Your search keyword '"SRIMANICKAM, B."' showing total 2 results

1. Evaluating the effectiveness of paraffin wax and zinc sulphide nanoparticles to improve the performance of hybrid solar panel/dryer.

Author

Srimanickam, B., Raja, N. Dili, Saranya, A., Elangovan, K., and Chandrakumar, P.

Subjects

*CONVECTION (Astrophysics), *HEAT convection, *HEAT storage, *SOLAR dryers, *SOLAR panels

Abstract

Hybrid thermal systems offer advantages over conventional systems because of their versatility. This paper discusses a hybrid solar panel/dryer that integrates a typical solar photovoltaic panel for domestic electricity generation and a dryer tower for drying agricultural products. The active thermodynamic system uses an electric fan to transfer heated air from the solar panel to the dryer tower. The forced convective heat transfer increases the effectiveness of drying the agricultural products inside the dryer tower. The effectiveness of the hybrid solar panel/dryer is enhanced by using a heat storage medium like paraffin wax mixed with a fractional quantity of zinc sulphide nanoparticles. The forced convection solar dryer used in this study performed better in every way, including drying time, rate of moisture removal, electrical efficiency, thermal efficiency, and total thermal efficiency. Typically, solar radiation serves as a source of energy generation for the solar dryers. The solar drier was tested with 2 kg of raw peanuts. An identical quantity of raw peanuts was dried in the open air at the same time. The ambient temperature varied between 31̊C and 58 ̊C. In nine consecutive days with bright, sunny skies, the raw peanuts' initial moisture content of 78.4% (weight basis) was decreased to 14.3% (weight basis). Over nine days, the hybrid solar panel/dryer was operated from 09:00 to 16:00. A comparison analysis was carried out to determine the improvement in the performance of the hybrid solar panel/dryer. It was observed that the heat absorption medium i.e., paraffin wax mixed with zinc sulphide nanoparticles contributed in increasing the thermal efficiency of the hybrid solar panel/dryer. The open sun drying produced inferior results compared to solar dryer drying. [ABSTRACT FROM AUTHOR]

Published

2024

2. Performance investigation on photovoltaic thermal collector by using zinc oxide nanofluids.

Author

Poyyamozhi, N., Muthukannan, M., Chandrakumar, P., Srimanickam, B., and Elangovan, K.

Subjects

SOLAR energy conversion, SOLAR energy, SOLAR radiation, ZINC oxide, THERMAL efficiency, SOLAR collectors

Abstract

The efficiency of solar power generation has been severely hampered by the rising temperatures of these cells. In an effort to lessen this difficulty, an outdoor experimental inquiry carried out in Chennai is presented in this research report. To lower PV temperatures, coolants such as water and water-based nanofluids, specifically zinc oxide nanofluids, were used. The results showed that the PVT collector's thermal and electrical efficiency had been greatly increased by the introduction of nanofluids. At 1.0 LPM, the PVT collector had a maximum electrical efficiency of 17.48% and a maximum thermal efficiency of 49.87%. The nanofluid-cooled PVT collector performed better than freestanding PV modules and water-cooled PVT systems, according to the comparison study. The research also identified difficulties with nanofluid cooling, such as decreased effectiveness during times of maximum solar radiation. All things considered, this study offers insightful information on how to use nanofluids to optimize PVT collector performance, providing ways to improve the efficiency of solar energy conversion. [ABSTRACT FROM AUTHOR]

Published

2024