R. Ajith Krishnan scite author profile

One of the most critical innovations in the solar energy conversion is the use of concentrators for generating power from a smaller area of the cell. The thermal management has an exceptional role in the concentrated photovoltaic (CPV) cell, without which the operating temperature will increase owing to the thermal degradation. In the present study, a prototype of low CPV with single‐cell configuration using a Fresnel lens and a manual tracker with geometrical concentration ratio of up to 25 Suns is made. The performance of the CPV with passive cooling arrangements, such as heat sink and loop heat pipes (LHPs), is analyzed under real‐time outdoor conditions. The results obtained infer that the LHP‐based cooling system has brought down the average temperature rise above ambient to 37.8°C from 54.16°C and 72.6°C in the heat sink and bare CPV systems, respectively. Also, the LHP managed to reject the heat to the surrounding with an average thermal resistance of 1.005°C/W, which is the least when compared with the heat sink. Apart from the instabilities caused by the interference of clouds, the CPV with the LHP cooling system could generate 10% more power output than the one with a heat sink.

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The effect of heating area orientation on flow boiling performance in microchannels heat sink under subcooled condition

Krishnan

Balasubramanian

Suresh

2017

International Journal of Heat and Mass Transfer

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Spatial orientation effects on flow boiling performances in open microchannels heat sink configuration under a wide range of mass fluxes

Balasubramanian

Krishnan

Suresh

2018

Experimental Thermal and Fluid Science

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Transient Flow Boiling Performance and Critical Heat Flux Evaluation of Al₂O₃-Water Nanofluid in Parallel Microchannels

Balasubramanian¹,

Krishnan²,

Suresh³

2018

j nanofluids

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R. Ajith Krishnan

Experimental investigation of the effect of heat sink orientation on subcooled flow boiling performance in a rectangular microgap channel

An experimental study on thermal management of concentrated photovoltaic cell using loop heat pipe and heat sink

The effect of heating area orientation on flow boiling performance in microchannels heat sink under subcooled condition

Spatial orientation effects on flow boiling performances in open microchannels heat sink configuration under a wide range of mass fluxes

Transient Flow Boiling Performance and Critical Heat Flux Evaluation of Al₂O₃-Water Nanofluid in Parallel Microchannels

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R. Ajith Krishnan

Experimental investigation of the effect of heat sink orientation on subcooled flow boiling performance in a rectangular microgap channel

An experimental study on thermal management of concentrated photovoltaic cell using loop heat pipe and heat sink

The effect of heating area orientation on flow boiling performance in microchannels heat sink under subcooled condition

Spatial orientation effects on flow boiling performances in open microchannels heat sink configuration under a wide range of mass fluxes

Transient Flow Boiling Performance and Critical Heat Flux Evaluation of Al2O3-Water Nanofluid in Parallel Microchannels

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Product

Resources

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Transient Flow Boiling Performance and Critical Heat Flux Evaluation of Al₂O₃-Water Nanofluid in Parallel Microchannels