Adjusting a fuel on-board a vehicle

What is claimed is: 1. A fuel separation system, comprising: a fuel separator that comprises a first stage fuel separator and a second stage fuel separator and is configured to receive a fuel stream and separate the fuel stream, based on a volatility of the fuel stream, into a vapor stream defined by a first auto-ignition characteristic value and a first liquid stream defined by a second auto-ignition characteristic value, the second auto-ignition characteristic value greater than the first auto-ignition characteristic value, the first stage fuel separator configured to receive the fuel stream and separate the fuel stream, based on the volatility of the fuel stream, into the vapor stream defined by the first auto-ignition characteristic value and the first liquid stream defined by the second auto-ignition characteristic value, the second stage fuel separator configured to separate the vapor stream into an oxygenate stream and a compound stream; and a control system communicably coupled to the fuel separator and operable to receive an input from an engine, the input comprising an engine operating condition, the control system configured to adjust an operating parameter of the fuel separator, based at least in part on the engine operating condition, to vary at least one of the first or second auto-ignition characteristic values. 2. The fuel separation system of claim 1 , wherein the engine operating condition comprises an engine load, an engine torque, and engine speed, a fuel vapor-liquid ratio, a fuel vapor lock index, a fuel drivability index, a fuel T90 or T95 property, a fuel lubricity, a fuel viscosity, or an engine speed-torque ratio. 3. The fuel separation system of claim 1 , further comprising a heat exchanger fluidly coupled between a fuel input of the fuel stream and the fuel separator, the heat exchanger configured to transfer heat from the vapor stream to the fuel stream, and output a heated fuel stream to the fuel separator and a second liquid stream defined by the first auto-ignition characteristic value. 4. The fuel separation system of claim 3 , wherein the heat exchanger is configured to condense the vapor stream to the second liquid stream defined by the first auto-ignition characteristic value. 5. The fuel separation system of claim 3 , further comprising a heater coupled between the heat exchanger and the fuel separator and configured to receive the heated fuel stream and further heat the heated fuel stream. 6. The fuel separation system of claim 5 , further comprising a variable orifice fluidly coupled between the heat exchanger and the fuel separator. 7. The fuel separation system of claim 6 , wherein the control system is operatively coupled to control at least one of the heat exchanger, the heater, or the variable orifice to vary at least one of a temperature or a flow rate of at least one of the heated fuel stream, the vapor stream, the first liquid stream, or the second liquid stream. 8. The fuel separation system of claim 1 , wherein the fuel separator comprises a flash distillation separator. 9. The fuel separation system of claim 1 , wherein the second stage fuel separator is configured to direct the oxygenate stream to combine with the first liquid stream, and to direct the compound stream to the heat exchanger. 10. The fuel separation system of claim 1 , wherein the first auto-ignition characteristic value comprises a first research octane number (RON) or a first cetane number, and the second auto-ignition characteristic value comprises a second RON or a second cetane number. 11. A method for separating a fuel on-board a vehicle, comprising: receiving, at a control system of an on-board fuel separation system of a vehicle that comprises an engine, an engine operating condition; operating a fuel separator that comprises a first stage fuel separator and a second stage fuel separator of the on-board fuel separator at an operating parameter to separate a fuel stream into a vapor stream and a first liquid stream based on a volatility of the fuel stream, the vapor stream defined by a first auto-ignition characteristic value and the first liquid stream defined by a second auto-ignition characteristic value, the second auto-ignition characteristic value greater than the first auto-ignition characteristic value, wherein operating the fuel separator comprises: separating, with the first stage fuel separator, the heated fuel stream into the vapor stream defined by the first auto-ignition characteristic value and the first liquid stream defined by the second auto-ignition characteristic value, based on the volatility of the fuel stream, and separating, with the second stage fuel separator, the vapor stream into an oxygenate stream and a compound stream; adjusting, based at least in part on the engine operating condition, the operating parameter of the fuel separator to vary at least one of the first or second auto-ignition characteristic values; and operating the fuel separator of the on-board fuel separator at the adjusted operating parameter. 12. The method of claim 11 , wherein the engine operating condition comprises an engine load, an engine torque, and engine speed, a fuel vapor-liquid ratio, a fuel vapor lock index, a fuel drivability index, a fuel T90 or T95 property, a fuel lubricity, a fuel viscosity, or an engine speed-torque ratio. 13. The method of claim 11 , further comprising: supplying an unheated fuel stream and the vapor stream from the fuel separator to a heat exchanger; transferring heat from the vapor stream to the unheated fuel stream to heat the unheated fuel stream; supplying the heated fuel stream to the fuel separator; and supplying a second liquid stream defined by the first auto-ignition characteristic value from the heat exchanger. 14. The method of claim 13 , further comprising condensing, with the heat exchanger, the vapor stream to form the second liquid stream. 15. The method of claim 13 , further comprising: further heating the heated fuel stream; and supplying the further heated fuel stream to the fuel separator. 16. The method of claim 15 , further comprising circulating the heated fuel stream through a variable orifice fluidly coupled between the heat exchanger and the fuel separator. 17. The method of claim 16 , further comprising controlling, with the control system, at least one of the heat exchanger, the heater, or the variable orifice to vary at least one of a temperature or a flow rate of at least one of the heated fuel stream, the vapor stream, the first liquid stream, or the second liquid stream. 18. The method of claim 11 , further comprising: combining the oxygenate stream with the first liquid stream; and supplying the compound stream to the heat exchanger. 19. The method of claim 11 , wherein the first auto-ignition characteristic value comprises a first research octane number (RON) or a first cetane number, and the second auto-ignition characteristic value comprises a second RON or a second cetane number. 20. A vehicle system, comprising a vehicle; a fuel-powered internal combustion engine mounted in the vehicle; an on-board fuel separation system, comprising: a fuel separator that comprises a first stage fuel separator and a second stage fuel separator and is configured to receive a fuel stream and separate the fuel stream, based on a volatility of the fuel stream, into a vapor stream defined by a first auto-ignition characteristic value and a first liquid stream defined by a second auto-ignition characteristic value, the second auto-