto
M., Genta M., Iwaya T., and Hirose T., Kumamoto University
(Japan). |
|
Posters |
|
|
PRp1 |
|
|
|
Bae W., Lee H., Kwon S. and Kim H., Seoul National University (Korea). |
|
PRp3 |
|
|
|
Kobayashi M., Sakai H., Abe
M., Tokyo
University of Science, Otake K., Yoda S., Takebayashi Y., Sugeta T. and Nakazawa N., NIAIST, Ibaraki (Japan). |
|
PRp4 |
|
|
|
Lacroix-Desmazes P., Ma Z., Boutevin B., ENS Chimie, Montpellier
(France), DeSimone J.M., University of North Carolina, Chapel Hill (USA). |
|
PRp7 |
|
|
|
Albrecht T.
and Brunner G., TU Hamburg-Harburg (Germany). |
|
PRp8 |
|
|
|
Sasaki
M., Genesis Research Institute, Inc., Sendai, Sekiguchi
G., Adschiri T. and Arai Kunio, Tohoku University, Sendai (Japan). |
|
PRp9 |
Technological
aspects of terephtalic acid formation from PET waste bottles in supercritical
water. |
|
|
Panasyuk
G.P., Khaddaj M., Privalov V.I., Voroshilov I.L. and Boudova G.P., N.S. Kurnakov Institute of General and Inorganic
Chemistry, Moscow (Russia). |
|
|
|
|
Rb1 |
|
|
|
Habulin M., Primozic M. and Knez Z., University of Maribor
(Slovenia). |
|
Rb2 |
|
|
|
Gamse
T., Kracker-Semler G. and Marr R., Graz University of
Technology (Austria). |
|
Rb3 |
|
|
|
Dijkstra
Z.J., Keurentjes J.T.F., Eindhoven University of Technology and
Weyten H., VITO (The Netherlands). |
|
Rb4 |
The
production of flavor esters in supercritical carbon dioxide. |
|
|
Romero
M.D., Calvo L., Alba C. and Luis M., Universidad
Complutense de Madrid (Spain). |
|
Rb5 |
Disinfection
and disinsection effect of CO2 under pressure on food matrix. |
|
|
Capilla V., Mańez
M., AINIA, Valencia, Moreno Mari J. and Jimenez R., University of
Valencia (Spain). |
|
Rb6 |
Membrane carbon
dioxide sterilization of liquid foods: scale up of a commercial continuous
process. |
|
|
Sims M., Estigarribia E., PoroCrit LLC, Berkeley, California, Yuan James T.C., American
Air Liquide, Countryside, IL, (USA). |
|
Posters |
|
|
PRb1 |
Compressed
solvent and pressure effects on metabolism and growth in hole-cell
bioprocessing. |
|
|
Bothun G.D., Knutson B.L., Strobel H.J. and Nokes S.E. University of Kentucky Lexington
(USA). |
|
PRb2 |
|
|
|
Pomier E., Rios G.M., Paolucci Jeanjean D., European Institute of
Membranes, Montpellier, Sarrade S., CEA Pierrelatte, Pina M., International Cooperation Centre in Agronomic Search for the
Development, Montpellier (France). |
|
PRb3 |
Assessment
of the effects of temperature and pressure on lipase activity in scCO2. |
|
|
Lanza
M., Priamo W.L., Oliveira J.V., Dariva C. and Oliveira D., Erechim
(Brazil). |
|
PRb5 |
Preservation
of nutritive properties of tomato sauce by high pressure CO2 pasteurization. |
|
|
Parton
T., Toniolo C., Elvassore N. and Bertucco A., Universita di Padova, De
Sanctis S., Dal Corso S. and Grimolizzi L., SAPIO Produzione Idrogeno Ossigeno S.R.L.,
Monza (Italy). |
|
|
|
|
|
Weidner
E., University Bochum (Germany). |
|
|
|
|
Mp : Polymer processing |
|
|
Mp1 |
|
|
|
Li Hongbo, Han Xiangmin, Wingert M.J., Lee James, Koelling K.W and
Tomasko D.L., Ohio State University, Columbus (USA). |
|
Mp2 |
|
|
|
Colina C.M., Walker T.A., Spontak R.J.and Gubbins K.E., North Carolina State University,
Raleigh (USA). |
|
Mp3 |
High
pressure polymer crystallization in supercritical or dense fluids. |
|
|
Upper G., Beckel D.,
Zhang Wei and Kiran E., Virginia Tech, Blacksburg (USA). |
|
Mp4 |
Nmr studies
on the properties of polymers in supercritical CO2. |
|
|
Hill D.J.T.,
Thurecht K.J. and Whittaker A.K., University of Queensland
(Australia). |
|
Posters |
|
|
PMp1 |
Experimental
evaluation of poly(methyl methacrylate) solubility in supercritical media. |
|
|
Morbidelli M., Bonavoglia B., Verga U., Mueller P. and Storti G., Institute for Chemical and
Bioengineering, Zürich (Switzerland). |
|
PMp2 |
Separation
of pe/ps in-situ reactive blends with near critical n-pentane. |
|
|
Diaz M., Brignole E.A , Mabe G.
