Processes, Vol. 13, Pages 1816: Mechanistic Insights into Ammonium Chloride Particle Deposition in Hydrogenation Air Coolers: Experimental and CFD-DEM Analysis

Processes doi: 10.3390/pr13061816

Authors:
Haoyu Yin
Haozhe Jin
Xiaofei Liu
Chao Wang
Wei Chen
Fengguan Chen
Shuangqing Xu
Shuangquan Li

The operational reliability of industrial cooling systems is critically compromised by the crystallization of ammonium chloride (NH4Cl) in the terminal sections of heat exchangers and at air-cooler inlets. This study systematically investigated the deposition characteristics of NH4Cl particles in hydrogenation air coolers, along with the factors influencing this process, using a combination of experimental analyses and CFD-DEM coupled simulations. Numerical simulations indicated that gas velocity is the primary factor that governs the NH4Cl deposition behavior, whereas the NH4Cl particle size significantly affects the deposition propensity. Under turbulent conditions, larger particles (>300 μm) exhibit a greater deposition tendency due to increased inertial effects. A power-law equation (R2 > 0.75) fitted to the experimental data effectively predicts the variations in the deposition rates across tube bundles. This study offers a theoretical foundation and predictive framework for optimizing anti-clogging design and maintenance strategies in industrial air coolers.

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Haoyu Yin www.mdpi.com