Octane separation system and operating method

The invention claimed is: 1. An engine method, comprising: forming a higher octane fuel and a lower octane fuel from a fuel in an externally filled fuel tank by separating components of the fuel with an octane level above a threshold from components of the fuel with an octane level below the threshold within a separator; delivering the high octane fuel or low octane fuel to a secondary fuel tank; returning fuel from the separator to the externally filled fuel tank based on an octane level of the returning fuel; selectively coupling the externally filled fuel tank and the secondary fuel tank to an engine in response to operating conditions. 2. The engine method of claim 1 , further comprising vaporizing one or more components within the separator, permeating vapor through a semi-permeable membrane, and condensing vapor downstream of the membrane. 3. The engine method of claim 1 , further comprising injecting low octane fuel into one or more air intake ports via port injector(s) and injecting high octane fuel into one or more engine cylinders via direct injector(s). 4. The engine method of claim 1 , further comprising increasing an amount of high octane fuel delivered to the engine and decreasing an amount of low octane fuel delivered to the engine in response to engine temperature being above a threshold, engine load being above a threshold, engine speed being below a threshold, an indication of engine vibration, an indication of engine knock, an engine torque demand being above a threshold, an intake manifold pressure being above a threshold, or some combination thereof. 5. The engine method of claim 1 , further comprising decreasing an amount of high octane fuel delivered to the engine and increasing an amount of low octane fuel delivered to the engine in response to engine temperature being below a threshold, engine load being below a threshold, engine speed being above a threshold, a cessation of engine vibration, a cessation of engine knock, an engine torque demand being below a threshold, an intake manifold pressure being below a threshold, or some combination thereof. 6. The engine method of claim 1 , further comprising increasing an amount of low octane fuel delivered to the engine or increasing an amount of high octane fuel delivered to the engine in response to injecting air into an exhaust system. 7. The engine method of claim 1 , further comprising terminating fuel separation in response to an octane level in the externally filled fuel tank being above or below a threshold. 8. The engine method of claim 1 , further comprising terminating fuel separation in response to a fuel level in the secondary fuel tank being above a threshold or a fuel level in the externally filled fuel tank being below a threshold. 9. The engine system of claim 1 , further comprising one or more valves and/or pumps for delivering a flow of fuel to a single set of fuel injectors from either the externally filled fuel tank or the secondary fuel tank, the valves and/or pumps actuated by a controller. 10. An engine method, comprising: delivering fuel with an octane level above a threshold to a secondary fuel tank; returning fuel with an octane level below a threshold to an externally filled fuel tank; and terminating fuel separation when an octane level in the externally filled fuel tank falls below a minimum threshold. 11. The engine method of claim 10 , further comprising terminating fuel separation in response to a fuel level in the externally filled fuel tank being below a threshold or a fuel level in the secondary fuel tank being above a threshold. 12. The engine method of claim 10 , further comprising increasing an amount of fuel delivered from the secondary fuel tank to an engine in response to an engine temperature being above a threshold, engine load being above a threshold, engine speed being below a threshold, an indication of engine vibration, an indication of engine knock, an engine torque demand being above a threshold, an intake manifold pressure being above a threshold, or some combination thereof. 13. The engine method of claim 10 , further comprising injecting fuel from the externally filled fuel tank into one or more air intake ports via port injectors, and injecting fuel from the secondary fuel tank into one or more engine cylinders via direct injectors. 14. The engine system of claim 10 , further comprising one or more valves and/or pumps for delivering a flow of fuel to a single set of fuel injectors from either the externally filled fuel tank or the secondary fuel tank, the valves and/or pumps actuated by a controller.