and Barbosa S., Universidad Nacional del Sur, Bahía Blanca
(Argentina). |
|
PMp4 |
Mass
swelling of perfluorinated polymers exposed to supercritical carbon dioxide. |
|
|
Filardo G., Abduljavad M., and Galia A., Universita di Palermo (Italy). |
|
PMp5 |
|
|
|
Flichy
N.M.B., Lawrence C.J. and Kazarian S.G. and Briscoe B., Imperial
College, London (United Kingdom). |
|
PMp6 |
Sorption of
supercritical carbon dioxide by some polymers : in situ investigation. |
|
|
Nikitin L.N., Said-Galiyev E.E., Vinokur R.A., Khokhlov A.R., Nesmeyanov Institute of
Organoelement Compounds, Moscow, Gallyamov M.O., Nikolaev A., Moscow
State University (Russia), Jespersen H. and Schaumburg K., University of Copenhagen (Denmark). |
|
PMp7 |
|
|
|
Kukova E.,
Petermann M. and Weidner E., Ruhr Universität Bochum (Germany). |
|
PMp8 |
|
|
|
Kikic
I., Alessi P., Cortesi A., Vecchione F., Eva F., University of
Trieste, Elvassore
N., University of Padova (Italy). |
|
PMp10 |
|
|
|
Nalawade S.P. and Janssen L.P.B.M., University of Groningen (The Netherlands). |
|
PMp11 |
Production of
controlled microporous polymers by supercritical CO2. |
|
|
Reverchon E. and Cardea S, University di Salerno (Italy). |
|
PMp12 |
Impregnation
of both porous and non-porous polymeric systems aided by scCO2. Foams
production. |
|
|
Domingo C., Fanovich M.A.,
Fraile J., Loste E., Gomez-Morales J., ICMAB, Barcelona (Spain), Elvira C., San Roman J., Larroz E., CSIC, Madrid (Spain), Ayllon J.A., Universita Aunonoma, Bellaterra (Spain), Subra
P., LIMHP, Villetaneuse (France). |
|
PMp13 |
|
|
|
Qun Xu and Chang Yuning, Zhengzhou University (China). |
|
PMp14 |
Visual
observation and modeling of the foaming of thermoplastics by supercritical
carbon dioxide. |
|
|
Ozaki Y., Sakai H., Abe M., Tokyo University of Science, Chiba, Otake K., Yoda S., Takebayashi Y., Sugeta T. and Nakazawa N., NIAIST, Ibaraki (Japan). |
|
PMp15 |
|
|
|
Hofland
G., Kersch C. and Woerlee G.F., FeyeCon Development & Implementation,
Utrecht (The Netherlands). |
|
PMp16 |
Supercritical
fluid extraction of residual styrene monomer in polystyrene granules. |
|
|
Garrigós
M.C., Marín M.L., Cano J.M. and Sánchez A., Institute of Toys
Technology (AIJU), Ibi-Alicante (Spain). |
|
PMp17 |
Application
of supercritical fluid extraction to the determination of adipate
plasticizers in PVC. |
|
|
Cano J.M., Garrigós M.L.,
Marin M.L., Institute of
Toys Technology (AIJU), Ibi-Alicante, V. Hernandis, University of Alicante, Alicante
(Spain).
