System and methods for a high temperature radiator heat absorber

1 . A method, comprising: adjusting a radiator control valve into a first position to flow coolant only through a first zone of a radiator containing phase change material (PCM) and not through a second zone of the radiator not containing phase change material; and adjusting the radiator control valve into a second position to flow coolant only through the second zone of the radiator and not the first zone. 2 . The method of claim 1 , further comprising adjusting the radiator control valve into a third position between the first and second positions to flow coolant to both the first zone and second zone of the radiator. 3 . The method of claim 1 , wherein the radiator control valve is a three-way valve in fluidic communication with the first zone and second zone of the radiator, and a coolant inlet of the radiator, where the coolant inlet is positioned upstream of the first zone and second zone. 4 . The method of claim 1 , wherein the first and second zones each comprise a plurality of hollow tubes for conducting coolant through the radiator, and wherein flowing coolant through the first zone comprises flowing coolant through one or more of the tubes in only the first zone, and flowing coolant through the second zone comprises flowing coolant through one or more of the tubes in only the second zone. 5 . The method of claim 4 , wherein one or more heat conductive fins are physically coupled to each of the plurality of tubes. 6 . The method of claim 5 , wherein the PCM is included within the heat conductive fins of the first zone only. 7 . The method of claim 1 , wherein the adjusting the radiator control valve into each of the first and second positions is performed via an electronic controller responsive to a temperature of the coolant estimated based on an output from a temperature sensor positioned upstream of the radiator and downstream of an engine. 8 . The method of claim 7 , wherein adjusting the radiator control valve into the second position is responsive to one or more of a temperature of the coolant temperature increasing above a first threshold and the temperature of the coolant decreasing below a second threshold, the second threshold being greater than the first threshold. 9 . The method of claim 8 , wherein adjusting the radiator control valve into the first position is responsive to one or more of the temperature of the coolant increasing above the second threshold and the temperature of the coolant decreasing below a third threshold, the third threshold being lower than the first threshold. 10 . The method of claim 1 , wherein a melting temperature of the PCM is less than a boiling point of the coolant. 11 . The method of claim 1 , wherein the radiator control valve is a passive wax thermostat valve, wherein the position of the valve is adjusted from the second position to the first position in response to coolant temperature at the valve increasing above a non-zero threshold. 12 . A radiator, comprising: a first set of coolant tubes, each tube of the first set encased with a phase change material (PCM); a second set of coolant tubes, each tube of the second set not encased with the PCM; and a valve disposed within an inlet tank of the radiator and in fluid communication with a coolant inlet of the radiator, the valve fluidly separating the first and second set of coolant tubes. 13 . The radiator of claim 12 , wherein the valve divides the inlet tank into a first portion in fluid communication with tube inlets of the first set of cooling tubes and a second portion in fluid communication with tube inlets of the second set of cooling tubes. 14 . The radiator of claim 12 , wherein the valve is adjustable between a first position communicating coolant from the coolant inlet to only the first set of coolant tubes and a second position communicating coolant from the coolant inlet to only the second set of coolant tubes. 15 . The radiator of claim 12 , wherein a the second set of coolant tubes further comprise a plurality of heat conductive fins coupled to exterior surfaces of one or more adjacent coolant tubes of the second set of coolant tubes, where the fins are spaced away from one another to form air passages through which air flows perpendicularly to a flow of coolant in the radiator. 16 . The radiator of claim 12 , wherein the valve is a passive thermostatic valve comprising a temperature sensitive element and wherein the position of the valve is adjusted in response to changes in coolant temperature at the valve. 17 . The radiator of claim 12 , wherein the PCM extends fully between exterior surfaces of adjacent coolant tubes of the first set of coolant tubes and the PCM physically couples all coolant tubes of the first set of coolant tubes to one another. 18 . A cooling system comprising: an engine; a pump for circulating coolant in the cooling system; a radiator comprising two zones, a first zone containing a phase change material (PCM) and a second zone not containing PCM, the radiator further comprising a radiator control valve for selectively controlling coolant flow to each of the first and second zones; and a controller with computer readable instructions for: adjusting a position of the radiator control valve to a first position and flowing coolant only to the first zone and not the second zone, in response to one or more of a temperature of the coolant increasing above a first threshold and decreasing below a second threshold, the second threshold being less than the first threshold; and adjusting the position of the radiator control valve to a second position and flowing coolant only to the second zone and not the first zone, in response to one or more of a the temperature of the coolant increasing above a third threshold, the third threshold being greater than the second threshold but less than the first threshold, and decreasing below the first threshold. 19 . The cooling system of claim 18 , wherein computer readable instructions further include instructions for adjusting a position of the temperature control valve to a first position and flowing coolant through the radiator bypass in response to the temperature of the coolant decreasing below the first threshold. 20 . The cooling system of claim 18 , wherein the radiator further comprises a coolant inlet in fluidic communication with the cooling system and the radiator for flowing coolant from outside the radiator into an inlet tank of the radiator, the inlet tank being in fluidic communication with the first zone and second zone and wherein the radiator control valve is positioned in the inlet tank of the radiator and is in fluidic communication with the coolant inlet, first zone, and second zone.