Hybrid evaporative-radiative cooling panels

What is claimed is: 1 . A cooling panel, comprising: a reflector layer; and an evaporative and infrared-emitting layer; wherein the cooling panel is configured to be in fluid communication with a heat exchanger, and wherein the cooling panel is further configured to cool a heat transfer fluid by way of both evaporative cooling and radiative cooling, the cooling panel also being configured such that the heat transfer fluid passes at least one of through or across the cooling panel and flows to the heat exchanger. 2 . The cooling panel of claim 1 , wherein the reflector layer comprises a solar-reflecting material. 3 . The cooling panel of claim 1 , wherein the evaporative and infrared-emitting layer comprises a solar-transparent material. 4 . The cooling panel of claim 3 , wherein the solar-transparent material comprises at least one of a hydrogel or water. 5 . The cooling panel of claim 4 , wherein the hydrogel comprises a polyacrylamide hydrogel. 6 . The cooling panel of claim 1 , wherein the heat transfer fluid that passes at least one of through or across the cooling panel flows at least one of through or across the evaporative and infrared-emitting layer. 7 . The cooling panel of claim 6 , wherein the evaporative and infrared-emitting layer comprises at least one of water, a water film, or an infrared-emitting material flowing therethrough. 8 . The cooling panel of claim 1 , further comprising: a heat transfer fluid layer, wherein the reflector layer is disposed above the heat transfer fluid layer, wherein the evaporative and infrared-emitting layer is disposed above the reflector layer, wherein the heat transfer fluid layer is configured to be in fluid communication with the heat exchanger, and wherein the cooling panel is further configured to cool the heat transfer fluid that passes at least one of through or across the heat transfer fluid layer and flows to the heat exchanger. 9 . The cooling panel of claim 1 , further comprising: an insulation layer disposed above the evaporative layer. 10 . The cooling panel of claim 9 , wherein the insulation layer comprises a vapor-permeable, infrared-transparent, and solar-reflecting material. 11 . The cooling panel of claim 9 , wherein the insulation layer and the evaporative and infrared-emitting layer are formed as an integrated, single layer. 12 . A method of cooling, comprising: causing a heat transfer fluid to pass at least one of across or through a cooling panel; cooling the heat transfer fluid both by evaporative cooling and radiative cooling while the heat transfer fluid passes at least one of across or through the cooling panel; and directing the cooled heat transfer fluid to a condenser to at least one of desuperheat a material disposed in the condenser, sub-cool the condenser, or lower a temperature of the condenser. 13 . The method of claim 12 , wherein cooling the heat transfer fluid by evaporative cooling and radiative cooling further comprises: dissipating heat from the heat transfer fluid by thermal radiation; and dissipating heat from the heat transfer fluid by water evaporation. 14 . The method of claim 12 , further comprising: carrying out the cooling the heat transfer fluid both by evaporative cooling and radiative cooling while the heat transfer fluid passes at least one of across or through the cooling panel via the evaporative and infrared-emitting layer and the reflector layer of the cooling panel. 15 . The method of claim 14 , wherein the cooling of the heat transfer fluid both by evaporative cooling and radiative cooling includes emitting thermal radiation from the evaporative and infrared-emitting layer. 16 . The method of claim 14 , wherein the cooling of the heat transfer fluid both by evaporative cooling and radiative cooling includes evaporating fluid from the evaporative and infrared-emitting layer. 17 . The method of claim 14 , further comprising: carrying out the cooling the heat transfer fluid both by evaporative cooling and radiative cooling while the heat transfer fluid passes at least one of across or through the cooling panel via the insulation layer. 18 . The method of claim 17 , wherein the cooling of the heat transfer fluid both by evaporative cooling and radiative cooling further includes reflecting solar energy off of the insulation layer. 19 . The method of claim 17 , wherein the cooling of the heat transfer fluid both by evaporative cooling and radiative cooling further includes allowing at least some of the emitted thermal radiation from the evaporative and infrared-emitting layer and the evaporated fluid from the evaporative and infrared-emitting layer to pass through the insulation layer. 20 . The method of claim 14 , wherein an entirety of the heat transfer fluid to be cooled is provided to the cooling panel by the condenser. 21 . The method of claim 14 , wherein a first portion of the heat transfer fluid to be cooled is provided to the cooling panel by the condenser and a second portion of the heat transfer fluid to be cooled is provided to the cooling panel by a second fluid source different than the condenser.