Heat Exchanger Fouling and Cleaning XV – 2024

April 21—26, 2024, Dolce CampoReal Lisboa, Lisbon, Portugal

PREFACE

We are pleased to reflect on the success of the 15th Heat Exchanger Fouling & Cleaning Conference, which took place in the scenic city of Lisbon, Portugal from April 21 to 26, 2024. This year’s conference marked another milestone in our long-standing tradition of fostering innovation and collaboration in the field of heat exchanger fouling and cleaning. Since the conference’s inception in 1995, it has provided a unique platform for academics, researchers, and industry professionals to come together, share their insights, and tackle the complex challenges related to fouling.

Over the course of this event, we hosted an impressive lineup of 67 presentations, featuring 40 contributions from leading research institutions and universities, and 27 from industry. The program covered a wide range of topics, including fouling in hydrocarbon systems, crystallization, biofouling, reaction fouling, and fouling in food processing. In line with the evolving landscape of our field, this year’s discussions also emphasized advanced technologies such as machine learning for fouling prediction, surface modifications, and new cleaning technologies. These sessions provided participants with fresh perspectives on both the scientific and practical aspects of fouling and cleaning.

Among the many memorable presentations were those that explored the impact of surface treatments on fouling, predictive models for cleaning, and the integration of artificial intelligence into fouling mitigation strategies. These topics sparked engaging discussions and highlighted the progress our community continues to make in addressing these critical issues.

The conference also provided invaluable opportunities for networking, reinforcing old connections and fostering new collaborations. As always, informal conversations during breaks and social events played a key role in deepening relationships and driving the exchange of ideas. It is this sense of community, alongside the technical knowledge shared, that makes our conference so special.

We would like to express our deep gratitude to everyone who participated in the post- conference review process. Your timely feedback was essential for finalizing the conference proceedings. Selected papers have been chosen for publication in respected journals such as Heat Transfer Engineering and Heat and Mass Transfer, further solidifying the conference’s contribution to the advancement of our field.

Lastly, we remember Professor Norman Epstein, whose contributions and commitment to our community have left an enduring impact. His memory continues to inspire us as we push forward in our efforts to better understand and mitigate fouling.

Once again, we extend our sincere thanks to all attendees for your active participation and enthusiasm. The success of the 15th Heat Exchanger Fouling & Cleaning Conference is a testament to the dedication and passion of this incredible community. We look forward to seeing you at the next edition of the conference as we continue our journey of innovation and collaboration.

Editors

Dr. Ing. Hans U Zettler
President
Heat Transfer Research, Inc.

Dr. Edward Ishiyama
Senior Technical Lead, SmartPM
Heat Transfer Research, Inc.

October 2024

ARTICLES

(PDF documents)

INTRODUCTION

  1. Local thermal resistance measurement device for fouling detection
    Q. T. Pham, F. Ducros, and Z. Anxionnaz-Minvielle
  2. A conceptual mechanism for how crude oils foul in heat exchangers
    H. Joshi
  3. Advance in morphology of fouling in the exhaust gas recirculation (EGR) coolers
    Y. Yao, Z. Han, W. Tian, L. Luo, J. Ding, B. Su, M.-E. Duprez, and G. De Weireld

FOULING IN HYDROCARBON SYSTEMS

  1. Unraveling the impact of temperature and feedstock composition on coke formation in steam cracking reactors
    H. Mohamadzadeh Shirazi, L. dos S. Vargette1, G. Bellos, G. Heynderickx1, M. F. Reyniers, and K. M. Van Geem
  2. Impact of fuel selection on gas-side fouling in fired heaters: A techno- environmental analysis
    E. Petropoulou, D. Giamalakis, G. Spiridaki, A. Aristeidopoulou, C. Plellis, S. Loukopoulos, D. Oakley, J. Kennedy, S. J. Pugh, H. U. Zettler and E. M. Ishiyama
  3. Precipitation index: A potential alternative to predicting crude stability of petroleum oils
    P. Singh, S. Krishnaswamy, K. Ponnani, A. Verma, and J. Rawat

