Heat Exchange of Tubular Surfaces in a Bubbling Fluidized Bed 1st Edition

Heat Exchange of Tubular Surfaces in a Bubbling Fluidized Bed, 1st Edition by Oleksandr Redko and Andriy Redko

Capture immediate relevance with this authoritative study on heat transfer from tubular surfaces operating in bubbling fluidized beds — a must-have for engineers, researchers, and plant designers tackling thermal management in chemical, power, and process industries worldwide. Clear, data-driven, and practically focused, this edition bridges laboratory insight and industrial application.

Dive into comprehensive coverage that blends experimental results, heat-transfer correlations, and analytical models specific to tubular geometries immersed in bubbling beds. The Redkos present rigorous methodology, detailed temperature and flow diagnostics, and comparative analyses that illuminate how particle properties, gas velocity, tube spacing, and bed depth influence convective and conductive heat transfer. Case studies and practical examples support design decisions for boilers, reactors, and heat exchangers used across Europe, North America, and Asia.

For practitioners aiming to optimize thermal efficiency, reduce fouling, and scale pilot findings to commercial units, this book delivers actionable guidance. Researchers will appreciate the clear presentation of experimental protocols and the novel correlations that enhance predictive accuracy. Students gain a structured, real-world perspective on complex multiphase heat exchange phenomena.

Whether you’re updating plant specifications, conducting CFD validation, or expanding curriculum content, this focused, professional volume equips you with the insights to improve performance and lower operating costs. Order your copy of this essential reference today to bring advanced heat-transfer understanding to your next fluidized-bed project.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.