| 225 - 225 |
Special topic issue - UK Heat Transfer 2001
Kenning D |
| 226 - 232 |
Flow-induced vibration in heat exchangers
Goyder HGD |
| 233 - 238 |
Process intensification for responsive processing
Jachuck R |
| 239 - 245 |
Variable property mixed convection heat transfer to air flowing through a vertical passage of annular cross section: Part 1
Kim WS, Talbot C, Chung BJ, Jackson JD |
| 246 - 251 |
Mixed convection heat transfer to water flowing through a vertical passage of annular cross section: Part 2
Wu TH, Xu ZY, Jackson JD |
| 252 - 260 |
Mixed convection heat transfer to air flowing upwards through a vertical plane passage: Part 3
Wang J, Li J, Jackson JD |
| 261 - 266 |
Improved annular flow modelling of pure fluids and multicomponent mixtures
Barbosa JR, Hewitt GF, Richardson SM |
| 267 - 271 |
Heat transfer coefficient prediction for falling film evaporation used for solvent removal from highly viscous liquids
Wadekar VV |
| 272 - 277 |
Development of the liquid film above a sliding bubble
Addlesee AJ, Kew PA |
| 278 - 283 |
The effect of diameter on boiling heat transfer from the outside of small horizontal tubes
Kew PA, Houston SD |
| 284 - 289 |
Forced convection film boiling on spherical and plane geometries
Jouhara HI, Axcell BP |
| 290 - 294 |
An analysis of film condensation on a horizontal wire-wrapped tube
Rose JW |
| 295 - 300 |
Some results for reflux condensation of hydrocarbon vapour mixtures
Bartleman A, Cuthbertson D, Grant CD, McNaught JM |
| 301 - 308 |
A rigorous model for evaluation of disturbance propagation through heat exchanger networks
Heggs PJ, Vizcaino F |
| 309 - 312 |
Rating calculation for plate heat exchanger effectiveness and pressure drop using existing performance data
Wright AD, Heggs PJ |
| 313 - 319 |
Simplified methodology for calculating the effectiveness of a two stream plate heat exchanger with one stream undergoing a phase change
Wright AD, Heggs PJ |
| 320 - 324 |
Heat transfer characteristics of ice melting in water and salt solutions
Quarini GL, Chang YC |
| 325 - 331 |
Numerical analysis of fluid flows inside and around a liquid drop using an incorporation of multi-block iteration and moving mesh
Yan YY, Lai H, Gentle CR, Smith JR |
| 332 - 334 |
Heat transfer in mechanically-fluidized particle beds
Siebert A, Newborough M, Highgate D |
