CFD ANALYSIS AND EVALUATION OF HEAT TRANSFER ENHANCEMENT OF INTERNAL FLOW IN TUBES WITH 3D-PRINTED COMPLEX FINS

机译：CFD分析和评估带有3D打印复合鳍片的管道内部流动的传热效果

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Additive manufacturing (AM), also known as 3D printing technology, is applied to fabricate complex fin structures for heat transfer enhancement at inner surface of tubes, which conventional manufacturing technology cannot make. This work considered rectangular fins, scale fins, and delta fins with staggered alignment at the inner wall of heat transfer tubes for heat transfer enhancement of internal flows. Designed fin structures are trial-printed using plastic material to exam the printability. Laminar flow convective heat transfer has been numerically studied, and heat transfer performance of the tubes with 3D-printed interrupted fins has been compared to that with conventional straight continued fins. The benefit from heat transfer enhancement and the loss due to increased pumping pressure is evaluated using the total entropy generation rate in the control volume of heat transfer tube. As the conclusion of the study, better heat transfer tubes with 3D-printed internal fins are recommended.

机译：增材制造（AM），也称为3D打印技术，用于制造复杂的翅片结构，以增强管子内表面的传热效果，而传统制造技术无法做到这一点。这项工作考虑了矩形翅片，鳞片翅片和三角形翅片，它们在传热管的内壁处交错排列，以增强内部流动的传热效果。设计的鳍片结构使用塑料材料进行了试用印刷，以检查可印刷性。对层流对流换热进行了数值研究，并将具有3D打印中断翅片的管子的传热性能与传统的直连续翅片的管子的传热性能进行了比较。使用传热管控制体积中的总熵产生率评估传热增强的好处以及由于泵送压力增加而造成的损失。作为研究的结论，建议使用带有3D打印内部散热片的更好的传热管。

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《ASME International Conference on Energy Sustainability;ASME Heat Transfer Conference》|2019年|V001T09A009.1-V001T09A009.11|共11页
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Chao Wei; Gabriel Alexander Vasquez Diaz; Kun Wang; Peiwen Li;
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Complex internal fins; heat transfer enhancement; 3D printing; laminar flow; CFD analysis;

机译：复杂的内部散热片;传热增强; 3D打印层流差价合约分析;

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专利

1. 3D-printed tubes with complex internal fins for heat transfer enhancement—CFD analysis and performance evaluation [J] . Chao Wei, Gabriel Alexander Vasquez Diaz, Kun Wang, AIMS Energy . 2020,第1期

机译：具有复杂内翅片的3D印刷管，用于传热增强-CFD分析和性能评估
2. 3D CFD analysis of the effect of inlet air flow maldistribution on the fluid flow and heat transfer performances of plate-fin-and-tube laminar heat exchangers [J] . Wahiba Yaieci, Mohamed Ghorab, Evgueniy Entchev International Journal of Heat and Mass Transfer . 2014,第jula期

机译：3D CFD分析进气流量分布不均对板翅管层流式换热器的流体流动和传热性能的影响
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机译：双管结构内部翅片管的流动和传热特性，具有开花形状内翅片
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机译：恒温下恒温翅片流动流动流体湍流传热分析
5. Investigation of turbulent flow and heat transfer in internally finned tubes [D] . Liu, Xiaoyue. 1998

机译：内翅片管内湍流和传热的研究
6. Numerical evaluation of laminar heat transfer enhancement in nanofluid flow in coiled square tubes [O] . Agus Pulung Sasmito, Jundika Candra Kurnia, Arun Sadashiv Mujumdar 2011

机译：盘绕方管中纳米流体流动中层流传热增强的数值评估
7. Fluid flow and heat transfer in a plate-fin and tube heat exchanger (Analysis of heat transfer around a square cylinder situated between parallel plates) [O] . Genichiro KUSHIDA, Hiroshi YAMASHITA, Ryotaro IZUMI 1986

机译：板式翅片和管式热交换器中的流体流动和传热（分析平行板间的方形圆筒周围的热传递）
8. Experimental Results of Heat Transfer and Pressure Drop of Argon Flowing Through Single Tube with Internal Interrupted Fins [R] . Lynch, M. P., Namkoong, D. 1967

机译：氩气流过单管内部中断翅片的传热和压降实验结果

CFD ANALYSIS AND EVALUATION OF HEAT TRANSFER ENHANCEMENT OF INTERNAL FLOW IN TUBES WITH 3D-PRINTED COMPLEX FINS

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