Optimizing heat transfer in solar air heater ducts through staggered arrangement of discrete V-ribs

IF 2.8 Q2 THERMODYNAMICS Heat Transfer Pub Date : 2024-08-27 DOI:10.1002/htj.23162

Manoj Kumar Dubey, Om Prakash

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Abstract

This research paper details an experimental study on airflow dynamics in a solar air heater. The heater's design incorporates unique, discrete V-shaped ribs with staggered elements to enhance thermal performance. The study investigates the influence of various roughness parameters on flow characteristics. These parameters include a relative coarseness pitch (P/e) ratio of 12, a rib inclination angle (α) of 60°, a relative coarseness height (e/D_h) of 0.043, and a staggered element arrangement with a positioning ratio (p′/P) of 0.65. Additionally, the investigation includes scenarios with three gaps (N_g) between elements and a gap-to-rib width (g/e) ratio of 4. The research focuses on how changes to the Reynolds number, ranging from 3000 to 14,000, and alterations to the ratio of staggered element positioning to rib height (r/e), from 2 to 5, impact the flow dynamics. The outcomes indicate a significant boost in heat transfer performance, with the Nusselt number rising to 3.76 compared with a conventional smooth duct. The highest thermal efficiency recorded was 86%, at an r/e ratio of 3.5. These results underscore the potential of using discrete V-ribs with staggered elements in rectangular ducts to improve heat transfer efficiency.

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通过交错布置不连续的 V 型肋条优化太阳能空气加热器管道中的热传递

本研究论文详细介绍了对太阳能空气加热器中气流动力学的实验研究。该加热器的设计采用了独特的 V 形离散肋条和交错元件，以提高热性能。研究调查了各种粗糙度参数对气流特性的影响。这些参数包括相对粗糙度间距 (P/e) 比为 12、肋条倾斜角 (α)为 60°、相对粗糙度高度 (e/Dh) 为 0.043 以及定位比 (p′/P) 为 0.65 的交错元件排列。研究重点是雷诺数（从 3000 到 14000）的变化以及交错元件定位与肋条高度比（r/e）（从 2 到 5）的变化如何影响流动动力学。结果表明，与传统的光滑管道相比，该管道的传热性能显著提高，努塞尔特数升至 3.76。当 r/e 比值为 3.5 时，记录到的最高热效率为 86%。这些结果凸显了在矩形风道中使用具有交错元素的离散 V 型肋条来提高传热效率的潜力。

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