Method for producing fresh water from saline water using solar energy

The invention claimed is: 1. A method for producing fresh water from saline water using solar energy, comprising: adding a saline water solution to a saline water solution basin of a solar still, exposing the saline water solution to sunlight and heat from a heat exchange coil of the solar still to evaporate water from the saline water solution, condensing the evaporated water with a distillation cooling coil of the solar still to form a fresh water distillate, and collecting the fresh water distillate in a distillate receptacle of the solar still, wherein the solar still comprises: the saline water solution basin, a transparent, inclined top cover attached to the saline water solution basin, a distillate collector, the distillate receptacle, a distillate flow sensor connected to the distillate collector or the distillate receptacle, a coolant, the heat exchange coil located in the saline water solution basin comprising a heat exchange coil inlet and heat exchange coil outlet, the distillation cooling coil located in or disposed on the transparent, inclined top cover comprising a distillation cooling coil inlet and a distillation cooling coil outlet; an expansion valve comprising: an expansion valve inlet connected to and located downstream of the heat exchange coil outlet, an expansion valve distillation cooling coil outlet connected to and located upstream of the distillation cooling coil inlet, and an expansion valve secondary cooling coil outlet; a secondary cooling coil comprising a secondary cooling coil inlet connected to and located downstream of the expansion valve secondary cooling coil outlet and a secondary cooling coil outlet; a compressor comprising a compressor inlet connected to and located downstream of the distillation cooling coil outlet and the secondary cooling coil outlet and a compressor outlet connected to and located upstream of the heat exchange coil inlet; a one or more temperature sensors; and a controller connected to the temperature sensors, the distillate flow sensor, the compressor, and the expansion valve; wherein the heat exchange coil, the expansion valve, the distillation cooling coil, the secondary cooling coil, and the compressor are fluidly connected such that the coolant flows from the compressor through the heat exchange coil to the expansion valve where it is flowed through either the distillation cooling coil back to the compressor or the secondary cooling coil back to the compressor without the coolant mixing with the distillate or the saline water solution; and wherein the controller receives inputs from the temperature sensors and the distillate flow sensor and provides outputs to control an amount of coolant that is flowed through the distillation cooling coil and an amount of coolant that is flowed through the secondary cooling coil, and an activity of the compressor. 2. The method of claim 1 , wherein the expansion valve of the solar still is a three-way valve. 3. The method of claim 2 , wherein the three-way valve regulates the amount of coolant that is flowed through the secondary cooling coil and the amount of coolant that is flowed through the distillation cooling coil based on the outputs provided by the controller. 4. The method of claim 1 , wherein the controller controls the amount of coolant that is flowed through the distillation cooling coil and the amount of coolant that is flowed through the secondary cooling coil and an activity of the compressor by operating the action of the expansion valve. 5. The method of claim 1 , wherein the controller controls the amount of coolant that is flowed through the distillation cooling coil and the amount of coolant that is flowed through the secondary cooling coil and an activity of the compressor by operating the action of the compressor. 6. The method of claim 1 , wherein the controller is capable of retaining a history of inputs and outputs. 7. The method of claim 1 , further comprising providing cooling for a structure or appliance with the secondary cooling coil. 8. The method of claim 7 , wherein the structure or appliance is equipped with at least one of the temperature sensors connected to the controller. 9. The method of claim 8 , further comprising providing the structure or appliance with a structure temperature or appliance temperature that is selected by an input of a structure temperature setpoint or appliance temperature setpoint. 10. The method of claim 9 , further comprising maintaining the structure temperature or appliance temperature to within 5° C. of the structure temperature setpoint or appliance temperature setpoint. 11. The method of claim 1 , wherein sufficient saline water solution is exposed to sunlight to produce the fresh water at an hourly distillate production rate during hours of low solar light or heat input and/or nighttime operation which is 50 to 100% of an hourly distillate production rate during hours of standard solar light or heat input and/or daytime. 12. The method of claim 1 , wherein sufficient saline water solution is exposed to sunlight to produce the fresh water at a weekly distillate production rate during weeks of low solar light or heat input and/or wintertime operation which is 50 to 100% of a weekly distillate production rate during weeks of standard solar light or heat input and/or summertime.