CRYSTALLIZATION FOULING (PART 1)

  1. Design and characterisation of a thin plate heat exchanger for fouling studies
    J. Brown, S. M. Clarke, G. Kawaley, M. J. Sargent, M. Turner, and D. I. Wilson
  2. Reviewing detachment processes in crystallization fouling: Implications for accurate predictions
    I. Appelquist Løge and B. U. Anabaraonye
  3. Investigation of fouling roughness induced heat transfer improvement using a Stereoscopic Micro PIV
    L. Rohwer, W. Augustin, and S. Scholl

FOULING PREDICTION

  1. Predictive fouling detection in food production using machine learning models based on real data
    J. Yin, N. Jarmatz, M. Mauermann, W. Augustin, and S. Scholl
  2. Improving the efficiency of hybrid cooling towers: the Integration of artificial intelligence for water outlet temperature prediction considering fouling effects
    A. Zaza and E. G. Bennouna
  3. Prognostics of heat exchanger fouling via inference with symbolic regression
    E. Safikou1 and G. Bollas2

FOULING SCIENCE

  1. Towards a common taxonomy for heat exchanger fouling
    W. Augustin, L. F. Melo, and D. I. Wilson

CRYSTALLIZATION FOULING (PART 2)

  1. Calcium scales — scrap scaling indexes and the concept of super-saturation
    D. Hawthorn

POSTER SESSION

  1. Investigation of flow pulsation to mitigate crude oil fouling
    R. Schab, H. Joshi, M. R. Malayeri, S. Unz, and M. Beckmann
  2. Local temperature distribution of a plate heat exchanger undergoing crystallization fouling
    J. Berce, M. Može, M. Zupančič, and I. Golobič
  3. Experimental studies of the flushing process of chocolate masses in a test facility
    M. Heide, V. Liebmann, F. Rüdiger, J.-P. Majschak, and H. Köhler
  4. A cleaning model for film-like soils with transition between cleaning mechanisms
    C. Golla, S. Jena, V. Liebmann, J. Fröhlich, F. Rüdiger, and H. Köhler
  5. Can sound stop scaling: A NIR spectroscopy study of ultrasound treated water
    M. Bache and I. A. Løge
  6. A comparative evaluation of inhibitor performance in simple and complex solutions
    I. A. Løgea and B. U. Anabaraonye
  7. Hydraulic and thermal development of water fouling layer
    E. Crosby, M. Berger, B. Houston, and L. Bishop
  8. Impact of fouling on energy management in column heat recovery system with once-through thermosyphon reboiler
    M. Iijima and R. Suzuki

BIOFOULING

  1. Hurdle approach employing microencapsulated carvacrol and enzymes to disrupt pseudomonas aeruginosa biofilms
    N.-E. Chihib, S. Mechmechani, A. Gharsallaoui, and G. Delaplace
  2. How biofilm history affects the impact of thermal disinfection on biofilm control and regrowth
    A. R. Silva, L. F. Melo, and A. Pereira

FOULING IN FOOD PROCESSING

  1. A fouling predictive model-based solution for sustainable dairy heat treatment and cleaning-in-place (CIP) processes
    M. I. Malliaroudaki, N. J. Watson, L. N. Nchari, S. S. Bhonsale, J. F.M. Van Impe, K. van Koerten, I. Dimitriou, Z. J. Glover, and R. L. Gomes
  2. The dynamic fouling behavior of whey proteins throughout a plate heat exchanger: Utilizing a validated kinetic fouling model
    J. Zha, L. Bouvier, J. Xiao, and G. Delaplace
  3. Predictive modeling for fouling and cleaning in heat exchangers during milk pasteurization
    D. Yilmaz, K. K. Nguen, and G. Delaplace
  4. The effect of rheological properties of concentrated milk on fouling of falling film evaporators
    I. Hashemizadeh, D. Zare, and C. Brown

