Karakteristik kolektor surya pelat datar aliran spiral menggunakan metode simulasi cfd

Yonanda, Ahmad; Amrizal,

doi:10.33292/ost.vol1no1.2021.20

Open Sci. Tech.

2021

DOI: 10.33292/ost.vol1no1.2021.20

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Karakteristik kolektor surya pelat datar aliran spiral menggunakan metode simulasi cfd

Ahmad Yonanda

Amrizal Amrizal

Abstract: Kolektor surya pelat datar sering digunakan dalam memanfaatkan energi surya. Kolektor ini memiliki keuntungan yaitu dapat menyerap dengan baik radiasi matahari. Untuk mengkarakteristik unjuk kerja kolektor surya dapat digunakan metode Computational Fluid Dynamic (CFD). CFD memberikan kemudahan untuk menganalisis karakterisrik aliran fluida. Tujuan dari penelitian ini adalah melihat karakteristik unjuk kerja termal dan pressure drop kolektor surya pelat datar aliran spiral dan serpentine menggunakan CFD. Langka… Show more

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2023

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CFD Simulation on the Effect of Adding Dimple Balls Stagger Position on Base Plate on the Performance of V-Corrugated Air Heating Solar Collector

Hakam,

Nugroho,

Habibah

2023

IOP Conf. Ser.: Earth Environ. Sci.

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The ever-increasing increase in energy consumption requires great attention. Therefore, efforts need to be made to find new energy sources, such as solar energy. The absorber plate absorbs solar energy in the form of radiation, and heat is transferred by convection to the working fluid through the solar collector. Increasing the thermal efficiency of the solar air collector by modifying the absorption area using a v-corrugated absorber and also increasing the convection heat transfer coefficient by creating turbulence in the heat transfer area. Flow turbulence can be achieved by providing a disturbance in the form of a dimple in the working fluid channel above the base plate. This research was conducted utilizing numerical simulations and experiments. CFD simulation aims to obtain the most optimum ratio of ΔT/ΔP values of diameter and dimple distance using ANSYS Fluent software with a diameter variation of 6mm, 8mm, 10mm, and 45mm spacing; 50mm, and 5mm. Based on the results of CFD simulations that have been carried out on each variation of the distance and diameter of the dimple, it can be concluded that the closer the distance between the dimples, the smaller the resulting pressure drop, and the larger the diameter of the dimple, the greater the resulting temperature value. The use of a larger dimple diameter results in an increase in the heat transfer area and further increases the outlet temperature. The expected ratio is the value of the largest temperature increase and the smallest pressure drop. In the calculation of the total ratio, the dimple diameter of 10 mm with a distance of 45 mm has the highest ΔT/ΔP ratio value.

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CFD Simulation on the Effect of Adding Dimple Balls Stagger Position on Base Plate on the Performance of V-Corrugated Air Heating Solar Collector

Hakam,

Nugroho,

Habibah

2023

IOP Conf. Ser.: Earth Environ. Sci.

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show abstract

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Karakteristik kolektor surya pelat datar aliran spiral menggunakan metode simulasi cfd

Cited by 1 publication

References 6 publications

CFD Simulation on the Effect of Adding Dimple Balls Stagger Position on Base Plate on the Performance of V-Corrugated Air Heating Solar Collector

CFD Simulation on the Effect of Adding Dimple Balls Stagger Position on Base Plate on the Performance of V-Corrugated Air Heating Solar Collector

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