| 5815 - 5823 |
Reactor modeling for polymerization processes
Villa CM |
| 5824 - 5847 |
Slurry reactors for gas-to-liquid processes: A review
Wang TF, Wang JF, Jin Y |
| 5848 - 5854 |
Removal of hydrogen sulfide from a steam-hydrogasifier product gas by zinc oxide sorbent
Kim K, Jeon SK, Vo C, Park CS, Norbeck JM |
| 5855 - 5866 |
Reconstruction of dynamics of aqueous phenols and their products formation in ozonation using differential neural network observers
Chairez I, Poznyak A, Poznyak T |
| 5867 - 5880 |
Performance evaluation of photocatalytic reactors for air purification using computational fluid dynamics (CFD)
Castrillon SRV, de Lasa HI |
| 5881 - 5897 |
Mechanistic kinetic modeling of the hydrocracking of complex feedstocks, such as vacuum gas oils
Kumar H, Froment GF |
| 5898 - 5906 |
Safety aspects in batch reactors for styrene suspension polymerization
Cherbanski R, Milewska A, Molga E |
| 5907 - 5912 |
Gas hydrate growth model in a semibatch stirred tank reactor
Hashemi S, Macchi A, Servio P |
| 5913 - 5921 |
Physical properties and composition effects on the reactivity of calcium-based sulfur sorbents
Hasler DJ, Wheelock TD, Doraiswamy LK, Constant KP |
| 5922 - 5935 |
Delayed dynamics of polymer properties in continuous stirred tank polymerization reactors
Zhang M, Karjala TW, Kolthammer BWS |
| 5936 - 5939 |
Investigation of ethylene glycol reforming as a source of reductants for catalytic NOx removal from diesel exhaust
Law HY, Kung MC, Kung HH |
| 5940 - 5942 |
Steam-reforming product (H-2/CO2 mixture) used as a hydrogen source for hydrogen storage in Li3N
Hu YH, Ruckenstein E |
| 5943 - 5953 |
Do all carbonized charcoals have the same chemical structure? 1. Implications of thermogravimetry - Mass spectrometry measurements
Meszaros E, Jakab E, Varhegyi G, Bourke J, Manley-Harris M, Nunoura T, Antal MJ |
| 5954 - 5967 |
Do all carbonized charcoals have the same chemical structure? 2. A model of the chemical structure of carbonized Charcoal
Bourke J, Manley-Harris M, Fushimi C, Dowaki K, Nunoura T, Antal MJ |
| 5968 - 5976 |
Targeting multiple water utilities using composite curves
Alwi SRW, Manan ZA |
| 5977 - 5984 |
Nearest neighbors methods for root cause analysis of plantwide disturbances
Bauer M, Cox JW, Caveness MH, Downs JJ, Thornhill NF |
| 5985 - 5999 |
Constraint programming based robust sensor network Design
Kotecha PR, Bhushan M, Gudi RD |
| 6000 - 6009 |
Conceptual modeling and referential control applied to batch distillations
Espinosa J, Marchetti JL |
| 6010 - 6024 |
Self-growing hidden markov tree based multiway principle component analysis for enhanced monitoring of batch processes
Chen JH, Hsu CJ, Jiang YC |
| 6025 - 6031 |
Improved sorbent for high-temperature production of oxygen-enriched carbon dioxide stream
Yang Q, Lin YS |
| 6032 - 6040 |
Removal of water from aqueous nitric acid using bifunctional perfluorinated ionomer membranes
Hensley JE, Way JD, Reeder C, Abney KD |
| 6041 - 6048 |
Density and molar volume predictions using COSMO-RS for ionic liquids. An approach to solvent design
Palomar J, Ferro VR, Torrecilla JS, Rodriguez F |
| 6049 - 6052 |
Thermodynamic analysis of the UCST-Type phase behavior of polycarbonate blends with poly(ethylene-co-1,4-dimethyl cyclohexane terephthalate) co-polyesters
Kim LU, Jeon MY, Kim CK |
| 6053 - 6060 |
Electrolyte UNIQUAC-NRF model to study the solubility of acid gases in alkanolamines
Haghtalab A, Tafti MD |
| 6061 - 6062 |
Comment on "Critical properties, normal boiling temperatures, and acentric factors of fifty ionic liquids"
Jones RG, Licence P, Lovelock KRJ, Villar-Garcia IJ |
| 6063 - 6064 |
Comment on'Critical properties, normal boiling temperature, and acentric factor of fifty ionic liquids - Reply
Valderrama JO, Robles PA |
