C. T. Muthiah scite author profile

C. T. Muthiah

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Experimental investigation of the charging and discharging of latent heat in phase change material (PCM) based aluminium tube heat exchanger

Muthiah¹,

Kanishkar²,

Hariharan³

et al. 2021

J. Phys.: Conf. Ser.

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Nowadays, given the increasing importance of energy sources, the possibility of energy storage in the heat exchangers through the Phase Change Materials (PCM) and releasing it when needed has been extremely essential. This study seeks to develop a model as that of the domestic water heating system in which the phase change material is used for storing that heat energy as latent heat and it can be discharged during cooling. The behaviour of a PCM material is studied and the performance is tried to improve by using aluminium as the inner tubes instead of copper. In this experimental study, the thermal characteristics of PCM is studied by passing hot fluid and cold fluid through the tubes. Further the heat-storing capacity and the temperature distribution of wax along the tube was studied at different fluid temperatures. Also, the type of flow created by the fluid for different temperatures and the corresponding behaviour of the PCM during that particular temperature is also studied. A commercial grade Paraffin wax as PCM material with specific heat capacity of 2 kJ/kg-K is used and arrived at effectiveness around 0.48 for 40-50 °C and 0.59 for 50-60 °C. Logarithmic average of the temperature difference between 40°C-50 °C hot cycle is 10.654°C and during the cold cycle it is: 2.495°C, In the same way for 50°C -60 °C, during Hot cycle 11.56°C and for cold cycle 3.77°C. Finally, it is observed that based on the experimental study on the charging and discharging of latent heat storage, due to the low thermal conductivity of Phase change material, the rate of heat transfer during discharging is very low and the time required for discharging of latent heat storage is longer compared to the time required for charging of latent heat storage due to low heat transfer rate between PCM and hot Temperature fluid (Water).

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Thermodynamic Analysis of Heat and Mass Transfer Enhancement for R134a-DMAC/CNT Vapour Absorption Refrigeration System

Kathiravan¹,

Karthikeyan²,

Mariappan³

et al. 2014

AMM

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The objective of this paper is to study thermodynamic analysis of R134a-DMAC and R134a-DMAC/CNT vapour absorption system and compare this both system performance. This investigation for R134a-DMAC is carried out based on the correlations available in the literature. The change of thermophysical properties for R134a-DMAC/CNT is predicted and is incorporated in the pure R134a-DMAC correlations. The analysis is carried for 1 kW evaporator capacity and effectiveness of solution heat exchanger is taken as 0.8. Variations in the performance parameters of the system with and without nano fluids are studied against various operating temperatures of generator, absorber and different volume concentration. The result of this theoretical study shows that co-efficient of performance (COP) of system with CNT nano fluid is improved as well as the absorber capacity also increased due to enhanced heat transfer of nano fluids. It also observed that the performance achieved by the pure R134a-DMAC at the elevated generator temperature could be achieved at low generator temperature using R134a-DMAC/CNT.

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Microstructural investigation of SiC reinforced Al 6063 surface composites prepared by friction stir processing

Natarajan¹,

Devanathan²,

Giri³

et al. 2021

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Experimental investigation of the solar distiller using nano-black paint for different water depths

Chandrika

Isaac

Daniel

et al. 2022

Materials Today: Proceedings

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A Study on Laser Beam Machining and Prediction of Surface Finish and Material Removal Rate by Fuzzy Clustering

Devanathan¹,

Giri²,

Dhandapani³

et al. 2022

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C. T. Muthiah

Experimental investigation of the charging and discharging of latent heat in phase change material (PCM) based aluminium tube heat exchanger

Thermodynamic Analysis of Heat and Mass Transfer Enhancement for R134a-DMAC/CNT Vapour Absorption Refrigeration System

Microstructural investigation of SiC reinforced Al 6063 surface composites prepared by friction stir processing

Experimental investigation of the solar distiller using nano-black paint for different water depths

A Study on Laser Beam Machining and Prediction of Surface Finish and Material Removal Rate by Fuzzy Clustering

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