采用双面曲线横肋的太阳能空气加热器的性能提升：实验和数值研究

IF 1.8 4区工程技术 Q3 ENGINEERING, MECHANICAL

Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science Pub Date : 2024-07-23 DOI:10.1177/09544062241258078

Dharam Singh, Vikash Kumar

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引用次数: 0

摘要

太阳能作为主要能源，因其可用性和生态友好性而备受世界关注。太阳能空气加热器的低性能使研究人员对提高其性能产生了好奇。为了提高太阳能空气加热器的性能，研究人员采用了主动和被动技术。表面改性是提高性能的最重要的被动技术之一。本实验和数值研究探讨了双面曲线肋条粗化太阳能空气加热器的热特性。在热通量恒定为 1000 W/m2 的双面曲线肋条粗化吸收板上进行了室内实验。同时还进行了二维数值模拟，以探索流动行为，并以最佳成本完成研究。ANSYS Fluent 2021.R 用于执行该模拟，采用 K-ε RNG 模型并增强了壁面处理。选择速度入口和压力出口作为边界条件。主要粗糙度和流动参数为相对粗糙度高度（e/ D h = 0.21-0.042）、相对粗糙度间距（p/ e = 7.14-35.71）和雷诺数（Re = 3800-18,000）。当粗糙度和流动参数分别为 ( e/ D h = 0.042, p/ e = 15, Re = 15,000) 和 ( e/ D h = 0.042, p/ e = 7.14, Re = 3800) 时，努塞尔特数改进率和摩擦因数改进率的最大值分别为 3.17 和 3.26。热液压性能参数在 e/ D h = 0.042、p/ e = 17.85 和 Re = 18,000 时达到最大值 2.77。

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Performance enhancement of solar air heater with two-sided curvilinear transverse rib: Experimental and numerical investigation

Solar energy as prime energy source draws attention of world due to its availability and eco-friendliness. Low performance of solar air heater create curiosity for researchers to increase its performance. To enhance performance of solar air heater active and passive techniques used by researcher. Surface modification is one of the most prominent passive techniques to improve the performance. Present experimental and numerical investigation explore thermal characteristics of two-sided curvilinear rib roughened solar air heater. An indoor experiment was performed on two side curvilinear rib roughened absorber plate having constant heat flux of 1000 W/m2. Parallelly 2-dimensional numerical simulation was also performed to explore flow behavior and to complete investigation within optimum cost. ANSYS Fluent 2021.R was used for performing this simulation with K-ε RNG model with enhanced wall treatment. Velocity inlet and pressure outlet was selected as boundary condition. Main roughness and flow parameters were relative roughness height ( e/ D h = 0.21–0.042), relative roughness pitch ( p/ e = 7.14–35.71), and Reynolds number ( Re = 3800–18,000). Maximum value of Nusselt number improvement ratio and friction factor improvement ratio was 3.17 and 3.26 at roughness and flow parameter of ( e/ D h = 0.042, p/ e = 15, Re = 15,000) and ( e/ D h = 0.042, p/ e = 7.14, Re = 3800) respectively. Thermohydraulic performance parameter achieved its maximum value of 2.77 at e/ D h = 0.042, p/ e = 17.85, and Re = 18,000.

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来源期刊

Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 工程技术-工程：机械

CiteScore

3.80

自引率

10.00%

发文量

625

审稿时长

4.3 months

期刊介绍： The Journal of Mechanical Engineering Science advances the understanding of both the fundamentals of engineering science and its application to the solution of challenges and problems in engineering.