A parameter study of tube bundle heat exchangers for fouling rate reduction

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• 作者：Hui Han ; Ya-Ling He ; ^{yalinghe@mail.xjtu.edu.cn" class="auth_mail} ; ^{hylepe@gmail.com" class="auth_mail} ; Wen-Quan Tao ; Yin-Shi Li
• 关键词：Particulate deposit ; Heat exchanger ; Heat transfer ; Pressure drop ; Numerical simulation
• 刊名：International Journal of Heat and Mass Transfer
• 出版年：May, 2014
• 年：2014
• 卷：72
• 期：Complete
• 页码：210-221
• 全文大小：2254 K

文摘

The formation of particulate deposits on flue gas heat exchanger surfaces will reduce heat transfer efficiency, increase the instability of equipment operation and introduce a major uncertainty into the heat exchanger design. In this paper, a numerical model was developed to predict the flue-ash particle deposition rate by considering particles transport, sticking and rebound behaviors based on the software FLUENT, extended by user-defined functions (UDFs). The numerical model was applied to cross-flow tube bundle heat exchangers with a 6-row tube arrangement. The effects of six parameters (particle diameter, flow velocity, spanwise tube pitch, longitudinal tube pitch, tube geometry shape, and arrangement) on fouling rate, as well as on the heat transfer and hydrodynamics performance, were examined. It was found that particle deposits accumulated primarily in the flow stagnation region, recirculation region, the vortex separation and reattachment regions. Increasing particle diameter moved the deposition zones towards the windward side of tubes. Using both oval tubes and staggered arrangements can reduce the fouling rate. With the increase in longitudinal tube pitch, both the particulate deposit rate and the heat transfer performance increased. To account for fouling and heat transfer performance, a tube spacing value of 2 was recommended.