| 1 - 8 |
Multiscale reaction pathway analysis of methyl tert-butyl ether hydrolysis under hydrothermal conditions
Taylor JD, Pacheco FA, Steinfeld JI, Tester JW |
| 9 - 21 |
Methanol as a cosolvent and rate-enhancer for the oxidation kinetics of 3,3',4,4'-tetrachlorobiphenyl decomposition in supercritical water
Anitescu G, Tavlarides LL |
| 22 - 26 |
Cyanide oxidation from wastewater in a flow electrochemical reactor
Lanza MRV, Bertazzoli R |
| 27 - 31 |
A hydrophobic Pt/fluorinated carbon catalyst for reaction of NO with NH3
An WZ, Zhang QL, Chuang KT, Sanger AR |
| 32 - 36 |
Metal sulfate catalyst for CCl2F2 decomposition in the presence of H2O
Moriyama J, Nishiguchi H, Ishihara T, Takita Y |
| 37 - 45 |
Ethane oxidative dehydrogenation over halogenated Bi2Sr2CaCu2O8-delta catalysts
Dai HX, He H, Au CT |
| 46 - 51 |
Noncatalytic oxidation of phenol in aqueous solutions
Vicente J, Rosal R, Diaz M |
| 52 - 57 |
Electrokinetic study of hexane droplets in surfactant solutions and process water of bitumen extraction systems
Liu JJ, Zhou Z, Xu ZH |
| 58 - 66 |
Scheduling of single-stage and continuous processes on parallel lines with intermediate due dates
Lee KH, Heo SK, Lee HK, Lee IB |
| 67 - 77 |
A hybrid parametric/stochastic programming approach for mixed-integer nonlinear problems under uncertainty
Hene TS, Dua V, Pistikopoulos EN |
| 78 - 84 |
Stagewise fractionation of petroleum pitches with supercritical toluene
Zhuang MS, Gast K, Thies MC |
| 85 - 92 |
Adsorption of propane and propylene in pellets and crystals of 5A zeolite
Grande CA, Gigola C, Rodrigues AE |
| 93 - 104 |
Multiobjective optimization of cyclic adsorption processes
Ko D, Moon I |
| 105 - 111 |
Adsorption models for sorption of lead and zinc on francolite mineral
Prasad M, Saxena S, Amritphale SS |
| 112 - 119 |
New hybrid neural network model for prediction of phase equilibrium in a two-phase extraction system
Gao L, Loney NW |
| 120 - 127 |
Ozone transfer into water in a gas-inducing reactor
Hsu YC, Chen TY, Chen JH, Lay CW |
| 128 - 130 |
Date syrup and baker's yeast production
Alemzadeh I, Vosoughi M |
| 131 - 131 |
Comments on "Analysis of equilibrium acid distribution in the system of citric acid-water-(triisooctylamine plus methyl isobutyl ketone) using a quasi-physical approximation"
Salim PH |
| 132 - 132 |
Reply to comments on "Analysis of equilibrium acid distribution in the system of citric acid-water-(triisooctylamine plus methyl isobutyl ketone) using a quasi-physical approximation"
Wiratni, Tyoso BW, Sediawan WB |
