| 189 - 196 |
Heat Exchanger Fouling: Mitigation and Cleaning Strategies
Muller-Steinhagen H, Malayeri MR, Watkinson AP |
| 197 - 215 |
Fouling in Crude Oil Preheat Trains: A Systematic Solution to an Old Problem
Macchietto S, Hewitt GF, Coletti F, Crittenden BD, Dugwell DR, Galindo A, Jackson G, Kandiyoti R, Kazarian SG, Luckham PF, Matar OK, Millan-Agorio M, Muller EA, Paterson W, Pugh SJ, Richardson SM, Wilson DI |
| 216 - 227 |
Characterization of Crude Oils and Their Fouling Deposits Using a Batch Stirred Cell System
Young A, Venditti S, Berrueco C, Yang M, Waters A, Davies H, Hill S, Millan M, Crittenden B |
| 228 - 236 |
Refinery Pre-Heat Train Network Simulation Undergoing Fouling: Assessment of Energy Efficiency and Carbon Emissions
Coletti F, Macchietto S |
| 237 - 247 |
Kinetics and Structural Evolution During Aging of Coker Vapor Deposits
Fan ZM, Watkinson AP |
| 248 - 257 |
Fouling Problems in Exhaust Gas Recirculation Coolers in the Automotive Industry
Abd-Elhady MS, Malayeri MR, Muller-Steinhagen H |
| 258 - 263 |
Deposit Formation in Evaporation of a Pulp Mill Effluent
Li YH, Watkinson P |
| 264 - 271 |
Experimental Analysis of the Effects of Particulate Fouling on Heat Exchanger Heat Transfer and Air-Side Pressure Drop for a Hybrid Dry Cooler
Bell IH, Groll EA, Konig H |
| 272 - 281 |
Influence of the Apex Angle of Cone-Shaped Tubes on Particulate Fouling of Heat Exchangers
Abd-Elhady MS, Rindt CCM, Van Steenhoven AA |
| 282 - 290 |
Density Functional Theory Studies on the Formation of CaCO3 Depositions on Cristobalite, Diamond, and Titanium Carbide Surfaces
Puhakka E, Riihimaki M, Paakkonen TM, Keiski RL |
| 291 - 299 |
Minimization of CaSO4 Deposition Through Surface Modification
Al-Janabi A, Malayeri MR, Muller-Steinhagen H |
| 300 - 306 |
Influence of Surface Defects and Aging of Coated Surfaces on Fouling Behavior
Geddert T, Augustin W, Scholl S |
| 307 - 313 |
Risk-Based Design Margin Selection for Heat Exchangers
Shilling RL, Rudy MP, Rudy TM |
| 314 - 319 |
Design of Shell-and-Tube Heat Exchangers to Achieve a Specified Operating Period in Refinery Preheat Trains
Polley GT, Fuentes AM, Pugh SJ |
| 320 - 330 |
Revamping Existing Severely Fouling Conventional Heat Exchangers Into a Self-Cleaning (Fluidized-Bed) Configuration: New Developments and Examples of Revamps
Klaren DG, De Boer EF |
| 331 - 338 |
Performance Evaluation of a Zero-Fouling Reciprocating Scraped-Surface Heat Exchanger
Solano JP, Garcia A, Vicente PG, Viedma A |
| 339 - 348 |
Fluid Dynamic Gauging Applied to Annular Test Apparatuses for Fouling and Cleaning
Gu T, Albert F, Augustin W, Chew YMJ, Paterson WR, Scholl S, Sheikh I, Wang K, Wilson DI |
| 349 - 357 |
Detection of Fouling in a Cross-Flow Heat Exchanger Using Wavelets
Ingimundardottir H, Lalot S |
