A. Baskaran’s research while affiliated with P.A. College of Engineering and other places

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Publications (5)


Block diagram of a refrigeration system.
P–H diagram refrigeration system.
Exergy Efficiency as a Function of Evaporating Temperature.
Exergy Efficiency and Condensing Temperature.
Compressor efficiency defect as a function of evaporator temperature.

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Second law assessment of di methyl ether and its mixtures in domestic refrigeration system
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January 2023

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184 Reads

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3 Citations

A. Baskaran

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Dimethyl ether (DME) and its blend of refrigerants (R429A, R435A, and R510A) are considered in this study's second law analysis as potential replacements for R134a. The performance of various refrigerants in a vapour compression refrigeration system is examined using the Design package CYCLE D. The software REFPROP 9.0 is used to extract all of the thermal and physical parameters of DME and its blend of refrigerants. The Second law performance parameters such as Efficiency Defects, Entropy generation and ExergyEfficiency are discussed. The refrigerants R429A and R510A are more energy efficient than R134a across a condensing temperature range of 30 to 55 °C at − 10 °C evaporation temperature. R134a was exceeded by R429A and R510A in terms of exergetic efficiency by 2.08 and 0.43%, respectively. In comparison to other losses in different components, the compressor's exergy loss is larger at 37–40% of the total exergy loss. By employing RE170 and its blends, the Vapour Compression Refrigeration System often performs better under the second law than R134a. The result shows that the efficiency defects in the compressor are the largest, followed by the condenser and evaporator. Thus, the design improvement of a compressor is of at most importance to improve the system performance by lowering the overall irreversibility.

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Influence of capillary tube length on the performance of domestic refrigerator with eco-friendly refrigerant R152a

August 2022

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406 Reads

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6 Citations

A. Baskaran

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The household heating and cooling system often use the capillary device. The use of the helical capillary eliminates the need for lightweight refrigeration devices in the system. Capillary pressure is noticeably affected by the capillary geometric parameters, such as length, mean diameter, and pitch. This paper is concerned with the effects of the capillary length on the performance of the system. Three separate length capillary tubes were used in the experiment. The data on R152a were studied under various conditions to assess the impact of varying the length. Maximum COP is obtained at an evaporator temperature of − 12 °C and capillary length of 3.65 m. The result is drawn that the system performance enhances when the capillary length is improved to 3.65 m when compared to 3.35 m and 3.96 m. As a result, as the capillary length increases up to a specific amount, the system's performance improves. The findings from the experiment were compared with those from the computational fluid dynamics (CFD) analysis.


Investigation on the Performance of Domestic Refrigerator with Zirconium Oxide-R134a Nanorefrigerant

March 2022

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418 Reads

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10 Citations

Journal of Nanomaterials

This study investigates the performance of nanorefrigerants (R134a-ZrO 2) in a domestic refrigerator at a concentration of 0.2 g/l without changing the components. Nanoparticles of ZrO 2 of 0.2 g/L concentration with particle size 1-10 nm and 140 g of R134a have been charged, and investigations were carried out. Energy consumption and pull-down tests were conducted to investigate the performance of the refrigerator. The performance parameters like refrigeration capacity, compressor power, discharge temperature, coefficient of performance, and energy consumption were investigated for the nanorefrigerant (R134a-ZrO 2), and the results were compared with base refrigerant R134a. The pull downtime, energy consumption, and discharge temperature are reduced with increased COP and compressor power when the system is operated with R134a-ZrO 2 nanorefrigerant. Also, the thermophysical properties of the nanorefrigerant (R134a-ZrO 2) are calculated and analyzed for the various volume fraction of nanoparticles.