|
|
PMp18 |
Supercritical
impregnation isotherm of O-HBA on PMMA in batch stirred reactor. |
|
|
Diankov
S., System and Chemical Engineering Faculty, Sofia (Bulgaria), Barth
D., ENSIC-LTS, Nancy and Subra P., LIMHP, Villetaneuse (France). |
|
|
|
|
Md : Particle design |
|
|
Md1 |
Microparticles
prepared in supercritical fluids as inhalable drug delivery system. |
|
|
Pellikaan H.C, Smits P.J., FeyeCon Development & Implementation,
Weesp, Borchard G., Wiggenhorn M., Leiden Amsterdam Centre for Drug
Research (The Netherlands), Yuasa H., Tokyo University of Pharmacy (Japan). |
|
Md2 |
Production
of crystalline powders for inhalation drug delivery using supercritical fluid
technology. |
|
|
Shekunov B.Y., York P., University
of Bradford, Rehman M., Bradford
Particle Design (U.K.), Chow A.H.L. and Tong H.H.Y., The Chinese University of Hong Kong
(China). |
|
Md3 |
|
|
|
Gupta R.B and Chattopadhyay P., Auburn University (USA). |
|
Md4 |
Supercritical
antisolvent micronization of nalmefene hydrochloride. |
|
|
Adami R., Reverchon E., University of Salerno (Italy), Aaltonen O. Järvenpää E.
and Huopalathi R., University of Turku (Finland). |
|
Md5 |
Crystallisation
in CO2 medium : from phase equilibria to products. |
|
|
Subra P. and
Vega A., LIMHP, Villetaneuse (France). |
|
Md6 |
|
|
|
Elvassore N., Cozzi F. and Bertucco A., Universitŕ di Padova (Italy). |
|
Md7 |
Supercritical
antisolvent precipitation: atomization and product quality. |
|
|
Kroeber H and Teipel U., Fraunhofer
Institut Chemische Technologie, Pfinztal (Germany). |
|
Md8 |
Micronisation
of tobramycin using dense gas anti-solvent techniques. |
|
|
Foster
N.R, Ng A.S.N., Dehghani F., The University of
New South Wales, Sydney, Regtop
H.L., Eiffel Technologies, Sydney (Australia). |
|
Md9 |
A study on
micronization of phytosterol by the RESS technique with supercritical CO2. |
|
|
Jiang Siyuan, Chen Min and Zhao Yaping, Shanghai Jiao Tong University
(China). |
|
Md10 |
A three
step supercritical process to improve the dissolution rate of eflucimibe. |
|
|
Lochard H., Rodier E., Sauceau M., Letourneau
J.J, Fages J., Ecole des Mines, Albi, Freiss B., Institut de Recherche
Pierre Fabre, Gaillac and Joussot-Dubien C., CEA-Valrho, Pierrelatte
(France). |
|
Md11 |
Microparticles
generation by supercritical assisted atomization. |
|
|
Reverchon E. and Spada A., University di Salerno (Italy). |
|
Md12 |
DELOS
process : crystallization of pure polymorphic phases from CO2-expanded
solutions. |
|
|
Ventosa N., Sala S. and Veciana J., Institut de Ciencia de
Materials de Barcelone (Spain). |
|
Md13 |
Scale-up
considerations in supercritical anti-solvent processes : atomization and
mixing. |
|
|
Muthukumaran P. and Chordia L.M., Thar Technologies, Pittsburgh
(USA). |
|
Md14 |
Gram to
Kilogram scale-up of supercritical anti-solvent process. |
|
|
Jung J., Clavier J.Y. and Perrut M., Separex/Lavipharm,
Champigneulles (France). |
|
Md15 |
|
|
|
Papet S., Joussot-Dubien C., Sarrade S., CEA-Valrho,
Pierrelatte, Marciacq F., Sauceau M., Lochard H., Ecole des Mines, Albi, Freiss B., Institut de Recherche
Pierre Fabre, Gaillac (France). |
|
Md16 |
Nanoparticle
and microparticle generation with super-or near-critical carbon dioxide. |
|
|
Huang E.T.S., Chang H.Y.,
Cape S.P., Sievers R.E., Rinner
L., University
of Colorado, Quinn B.P., Aktiv-Dry LLC,
Boulder (USA). |
|
