A method for checking a measurement of pressure in a fuel tank, implemented in a vehicle having a fuel tank and a fuel vapor breather circuit including: a filter, a tank isolation valve interposed between the tank and the filter, and a purge line, connected to the filter, downstream thereof, a pressure sensor, and a purge valve. The method includes, when the purge valve is closed: measuring a value of the pressure in the tank when the isolation valve is closed, then measuring a temporal extreme value for the pressure in the purge line following an opening of the isolation valve, and determining, from the measured values, that there is an anomaly in the measured pressure in the tank.

An electric power plant includes at least one electric machine operable as a generator when rotated by a piston engine. The electric power plant includes a control system for interrupting the fuel supply of the piston engine in response to a need to interrupt power supply from the electric machine, and for reactivating the fuel supply in response to a need to reactivate the power supply. The control system is configured to keep the electric machine connected to voltage when the fuel supply of the piston engine is interrupted so as to operate the electric machine as an electric motor for rotating the piston engine. As the electric machine and the piston engine are rotating when the power supply from the electric machine is interrupted, the reactivation of the power supply can be fast.

An electric power plant includes at least one electric machine operable as a generator when rotated by a piston engine. The electric power plant includes a control system for interrupting the fuel supply of the piston engine in response to a need to interrupt power supply from the electric machine, and for reactivating the fuel supply in response to a need to reactivate the power supply. The control system is configured to keep the electric machine connected to voltage when the fuel supply of the piston engine is interrupted so as to operate the electric machine as an electric motor for rotating the piston engine. As the electric machine and the piston engine are rotating when the power supply from the electric machine is interrupted, the reactivation of the power supply can be fast.

Methods and systems are provided for adjusting engine idle-stop based on operation of an on-board generator. In one example, during operation of the generator to power an external load, a method may include inhibiting engine shut-down based on input from a user.

Methods and systems are provided for determining an extent of clogging of a canister filter included in a fuel vapor storage canister of a vehicle. In one example, a method comprises determining an extent to which the canister filter is clogged based on an output of an exhaust gas sensor, and adjusting one or more parameters related to purging of the fuel vapor storage canister as a function of the extent to which the canister filter is clogged. In this way, canister lifetime may be improved, and release of undesired evaporative emissions to atmosphere may be reduced or avoided.

Systems and methods for operating a driveline of a hybrid vehicle are described. In one example, a torque of an engine is adjusted in response to an error between an actual electric machine torque and a minimum electric machine torque plus an offset torque. The reduction of engine torque may be performed when a driveline is operating in a speed control mode.

A lower limit setting portion of a fuel pump control system sets a lower limit value depending on an engine operating mode. For example, it sets a duty ratio of 0% as the lower limit value, when the engine operating mode is in a STOP mode in a turned-on condition of an ignition switch. A duty-ratio calculating portion carries out a feedback control in order that an actual fuel pressure comes closer to a target fuel pressure by use of the lower limit value and calculates a duty ratio for driving a fuel pump by the feedback control. An abnormal condition determining portion determines an abnormal condition based on the duty ratio and pump current. The abnormal condition determining portion further determines based on a remaining fuel amount whether the abnormal condition is caused by a disconnection or whether the abnormal condition is caused by an idling operation of the fuel pump due to fuel shortage.

A carbon monoxide poison prevention system comprising: a system smartphone application; a system website functionality; hardware comprising a Bluetooth enabled smart carbon monoxide sensor; hardware comprising a portable carbon monoxide prevention system; and a module vehicle carbon monoxide prevention system, hardware comprising a building carbon monoxide prevention system or a combination of both module and hardware.

A controller for an internal combustion engine includes processing circuitry configured to execute: a dither control process of operating fuel injection valves to designate at least one of cylinders as a lean combustion cylinder, in which an air-fuel ratio is leaner than a stoichiometric air-fuel ratio, and to designate at least another one of the cylinders as a rich combustion cylinder, in which an air-fuel ratio is richer than the stoichiometric air-fuel ratio; and an idle-time limiting process of causing an absolute value of a difference between the air-fuel ratio in the lean combustion cylinder and the air-fuel ratio in the rich combustion cylinder to be smaller when the internal combustion engine is idling than when the internal combustion engine is not idling.

A controller for an internal combustion engine includes processing circuitry configured to execute: a dither control process of operating fuel injection valves to designate at least one of cylinders as a lean combustion cylinder, in which an air-fuel ratio is leaner than a stoichiometric air-fuel ratio, and to designate at least another one of the cylinders as a rich combustion cylinder, in which an air-fuel ratio is richer than the stoichiometric air-fuel ratio; and an idle-time limiting process of causing an absolute value of a difference between the air-fuel ratio in the lean combustion cylinder and the air-fuel ratio in the rich combustion cylinder to be smaller when the internal combustion engine is idling than when the internal combustion engine is not idling.