Multi-cylinder Otto-cycle engine and method for operating the same

The invention claimed is: 1. A method, comprising: during cylinder deactivation, closing a throttle flap of a deactivated cylinder of an engine; maintaining actuation of each of an inlet valve and an outlet valve of the deactivated cylinder; and actuating a rotatable sleeve of the deactivated cylinder to fluidly connect an outlet duct to an associated combustion chamber via a first gas flow duct even when the outlet valve is closed, the rotatable sleeve housing a spark plug. 2. The method as claimed in claim 1 , wherein actuating the rotatable sleeve of the deactivated cylinder to fluidly connect the outlet duct to the associated combustion chamber via the first gas flow duct comprises actuating the rotatable sleeve of the deactivated cylinder to connect the first gas flow duct and a second gas flow duct to one another and to the associated combustion chamber and fluidly connect an inlet duct to the associated combustion chamber via the second gas flow duct even when the inlet valve is closed. 3. The method as claimed in claim 1 , wherein the rotatable sleeve of the deactivated cylinder is actuated by being rotated through a predetermined angle about its longitudinal axis in a through hole of the deactivated cylinder. 4. The method as claimed in claim 1 , further comprising: during cylinder activation, opening the throttle flap of the deactivated cylinder; maintaining actuation of each of the inlet valve and the outlet valve of the deactivated cylinder; and actuating the rotatable sleeve of the deactivated cylinder to block the first gas flow duct from the associated combustion chamber. 5. The method as claimed in claim 1 , wherein actuating the rotatable sleeve to fluidly connect the outlet duct to the associated combustion chamber via the first gas flow duct comprises rotating the rotatable sleeve from a default position to a rotated position. 6. The method as claimed in claim 5 , wherein rotating the rotatable sleeve from the default position to the rotated position comprises rotating the rotatable sleeve from the default position where the rotatable sleeve blocks fluid communication between the first gas flow duct and the associated combustion chamber to the rotated position where a port of the rotatable sleeve aligns with the first gas flow duct, thereby fluidly connecting the outlet duct to the associated combustion chamber via the first gas flow duct. 7. The method as claimed in claim 4 , further comprising, during cylinder deactivation, suspending spark ignition in the deactivated cylinder via the spark plug and, during cylinder activation, activating spark ignition in the previously-deactivated cylinder via the spark plug.