Md17 |
|
|
|
Sunol A.K., Murphy M., Hansen E.,
Mierau B, Sunol S.G., University of South Florida, Tampa, Kosky J. and Jones J., MEI
Corp., Clearwater (USA). |
|
Md18 |
Design of
powders with controlled release properties using the CPF-technology. |
|
|
Otto F., Grüner S. and Weinreich B., Adalbert Raps Zentrum
für Arznei & Gewürzplanzenforschung, Freising (Germany). |
|
Md19 |
|
|
|
Otake K., Imura T., Yoda S., Takebayashi Y., Sugeta T., Nakazawa
N., NIAIST,
Ibaraki, Sakai H. and Abe M., Tokyo University of Science, Chiba (Japan). |
|
Posters |
|
|
PMd1 |
Capillary
nozzles in the ress process : hydrodynamic modelling. |
|
|
Ben Moussa A., Ksibi H. and Baccar M., Sfax University (Tunisia). |
|
PMd2 |
Solubility
and micronization of griseofulvin in supercritical CO2 with cosolvent
acetone. |
|
|
Hu Guoqin, Cai Jianguo, Chen Hongyan and Deng Xiu, East China University of
Technology, Shanghai (China). |
|
PMd3 |
Rapid
expansion of near and supercritical solutions containing cellulose
triacetate. |
|
|
Blasig A. and Thies M.C., Clemson University (USA). |
|
PMd4 |
|
|
|
Marioth E., Hermann M., Löbbecke S., Krause H.H., Kunz M. and
Schweikert W., Fraunhofer-Institut
für Chemische Technologie, Pfinztal (Germany). |
|
PMd5 |
Stabilization
of pharmaceutical substances by the rapid expansion of supercritical
solutions (RESS). |
|
|
Türk M.,
Hils P., Lietzow R. and Schaber K., Universität Karlsruhe
(Germany). |
|
PMd6 |
SAS micronization
process for nalmefene hydrochloride on a pilot scale. |
|
|
Adami
R., Reverchon E., University
of Salerno (Italy), Aro
H., Järvenpää E., Könkö K., Hietaniemi V. and Huopalahti R., University
of Turku (Finland). |
|
PMd7 |
|
|
|
Grassi M., Eurand International S.p.A., Trieste, Kikic I., Moneghini M., Perissutti B. and Voinovich D., University of Trieste (Italy). |
|
PMd8 |
Nozzle
construction for particle formation using supercritical antisolvent
precipitation. |
|
|
Pellikaan H.C. and Wubbolts F.E., FeyeCon Development & Implementation,
Utrecht (The Netherlands). |
|
PMd9 |
Micronisation
of griseofulvin by the aerosol solvent extraction system. |
|
|
Foster N.R., Meure L.A., Barrett A.M., Abbasi F. and Dehghani F., The University of New South
Wales, Sydney (Australia). |
|
PMd10 |
The
formation of aspirin micro particulate using supercritical CO2 as solvent and
anti-solvent. |
|
|
Lee Youn-Woo, Lee Jeong-Woo and Lim Jong-Sung, Korea Institute of Science and
Technology, Seoul (Korea). |
|
PMd11 |
|
|
|
Miguel F., Gonzalo A. and Cocero M.J., University of Valladolid
(Spain). |
|
PMd12 |
Proteic
compounds reduction in smoke tobacco by supercritical antisolvent technique
(SAS). |
|
|
Scrugli S., Frongia M., Sfacteria G., Loi G., Pinna M.B., Crobu
V., and Carta D., Consorzio Ricerche Associate, Assemini (Italy). |
|
PMd13 |
Crystallization
of griseofulvin by batch anti-solvent process. |
|
|
De Gioannis B., Jestin P. and Subra P., LIMHP, Villetaneuse
(France). |
|
PMd14 |
Crystallization
and plasticization of poly(l-lactide) (PLLA) with supercritical CO2. |
|
|
Shekunov B.Y., Edwards A.D. and Forbes R., University of Bradford (United
Kingdom). |
|
PMd15 |
Processing
of energetic materials fine powders using fluid antisolvent method. |
|
|
Begue G.,
Petitet J.P. and Beauverger M., CNRS-LIMHP, Villetaneuse (France). |
|
PMd16 |
Analysis of
mixing and precipitation in supercritical fluids using small angle X-ray
