@Article{hmt.12.11,
AUTHOR = {Mohammed Yunus, Mohammad S. Alsoufi},
TITLE = {DEVELOPMENT OF A HEAT PIPE AND GREY BASED TAGUCHI  METHOD FOR MULTI-OUTPUT OPTIMIZATION TO IMPROVE  THERMAL PERFORMANCE USING HYBRID NANOFLUIDS},
JOURNAL = {Frontiers in Heat and Mass Transfer},
VOLUME = {12},
YEAR = {2019},
NUMBER = {1},
PAGES = {1--8},
URL = {http://www.techscience.com/fhmt/v12n1/53180},
ISSN = {2151-8629},
ABSTRACT = {Swift cooling systems, improved microprocessor chips, processors’ performance and power usage have increased production of an enormous amount 
of heat and high operating temperatures due to excess heat flux density in the field of microelectronics. A rapid cooling of electronic circuits and heat 
dissipation for the same size of pipe with the present technology as nano size circuits critically generate high heat flux beyond 100 W/cm2 is currently 
the challenging task with which we are presented. Cooling in the form of heat transfer should be managed using both thermal conductivity (evaporation) 
and phase transition (condensation) between the two solid interfaces due to the higher amount of heat fluxes, high heat carrying capacity in a smaller 
size of heat exchangers as well as the heat pipe. A comprehensive knowledge of this mechanism is yet to be achieved, despite the fact that a heat pipe 
operates against gravity and a high heat carrier capability. In this article, a detailed study of the performance of a heat pipe (temperature gain and heat 
transfer capability) under the influence of various working parameters such as working fluid, a wick structure, thermal properties, heat input and 
applications of the field is carried out in order to increase the cooling capability of the heat pipe. Also, the optimum level of various working parameters 
on the thermal performance of a heat pipe using a Taguchi-Grey analysis has been presented followed by ANOVA and confirmation tests.},
DOI = {10.5098/hmt.12.11}
}