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文章编号: 16726987(2018)04009807; DOI: 10.16351/j.16726987.2018.04.015
流场影响的数值模拟田杨a, 范军领b, 李升大a, 陈光辉a*, 李建隆a
(青岛科技大学 a.化工学院;b.机电工程学院,山东 青岛 266042)
摘要: 采用SolidWorks建立了3种不同换热管排列方式缠绕管式换热器的物理模型,利用Fluent流场模拟软件,考察了缠绕管式换热器内管排列方式及入口流速对壳侧流动、传热性能的影响。模拟结果表明:与平行排列方式相比,采用错位排列方式时由于缠绕管的导流作用,管间存在较大的径向速度,促进缠绕管外侧流体与缠绕管周围流体的混合,管后低速区面积亦大大减少,强化了流体传热;温度分布更加均匀。基于换热器评价体系对模型进行了评价比较,入口流速超过0.3 m·s-1时,错位排列的换热器的努塞尔数最高、平行排列最低;交叉排列的换热器的阻力系数比其它两种方式略高;PEC指数计算结果表明:错位排列方式的PEC指数最高,当入口流速为0.9 m·s-1时,大约高出25%,具有更好的传热性能。
关键词: 缠绕管式换热器; 排列方式; 传热; 数值模拟; 湍流
中图分类号: TK 172文献标志码: A
引用格式:田杨, 范军领, 李升大, 等. 缠绕管排列方式对缠绕管式换热器内壳程流场影响的数值模拟\[J\]. 青岛科技大学学报(自然科学版), 2018, 39(4): 98104.
TIAN Yang, FAN Junling, LI Shengda, et al. Numerical simulation of influence of arrangement of wound tubes on flow field in inner shell of coilwound heat exchanger\[J\]. Journal of Qingdao University of Science and Technology(Natural Science Edition), 2018, 39(4): 98104.
Numerical Simulation of Influence of Arrangement of Wound Tubes
on Flow Field in Inner Shell of CoilWound Heat ExchangerTIAN Yanga, FAN Junlingb, LI Shengdaa, CHEN Guanghuia, LI Jianlonga
(a.College of Chemical Engineering; b.College of Electromechanical Engineering,
Qingdao University of Science and Technology,Qingdao 266042, China)
Abstract: This paper, taking advantage of SolidWorks, set up three different physical models of coilwound heat exchanger whose tubes have different ways of arrangements, using Fluent to investigate the influence on the flow at shell sides and heat transfer performance which caused by the change of heat exchanger tube arrangements and the inlet flow velocity. The results indicates that,compared with the parallel arranged heat exchanging tubes, because of the channeling effect of cross banded tubes, there is higher radial velocity among the tubes which leads to the fluid outside and beside the coilwound tubes mix more intensively, smaller area of low velocity zone after tubes, stronger heat delivery and a more uniform distribution of temperature. Besides, this paper compared the model of coilwound heat exchanger based on the normal evaluation system of heat exchanger. When the flow velocity has exceeded 0.3 m·s-1 the cross banded tubes has the highest Nusselt number however the parallel banded tubes has the lowest. And the heat exchanger whose tubes are cross banded have higher resistance coefficient than other two ways. The results of PEC index shows that the cross banded tubes have the highest PEC index and when the inlet velocity is 0.9 m·s-1,25% higher than others, the tubes have better heat transfer performance.
Key words: coilwound heat exchanger; arrangement; heat transfer; numerical simulation; turbulent flow
收稿日期: 20170622
基金项目: 国家自然科学基金项目(21276132);山东省高等学校科技计划项目(J17KA107);青岛市科技成果转化计划项目(166250nsh).
作者简介: 田杨(1991—),男,硕士研究生.*通信联系人.