scattering. |
|
|
Shekunov
B.Y and Sun Yongda, University of Bradford (United Kingdom). |
|
PMd17 |
|
|
|
De la Fuente J.C., Universidad Tecnica Federico Santa Maria, Valparaiso (Chile), Shariati A. and Peters C.J., Delft University of Technology (The
Netherlands). |
|
PMd18 |
Analysis of
the mechanisms governing the supercritical antisolvent micronization. |
|
|
Reverchon
E., Caputo G. and De Marco I., Universitŕ degli Studi di Salerno (Italy). |
|
PMd20 |
Generation
of lysozyme-lactose powders using the ASES process. |
|
|
Foster N.R.,
Dehghani F., Bustami R.T. and Chan Hak-Kim, University of New South
Wales, Sydney (Australia). |
|
PMd22 |
Preparation
of inhalable protein particles by SCF emulsion drying. |
|
|
Jung J., Leboeuf F. and Perrut M., Separex/Lavipharm, Champigneulles (France). |
|
PMd24 |
Equipment
for SCF processing of hazardous biologically-active powders. |
|
|
Clavier J.Y., Separex/Lavipharm, Champigneulles (France). |
|
PMd25 |
|
|
|
Munto M., Ventosa N. and Veciana J., Institut de Ciencia de Materials de
Barcelona(Spain). |
|
PMd26 |
|
|
|
Sala S., Ventosa N. and Veciana J., Institut de Ciencia de Materials de
Barcelona (Spain). |
|
PMd27 |
Lipid
system micronization for pharmaceutical applications by PGSS techniques. |
|
|
Elvassore N., Flaibani M., Vezzů K., Bertucco A., Caliceti P.,
Salmaso S. and Semenzato A., University di Padova (Italy). |
|
PMd28 |
Modeling of
particle formation from a gas-saturated solution process. |
|
|
Gomes de Azevedo E., Li Jun and Matos H., Instituto Superior Tecnico,
Lisboa (Portugal). |
|
PMd29 |
|
|
|
Knez Z., University of Maribor (Slovenia). |
|
PMd30 |
|
|
|
Nieuwoudt
I. and Koen L., University
of Stellenbosch (South Africa) |
|
PMd31 |
Precipitation
of a polymer blend using supercritical carbon dioxide. |
|
|
Vega A. and Subra P., L.I.M.H.P.,
Villetaneuse (France). |
|
PMd32 |
An improved
PCA process for the production of nano-and microparticles of biodegradable
polymers. |
|
|
Pérez Y., Wubbolts F.E., Witkamp G.J., De Loos T.W. and Jansens
P.J., Delft
University of Technology (The Netherlands). |
|
PMd33 |
Release
kinetics of theophylline microparticles in hydrogenated palm oil from a PGSS
process. |
|
|
Rodrigues M., Matos H., Gomes de Azevedo E., Instituto Superior Tecnico,
Lisboa (Portugal). |
|
PMd34 |
Size and
morphology of particles generated by spraying polymer-melts with carbon
dioxide. |
|
|
Kappler P., Leiner W., Petermann M. and Weidner E., University Bochum (Germany). |
|
PMd36 |
|
|
|
Barillaro V., Piel G., Bertholet P., Henry de
Hassonville S., Evrard B. and Delattre L., Université de Ličge (Belgium). |
|
PMd37 |
|
|
|
Marongiu B., Piras A., Porcedda S., Lai A., Lai
S. and Locci E., Universitŕ di Cagliari (Italy). |
|
PMd38 |
|
|
|
Pestov D., Levit N., Guney-Altay O. and Tepper G., Virginia Commonwealth
University, Richmond (USA). |
|
PMd39 |
Elaboration
of ibuprofen microcomposites in supercritical CO2. |
|
|
Cristini F., Delalonde M., Bataille B., University of
MontpellierI, Joussot-Dubien C., CEA-VALRHO,
Pierrelatte (France). |
|
PMd41 |
|
|
|
Teipel U. and Kroeber H., Fraunhofer
Institut Chemische Technologie, Pfinztal (Germany). |
|
PMd42 |
Investigation
of coatings produced in a high-pressure fluidized bed. |
|
|
Schreiber
R., Vogt C., Brunner G. and Werther J., TU Hamburg-Harburg
(Germany). |
|
PMd43 |
