Thermal management and multi-objective optimization of an air-cooled heat sink based on flat miniature-heat-pipe arrays

[1] Gunnasegaran P(2010)The effect of geometrical parameters on heat transfer characteristics of microchannels heat sink with different shapes Int Commun Heat Mass Transf 37 1078-1086

[2] Mohammed HA(2020)Liquid cooling module incorporating a metal foam and fin hybrid structure for high power insulated gate bipolar transistors (IGBTs) Appl Therm Eng 173 115230-6853

[3] Shuaib NH(2019)Effects on thermal performance enhancement of pin-fin structures for insulated gate bipolar transistor (IGBT) cooling in high voltage heater system Int J Therm Sci 146 106106-248

[4] Saidur R(2021)Employing a new micro-spray model and (MWCNTs-SWCNTs)-H Energy Rep 7 6844-93

[5] Lee J(2022)O nanofluid on Si-IGBT power module for energy storage: a numerical simulation Appl Therm Eng 201 117718-11589

[6] Ki S(2020)Thermal performance of insulated gate bipolar transistor module using microchannel cooling base plate Renew Energy 147 239-633

[7] Seo D(2023)Experimental investigation of loop heat pipe with a large squared evaporator for multi-heat sources cooling Int J Therm Sci 191 108375-679

[8] Kim J(2019)Comparison of cooling performance of nanofluid flows in mini/micro-channel stacked double-layer heat sink and single-layer micro-channel heat sink Int J Therm Sci 135 83-2955

[9] Nam Y(2022)Investigation of a rectangular heat pipe radiator with parallel heat flow structure for cooling high-power IGBT modules J Therm Anal Calorim 147 11577-1970

[10] Fei D(2014)CFD analysis of (TiO Int J Heat Mass Transf 73 627-682

[1] Gunnasegaran P(2010)The effect of geometrical parameters on heat transfer characteristics of microchannels heat sink with different shapes Int Commun Heat Mass Transf 37 1078-1086

[2] Mohammed HA(2020)Liquid cooling module incorporating a metal foam and fin hybrid structure for high power insulated gate bipolar transistors (IGBTs) Appl Therm Eng 173 115230-6853

[3] Shuaib NH(2019)Effects on thermal performance enhancement of pin-fin structures for insulated gate bipolar transistor (IGBT) cooling in high voltage heater system Int J Therm Sci 146 106106-248

[4] Saidur R(2021)Employing a new micro-spray model and (MWCNTs-SWCNTs)-H Energy Rep 7 6844-93

[5] Lee J(2022)O nanofluid on Si-IGBT power module for energy storage: a numerical simulation Appl Therm Eng 201 117718-11589

[6] Ki S(2020)Thermal performance of insulated gate bipolar transistor module using microchannel cooling base plate Renew Energy 147 239-633

[7] Seo D(2023)Experimental investigation of loop heat pipe with a large squared evaporator for multi-heat sources cooling Int J Therm Sci 191 108375-679

[8] Kim J(2019)Comparison of cooling performance of nanofluid flows in mini/micro-channel stacked double-layer heat sink and single-layer micro-channel heat sink Int J Therm Sci 135 83-2955

[9] Nam Y(2022)Investigation of a rectangular heat pipe radiator with parallel heat flow structure for cooling high-power IGBT modules J Therm Anal Calorim 147 11577-1970

[10] Fei D(2014)CFD analysis of (TiO Int J Heat Mass Transf 73 627-682