REACTION FOULING

  1. Differences in emulsion polymerization fouling between acrylates and vinyl acetates studied in-situ with a Quartz Crystal Microbalance (QCM)
    K. M. Hoffmann, A. Langhoff, J. Adams, H. A. Huellemeier, W. Augustin, S. Scholl, and D. Johannsmann
  2. A movable heated finger design for the monitoring of fouling during polymer synthesis
    H. Huellemeier, W. Augustin, and S. Scholl

PERFORMANCE MONITORING

  1. Tackling fouling challenges with the Alfa Laval smart heat exchanger
    L. G. Nilsson

SURFACE MODIFICATIONS

  1. Biomimetic coatings to mitigate dairy fouling adhesion
    M. Saget, F. Braud, N. Nuns, G. Delaplace, V. Thomy, Y. Coffinier, M. Jimenez
  2. Crystallization fouling on polymer composite heat exchanger tubes and the effects of surface treatments
    J.-H. Imholze and H. Glade
  3. Experiences with application of anti-fouling low surface energy coatings on industrial heat exchangers
    K. S. Chunangad and R. Pratt
  4. Reduce opex and capex in refining process unit fired heaters using ceramic coating technology
    S. Lodha
  5. Production process for heat exchanger tubes with DLC-type inner coating
    A. Angerbauer, N. Wailzer, C. Übleis, B. Petter, M. Schachinger, C. Forsich, and D. Heim

FOULING MITIGATION

  1. Quick win on carbon footprint by improving existing assets via the use of tube inserts in shell and tube exchangers.
    N. Aubin
  2. Re-thinking the design of closed-loop cooling stations to mitigate fouling
    H. Kockum

CLEANING SCIENCE AND TECHNOLOGY

  1. Investigation of blocking phenomena in cleaning of micro heat exchangers
    F. Aselmeyer, W. Augustin, and S. Scholl
  2. Development of novel cleaning systems for improving immersion cleaning based on the hunting behaviour of the pistol shrimp
    R. Murcek, M. Finster, A. T. Georgi, S. Prabhu, E. Fuchs, and M. Mauermann
  3. Analysis of complex interdependencies between soil-specific properties and cleaning behavior in the food industry by using a decision tree
    S. Kricke, C. Drechsel, C. Schmidt, S. Zahn, H. Rohm, J.-P. Majschak, and H. Köhler
  4. Numerical model for the cleaning of a film-like soil by viscous shifting under non-isothermal conditions
    C. Golla, V. Liebmann, R. Rebel, H. Köhler, J. Fröhlich, and F. Rüdiger
  5. Extension of a simplified physical flushing process model to realistic fluid property variation of chocolates
    V. Liebmann, M. Heide, C. Golla, H. Köhler, F. Rüdiger, and J. Fröhlich
  6. Influence of surface texture on the cleanability of D-printed stainless-steel components
    T. Hanisch, S. Stelzer, V. Eisenrauch, N. Milaev, J. Thielsch, J. Sebastian, E. Fuchs, and M. Mauermann
  7. Cleaning method effectiveness and the cost of incomplete cleaning
    R. Tomotaki, B. Kieser, and H. M. Joshi
  8. Effects of various alkali materials on the surface properties of aqueous surfactant solutions
    J. Idowu, T. R. McCartney, and F. Forouzandeh
  9. Thermal cleaning of heat exchangers, an improved total care service for an optimal cleaning
    R. A. J. Mol
  10. Understanding the delivery of ultrasonic cleaning effect in a heat exchanger tube
    M. Järvinen, S. Ahmadzai, T. Rauhala, and P. Moilanen
  11. Experimental and numerical investigations of cleaning based on fundamental models
    K. Deshmukh, R. S. Cant, D. Arlov, and D. I. Wilson
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