CPF
technology – a new cryogenic spraying process for pulverization of liquids. |
|
|
Grüner S., Otto F. and Weinreich B., Adalbert Raps
Zentrum für Arznei & Gewürzplanzenforschung, Freising (Germany). |
|
PMd44 |
Preparation
of titanium nanoparticles in water-in-CO2 microemulsions. |
|
|
Lim Kwon-Taek, Hwang H.S, Pukyong National University (Korea), Ryoo W. and Johnston K.P., The University of Texas, Austin (USA). |
|
PMd45 |
|
|
|
Bouchard A., Hofland G.W., Witkamp G.J., Delft University of Technology Jovanovic N., Crommelin D.J.A. and Jiskoot W., Utrecht University (The
Netherlands). |
|
PMd46 |
Processing
of paracetamol-PEG 4000 solid dispersions using supercritical antisolvent
technology. |
|
|
Wang Jiawei and Yang Jichu, Tsinghua University (China). |
|
PMd48 |
|
|
|
Kalogiannis K., Lambrou C, Panayiotou C., Aristotle University of
Thessaloniki (Greece), Lee Youn-Woo, Korea Institute of Science and Technology, Seoul (South Korea). |
|
|
|
|
Mn : New Materials |
|
|
Mn1 |
|
|
|
Wakayama
H. and Fukushima Y., Toyota Central R & D Lab., Aichi
(Japan). |
|
Mn2 |
Synthesis,
characterisation and applications of silica aerogels. |
|
|
Van
Ginneken L., Willems L., Elst K.,
Weyten H., Vito, Mol, Van de
Leest R.E., MTS Consultants, Vosselaar (Belgium). |
|
Mn3 |
Supercritical
fluid aided synthesis of surfactant templated aerogels. |
|
|
Al-Ghamdi
A., Sunol S.G. and Sunol A.K., University of South
Florida (USA). |
|
Mn4 |
|
|
|
Yoda
S., Suda H., Uchimaru Y., Haraya K., Otake K., NIAIST,
Ibaraki, Hasegawa
A. and Tsuji T., Nippon University (Japan). |
|
Mn5 |
Creation of
metal-polymer nanocomposites in supercritical CO2 and their structure
investigation. |
|
|
Schaumbourg K., Jespersen H., University of Copenhagen (Denmark), Khokhlov A.R., Said-Galiyev E.E., Nikitin L.N., Vinokur R.A.,
Kurykin M., A.N. Nesmeyanov Institute of Organoelement Compounds, Moscow, Grishin D., Gallyamov M.O., Lebedeva O., Lomonov State University, Moscow, Volkov V., Tameev A. and Aliev A.M. Russian Academy of Sciences,
Moscow (Russia). |
|
Mn6 |
|
|
|
Levit
N., Pestov D., Guney-Altay O. and Tepper G., Virginia
Commonwealth University, Richmond (USA). |
|
Mn7 |
|
|
|
Holmes J.D., Morris M.A. and Ryan K.M., University College, Cork
(Ireland). |
|
Mn8 |
|
|
|
Pai R. and Watkins J.J., The University of Massachusetts (USA). |
|
Mn9 |
Potentiality
of supercritical fluids as reactive media to synthesize nanostructured
materials. |
|
|
Desmoulins-Krawiec S., Aymonier C., Weill F.,
Serani A. Etourneau J. and Cansell F., ICMCB, Pessac
(France). |
|
Mn10 |
3D crystal
growth of silver nanocrystal using near supercritical fluid processing. |
|
|
Taleb A., Pileni M.P., Université Pierre
& Marie Curie, Paris, Le Neindre B., Beauverger M., LIMHP, Villetaneuse, Albouy P.A., Université d’Orsay
(France). |
|
Mn11 |
|
|
|
Cabezas
C., Bolanos G. and Salazar A., Universidad del
Valle, Cali (Colombia). |
|
Posters |
|
|
PMn1 |
Supercritical
drying process in conservation of waterlogged osteological remains. |
|
|
D’Andrea A., Mariani S., Aliboni A., ENEA C.R Casaccia, Roma, Tagliacozzo A., Soprintendenza Speciale al Museo Nazionale Preistorico Etnografico “Luigi Pigorini”, Roma, Cerilli E., Societa Cooperativa ARX a.r.l., Roma (Italy). |
|
PMn2 |
|
|
|
Galkin A.A, Golubina E.V., Lokteva E.S. and Lunin V.V., Moscow MV Lomonosov State
University, Moscow (Russia). |
