Experimental Investigation of the Evaporator Section Tilted Angle and Filling Ratio on the Thermal Charateristics of a Two-phase Closed Thermosyphon

Goldoust, Aminc; Emami, M. Reza; Ranjbar, A.A.

doi:10.18280/ijht.370226

Cited by 5 publications

(1 citation statement)

References 17 publications

(18 reference statements)

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“…Valderrama et al [21], conducted an experiment using a salt-gradient solar pond and observed the maximum temperature at the NCZ and 10% of total solar radiation was quantified as heat loss. Goldoust et al [22], the thermal characteristics of two-phased closed thermosyphon were experimentally studied. The maximum output is achieved for all the filling ratios at 60°.Alwan et al [23], experimentally investigated the modified solar still and found that at low relative humidity when the solar irradiance is increased, the productivity of the solar still is in turn increased.…”

Section: Introductionmentioning

confidence: 99%

Comparative Experimental Analysis of Temperature Distribution in Mini Size Permeable and Non-Permeable Varying Salt Density Solar Pond

Rangaraju¹,

Sivakumar²

2021

IJHT

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Varying salt density solar pond is a method that is best suited to absorb and store solar energy. This examination includes the test enhancement of the permeable and non-permeable sunlight-based ponds dependent on its exhibition in different conditions. This experiment was done in Salem, Tamil Nadu, India. This particular topographical area has a high level of solar radiation and is a tropical district. Readings for a period of 30 days were taken; the temperature circulation, a measure of heat energy stored and concentration of salt density was assessed. For examination, two comparable solar ponds of volume 0.02 m3 and a height of 0.32 m was built. Black granite pieces, broken glass pieces, and welding spatter were used as a permeable medium in the lower convective zone (LCZ) in one of the two solar ponds. The temperatures of the permeable solar pond and non-permeable solar pond reached the highest values of 42.3℃ and 40.6℃ respectively. The solar pond with a permeable medium demonstrated an increase of 4.18% in temperature. The difference in amounts of stored thermal energy is 4.54 kJ. From the obtained parameters, the optimization is done and the permeable medium solar pond is found to store more amount of heat energy than the non- permeable solar pond. For the optimization of the mixed medium, criterion parameter βelk has been acquired in the solar pond.

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Section: Introductionmentioning

confidence: 99%