| 1 - 2 |
Process intensification and innovation process (PI)2 conference II -Cleaner, sustainable, efficient technologies for the future -Christchurch, New Zealand, September 24-29, 2006 - Foreword
Tsouris C, Weatherley L |
| 3 - 9 |
Compact, low energy CO2 management using amine solution in a packed bubble column
Krumdieck S, Wallace J, Curnow O |
| 10 - 14 |
In situ gas-phase FTIR monitoring of liquid delivery MOCVD process for PZT film preparation
Funakubo H, Asano G, Tonari K, Takamatsu Y, Ohtsuki K, Satake T |
| 15 - 24 |
Intensification of ammonia removal in a combined ion-exchange and nitrification column
Miladinovic N, Weatherley LR |
| 25 - 32 |
Enzymatic catalysis and electrostatic process intensification for processing of natural oils
Weatherley LR, Rooney D |
| 33 - 42 |
Numerical study of the gas-liquid-solid flow in hydrocyclones with different configuration of vortex finder
Wang B, Yu AB |
| 43 - 48 |
Improvement of indirect ultrasonic irradiation method for intensification of emulsion polymerization process
Kobayashi D, Matsumoto H, Kuroda C |
| 49 - 55 |
A CFD-model describing filtration, regeneration and deposit rearrangement effects in gas filter systems
Deuschle T, Janoske U, Piesche M |
| 56 - 62 |
Towards the elimination of chromatography in protein purification: Expressing proteins engineered to purify themselves
Mee C, Banki MR, Wood DW |
| 63 - 70 |
Evaluation of the activity and stability of alkali-doped metal oxide catalysts for application to an intensified method of biodiesel production
MacLeod CS, Harvey AP, Lee AF, Wilson K |
| 71 - 77 |
A pilot-scale continuous-jet hydrate reactor
Szymcek P, McCallum SD, Taboada-Serrano P, Tsouris C |
| 78 - 82 |
Kinetics of styrene free radical polymerisation in the spinning disc reactor
Vicevic M, Novakovic K, Boodhoo KVK, Morris AJ |
| 83 - 94 |
Phenomena-based modularisation of chemical process models to approach intensive options
Arizmendi-Sanchez JA, Sharratt PN |
| 95 - 102 |
Renewable energy source - Dehydrated ethanol
Kaminski W, Marszalek J, Ciolkowska A |
| 103 - 112 |
Discrete particle simulation of particle flow in IsaMill - Effect of grinding medium properties
Jayasundara CT, Yang RY, Yu AB, Curry D |
| 113 - 119 |
Process intensification by micro-channel reactor for steam reforming of methanol
Kundu A, Ahn JE, Park SS, Shul YG, Han HS |
| 120 - 128 |
Development of a model for high precursor conversion efficiency pulsed-pressure chemical vapor deposition (PP-CVD) processing
Cave HM, Krumdieck SP, Jermy MC |
| 129 - 134 |
Influence of turbulence intensity on particle drag coefficients
Doroodchi E, Evans GM, Schwarz MP, Lane GL, Shah N, Nguyen A |
| 135 - 140 |
Liquid-solid mass transfer in a two phase fluidized bed bioreactor
Lakshmi LP, Setty YP |
| 141 - 150 |
Intensification of gas-liquid mass transfer using a rotating bed of porous packings for application to an E. coli batch fermentation process
Boodhoo KVK, Vicevic A, Cartwright CD, Ndlovu T, Toogood EC |
| 151 - 156 |
Treatment of winery wastewater using a photocatalytic/photolytic reactor
Agustina TE, Ang HM, Pareek VK |