|
PMn3 |
|
|
|
Agoudjil N., Malek Z., U.S.T.H.B, Alger (Algeria), Larbot A., Ecole Supérieure Chimie de Montpellier
(France). |
|
PMn4 |
Preparation
of barium titanate aerogels by supercritical drying with CO2 and propane. |
|
|
Novak Z., Knez Z., Drofenik M. and Ban I., University of Maribor
(Slovenia). |
|
PMn5 |
|
|
|
Liu Zhimin, Dong Zexuan,
Zhang Jianling, Hou Zhenshan, Huang Ying, Wang Yong, Wang Jiaqiu and Han
Buxing, Chinese Academy of Sciences, Beijing (China). |
|
|
|
|
Mc : Cleaning |
|
|
Mc1 |
|
|
|
Korzenski
M.B., Xu C. and Baum T.H., Advanced Materials
Technology International, Danbury (USA). |
|
Mc2 |
Supercritical
CO2 cleaning : the DFD system : dense fluid degreasing system. |
|
|
Lumia G., Bouscarle C., Niemann C., Sarrade S., CEA Pierrelatte ; Achard V., Unitech, Annemasse (France). |
|
Mc3 |
|
|
|
King
J.W, Hollis W.K., Rubin J.B., Williams L.L., Sivils L.D, Barton J. and Taylor C.M.V, Los
Alamos National Laboratory (USA). |
|
Posters |
|
|
PMc1 |
Equipment
for the cleaning of silicon wafers using supercritical fluids. |
|
|
Perrut V., Récif, Aussonne, Clavier J.Y., Separex-Equipements, Champigneulles, Lazure S.,
L’Air Liquide, Les Loges en Josas, Danel A., CEA Grenoble, Millet C., Altis
semiconductor, Corbeil-Essonnes
(France). |
|
PMc2 |
Solvent
free substitutes for cleaning of silicon wafers using supercritical fluids. |
|
|
Fetner
M., Applied
Separations, Inc, Allentown (USA). |
|
PMc3 |
Decontamination
of different surfaces by complexone solutions in carbon dioxide. |
|
|
Bondin
V.V., Efremov I.V., Kovalev D.N., Podoinitsyn S.V., Mining
and Chemical Combine, Zheleznogors, Shadrin
A.Y., Kiseleva R.N., Murzin A.A. and Shafikov D.N., V.G.
Khlopin Radium Institute, St. Petersburg (Russia). |
|
PMc4 |
Cesium extraction
by solutions of fluorine-containing phosphoric acids in liquid carbon
dioxide. |
|
|
Ershov
V.V., Rovnyi S.I., "Mayak"
PA, Ozersk, Babain
V.A., Kiseleva R.N., Murzin A.A., Shadrin A.Y., Shafikov D.N., V.G
Khlopin Radium Institute, St. Petersburg, Bondin
V.V. and Podoinitsyn S.V., Mining and Chemical Combine, Zheleznogors
(Russia). |
|
PMc5 |
Pressure
and temperature influence on radionuclide removal efficiency from different
surfaces. |
|
|
Shadrin
A.Y., Babain V.A., Kamashev V.A., Kiseleva R.N., Murzin A.A., V.G.,
Khlopin Radium Institute, St. Petersburg, Bondin
V.V., Bychkov S.I., Efremov I.V. and Podoinitsyn S.V., Mining
and Chemical Combine, Zheleznogors, (Russia). |
|
|
|
|
Mt : Textile processing |
|
|
Mt1 |
Treatment
of textiles in CO2 – potentialities and limitations. |
|
|
Bach E.,
Schmidt A., Cleve E. and Schollmeyer E., Deutsches
Textilforschungszentrum, Krefeld (Germany). |
|
Mt2 |
Dyeing of
polyester, aramid and polypropylene fibers in supercritical CO2. |
|
|
Shim
Jae-Jin, Ju Jae-Ho, Choi Jun-Huyck, Son Bo-Kook, Ahn Jae-Myoung, Kim
Byung-Hee and Kim Ki-Seok, Yeugnam University,
Kyongbuk (Korea). |
|
Mt3 |
Surfactants
for particle removal in dry-cleaning with high-pressure CO2. |
|
|
Van
Roosmalen M.J.E., Witkamp G.J., Delft University
of Technology, Woerlee
G.F., FeyeCon D & I B V, Utrecht (The Netherlands). |
|
Posters |
|
|
PMt1 |
|
|
|
Kerdoud
D. and Barth D., ENSIC, Nancy (France). |
|
PMt2 |
|
|
|
Van der
Kraan M., Bayrak Ö., Fernandez-Cid M.V., Woerlee G.F., Veugelers W.J.T. and
Witkamp G.J., Delft University of Technology (The Netherlands). |