Exergy Performance Investigation of Eco-Friendly Refrigerant Mixtures as an Alternative to R134a in a Domestic Refrigerator

February 2022

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310 Reads

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2 Citations

In this paper, various eco-friendly refrigerant mixtures R430A, R436A, R436B, R435A, and R510A used in vapour compression refrigeration systems are considered for this study. All of them have zero ODP and very low GWP. On the basis of exergy features, the efficiency of various working fluids in vapour compression refrigeration cycles was compared. The exergy efficiency of mixtures is evaluated for various evaporating temperatures ranging from -40°C to -5°C at a constant condensation temperature of 45°C. The variation of exergy is also analyzed for various condensation temperatures ranging from 25°C to 60°C at a constant evaporating temperature of -10°C. The exergy losses in various components are computed and presented in Grassmann diagrams for a cooling load of 1 kW. The results indicate that all the investigated alternative refrigerant mixtures have higher exergy efficiency than R134A. The maximum exergy performance is 39.72% observed for the mixture R435A at an evaporation temperature of -30°C, and this value is 9.89% higher than that of R134a.The results also show that the highest and lowest exergy losses have occurred in the compressor and evaporator.


Fabrication of hybrid (AA6061/SiCp/B4C) composites using FSP method and analysing the thermal behaviour in the weld region

May 2021

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44 Reads

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8 Citations

Materials Today Proceedings

The aim of this effort is to use friction stir processing to make an aluminium-based hybrid composite (FSP). Because of their high strength-to-weight ratio, aluminium alloys are widely used in the nautical, concrete, transportation, and aircraft industries. Friction strengthened metal matrix composites (PRMMC) is made from A6061 and its reinforcements B4C and SiCp particles. particles strengthened metal matrix composites (PRMMC) was produced by friction stir processing (FSP). The optical microscopy, hardness tests used to characterize the samples. The results indicated that the uniform distribution of SiCp/B4C elements in A6061 matrix by FSP process and heat treated this can be advance the mechanical possessions of samples. Therefore, pretending the mechanical performance of a prepared new specimen is very important to assess the protection of the plate.

Citations (4)


... When compared to the other kinds of suction lines, they found that the concentric line is the most effective. Afterwards, using refrigerant R152a, Baskaran et al. [17] examined the impact the capillar length of tube on the domestic refrigerator. They used three kinds of lengths of the capillary. ...

Reference:

Impact of the Capillary Tube Length on the Refrigeration Cycle Exergy
Influence of capillary tube length on the performance of domestic refrigerator with eco-friendly refrigerant R152a

... The nano lubricant application in nanorefrigerants and nanolubricants in 'Heating, Ventilation, and Air Conditioning' (HVAC) systems has become inevitable for lubrication and heat transfer purposes so as to achieve high efficiency and low friction and wear [3][4][5]. Generally, the lubricant oils increase the performance of the compressors and it can work across varying temperatures, minimizing wear and tear on system components, cooling moving parts, and providing overall system benefits [6,7]. Viscosity and thermal conductivity are the two most important features of lubricants that tend to influence its pumping power and pressure drop When the lubricant oils possess high thermal conductivity, then it produces a superior heat transfer performance [8][9][10]. ...

Investigation on the Performance of Domestic Refrigerator with Zirconium Oxide-R134a Nanorefrigerant

Journal of Nanomaterials

... www.nature.com/scientificreports/ δ com Efficiency defect in compressor δ con Efficiency defect in condensor δ ev Efficiency defect in evaporator η x Exergy efficiency S gen Entropy generation (kW/K) R134a is effectively used in domestic refrigerators (GWP 1430) as an alternative to CFC, which has high ODP and GWP 1,2 . The Kyoto Protocol from 1997 designated it as a greenhouse gas; thus, its production and use will end within the next decades. ...

Exergy Performance Investigation of Eco-Friendly Refrigerant Mixtures as an Alternative to R134a in a Domestic Refrigerator

... Ande et al. [32] explored Al-7075/SiC composites, noting a twofold increase in hardness compared to the base material. Subramani et al. [33] utilized B 4 C and SiC reinforcements on an AA6061 matrix to fabricate MMCs through FSP, resulting in a homogeneous distribution of reinforcement particles, enhanced microhardness, and tensile properties, along with improved wear resistance. Kurt et al. [34] investigated AA1050 FSPed joints with and without SiC particles, revealing three times the hardness in joints with SiC particles. ...

Fabrication of hybrid (AA6061/SiCp/B4C) composites using FSP method and analysing the thermal behaviour in the weld region
  • Citing Article
  • May 2021

Materials Today Proceedings