| 173 - 176 |
Recent advances in heat exchanger fouling research, mitigation, and cleaning techniques
Muller-Steinhagen H, Malayeri MR, Watkinson AP |
| 177 - 184 |
Deposition from crude oils in heat exchangers
Watkinson AP |
| 185 - 192 |
Extraction of crude oil fouling model parameters from plant exchanger monitoring
Polley GT, Wilson DI, Pugh SJ, Jean EP |
| 193 - 201 |
Real time fouling diagnosis and heat exchanger performance
Liporace FS, De Oliveira SG |
| 202 - 209 |
Pulsed flow cleaning of whey protein fouling layers
Bode K, Hooper RJ, Paterson WR, Wilson DI, Augustin W, Scholl S |
| 210 - 215 |
Deposit formation in the evaporator of a sulfuric acid recovery plant for TiO2 pigment production
Muller-Steinhagen H, Lancefield D |
| 216 - 221 |
"Zero fouling'' self-cleaning heat exchanger
Klaren DG, De Boer EF, Sullivan DW |
| 222 - 229 |
Strategies against particle fouling in the channels of a micro heat exchanger when performing mu PIV flow pattern measurements
Heinzel V, Jianu A, Sauter H |
| 230 - 239 |
Tubular type heat flux meter for monitoring internal scale deposits in large steam boilers
Taler J, Taler D |
| 240 - 247 |
Initiation of CASO(4) scale formation on heat transfer surfaces under pool boiling conditions
Malayeri MR, Muller-Steinhagen H |
| 248 - 254 |
Molecular modeling approach on fouling of the plate heat exchanger: Titanium hydroxyls, silanols, and sulphates on TiO2 surfaces
Puhakka E, Riihimaki M, Keiski RL |
