Cooling method with automated seasonal freeze protection

1. A method comprising:

• obtaining a coolant loop configured to circulate coolant therethrough and facilitate cooling at least one electronic component, wherein at least a portion of the coolant loop is exposed to outdoor ambient air temperature(s) during normal operation;
  
  providing at least one coolant tank comprising a first reservoir containing at least partially a first fluid, and a second reservoir containing at least partially a second fluid, the first fluid freezing at a lower temperature than the second fluid, the second fluid having superior cooling properties compared with the first fluid, and the first fluid and the second fluid being soluble fluids, the coolant within the coolant loop comprising at least the second fluid;
  
  providing multiple valves to selectively couple in fluid communication the at least one coolant tank to the coolant loop, the multiple valves comprising;
  
  a coolant diverter valve in the coolant loop and coupling the coolant loop to the first reservoir via a first reservoir inlet line;
  
  a first reservoir outlet valve associated with a first reservoir outlet line coupling the first reservoir directly to the coolant loop; and
  
  a second reservoir outlet valve associated with a second reservoir outlet line coupling the second reservoir directly to the coolant loop; and
  
  providing a controller to automatically control the multiple valves and vary the concentration level of the first fluid in the coolant within the coolant loop based on at least one of historical, current, or anticipated outdoor ambient air temperature(s) for a time of year, the controller automatically varying the concentration level of the first fluid in the coolant within the coolant loop by;
  
  automatically controlling the coolant diverter valve to controllably redirect a fractional amount of the coolant in the coolant loop into the first reservoir via the first reservoir inlet line; and
  
  commensurate with the redirecting of the fractional amount of the coolant, at least one of;
  
  increasing the concentration of the first fluid in the coolant by automatically controlling the first reservoir outlet valve to direct a commensurate amount of the first fluid in the first reservoir into the coolant loop as the fractional amount of the coolant is redirected into the first reservoir;
  
  ordecreasing the concentration of the first fluid in the coolant by automatically controlling the second reservoir outlet valve to direct a commensurate amount of the second fluid in the second reservoir into the coolant loop as the fractional amount of the coolant is redirected into the first reservoir; and
  
  wherein the controller further initiates fractional distillation of the coolant within the first reservoir to facilitate separating the first fluid into the first reservoir and the second fluid into the second reservoir, the fractional distillation resulting in boiling of the second fluid in the first reservoir, wherein second fluid vapor rises within the first reservoir, and passes via a vapor passageway between the first reservoir and the second reservoir into the second reservoir, leaving a higher concentration of the first fluid in the first reservoir.