| 1153 - 1154 |
Special Issue on Distillation & Absorption
Brunazzi E, Repke JU, Sorensen E |
| 1155 - 1167 |
Designing four-product dividing wall columns for separation of a multicomponent aromatics mixture
Dejanovic I, Matijasevic L, Halvorsen IJ, Skogestad S, Jansen H, Kaibel B, Olujic Z |
| 1168 - 1189 |
Shortcut-based design of multicomponent heteroazeotropic distillation
Kraemer K, Harwardt A, Skiborowski M, Mitra S, Marquardt W |
| 1190 - 1196 |
Carbon dioxide absorption into biphasic amine solvent with solvent loss reduction
Zhang JF, Nwani O, Tan Y, Agar DW |
| 1197 - 1203 |
CO2 capture solvent selection by combined absorption-desorption analysis
Aronu UE, Hoff KA, Svendsen HF |
| 1204 - 1215 |
Results from trialling aqueous NH3 based post-combustion capture in a pilot plant at Munmorah power station: Absorption
Yu H, Morgan S, Allport A, Cottrell A, Do T, McGregor J, Wardhaugh L, Feron P |
| 1216 - 1228 |
Pilot plant study of post-combustion carbon dioxide capture by reactive absorption: Methodology, comparison of different structured packings, and comprehensive results for monoethanolamine
Mangalapally HP, Hasse H |
| 1229 - 1236 |
Capital costs and energy considerations of different alternative stripper configurations for post combustion CO2 capture
Karimi M, Hillestad M, Svendsen HF |
| 1237 - 1251 |
Preliminary analysis of process flow sheet modifications for energy efficient CO2 capture from flue gases using chemical absorption
Cousins A, Wardhaugh LT, Feron PHM |
| 1252 - 1260 |
Experimental model validation of an integrated process for the removal of carbon dioxide from aqueous ammonia solutions
Mackowiak JF, Gorak A |
| 1261 - 1270 |
Carbon dioxide capture for the oxidative coupling of methane process -A case study in mini-plant scale
Stunkel S, Drescher A, Wind J, Brinkmann T, Repke JU, Wozny G |
| 1271 - 1280 |
Study of heterogeneously catalysed reactive distillation using the D plus R tray-A novel type of laboratory equipment
von Harbou E, Schmitt M, Parada S, Grossmann C, Hasse H |
| 1281 - 1294 |
Synthesis of dividing-wall columns (DWC) for multicomponent distillations-A systematic approach
Rong BG |
| 1295 - 1307 |
Methodology for design and analysis of reactive distillation involving multielement systems
Jantharasuk A, Gani R, Gorak A, Assabumrungrat S |
| 1308 - 1320 |
Model for the prediction of liquid phase mass transfer of random packed columns for gas-liquid systems
Mackowiak J |
| 1321 - 1332 |
Short-cut methods for the optimal design of simple and complex distillation columns
Adiche C, Vogelpohl A |
| 1333 - 1347 |
A boundary value design method for complex demethaniser distillation columns
Nawaz M, Jobson M |
| 1348 - 1361 |
A generalized methodology for optimal configurations of hybrid distillation-pervaporation processes
Naidu Y, Malik RK |
| 1362 - 1376 |
Flowsheet synthesis and complex distillation column design for separating ternary heterogeneous azeotropic mixtures
Prayoonyong P, Jobson M |
| 1377 - 1381 |
Distillation pressure control troubleshooting-The hidden pittfalls of overdesign
van der Merwe J |
| 1382 - 1391 |
Optimal operation of Kaibel distillation columns
Ghadrdan M, Halvorsen IJ, Skogestad S |
| 1392 - 1396 |
Characterization and quantification of the quality of gas flow distributions
Stemich C, Spiegel L |
| 1397 - 1404 |
Understanding maldistribution in 3-pass trays
Kister HZ, Olsson M |
| 1405 - 1413 |
Texture influence on liquid-side mass transfer
Kohrt M, Ausner I, Wozny G, Repke JU |
| 1414 - 1426 |
Determination of liquid hold-up and flow distribution inside modular catalytic structured packings
Viva A, Aferka S, Toye D, Marchot P, Crine M, Brunazzi E |
| 1427 - 1433 |
Structured packing efficiency-Vital information for the chemical industry
Ottenbacher M, Olujic Z, Adrian T, Jodecke M, Grossmann C |
| 1434 - 1442 |
Progress on Higee distillation-Introduction to a new device and its industrial applications
Wang GQ, Xu ZC, Ji JB |
