Enrico Maria Latrofa scite author profile

This paper summarises the main results of a research work about the heat transfer enhancement and its theoretical estimation, in the two-phase thermal control with dielectric refrigerant fluids. The authors consider pool boiling applications at atmospheric conditions and without supplementary energy. Two methods are considered to enhance the heat transfer: the use of the finned surfaces and the natural re-circulation of the condensed fluid, pool boiling with controlled return (PBCR). First of all the purpose is to evaluate the possibility of a thermal dissipation comparable with the one obtainable by means of the boiling water at atmospheric pressure, about 1 MW/m2; secondly, to increase the knowledge about the burn-out incipience. A detailed experimental analysis of the burn-out incipience is performed using a single fin. Moreover the objective is to propose theoretical methods to estimate the critical heat flux related to finned surfaces as well as a possible approach to perform a 'nearly optimum' design of fins and fin arrays in pool boiling

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Periodic two-phase heat transfer coefficient in thermoelectric cooling mini evaporator

Filippeschi¹,

Latrofa²,

Salvadori³

2006

International Journal of Low-Carbon Technologies

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Enrico Maria Latrofa

Heat transfer enhancement in pool boiling of a refrigerant fluid with wire nets structures

The geyser effect in a two-phase thermosyphon

Upward and downward heat and mass transfer with miniature periodically operating loop thermosyphons

Analysis of the heat dissipation enhancement with finned surfaces in pool boiling of dielectric fluid

Periodic two-phase heat transfer coefficient in thermoelectric cooling mini evaporator

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