Side-channel blower for an internal combustion engine

What is claimed is: 1. A side-channel blower for an internal combustion engine, the side-channel blower comprising: a flow housing; an impeller comprising a rotary axis and being configured to rotate in the flow housing; a housing wall configured to radially surround the impeller; a drive unit configured to drive the impeller; impeller blades arranged in a radially outer region of the impeller, the impeller blades being configured to open in a radially outward direction; a radial gap arranged between the impeller and the housing wall; an inlet; an outlet; two flow channels configured to connect the inlet to the outlet and to be fluidically connected to one another via intermediate spaces between the impeller blades, a respective one of the two flow channels being respectively formed axially opposite to the impeller blades in the flow housing; and an interruption zone arranged between the outlet and the inlet, the interruption zone being configured to interrupt the two flow channels in a peripheral direction, wherein, the impeller blades, as seen from a cross section of a plane on which the rotary axis lies, each comprise a V-shaped cross-section so that, in a direction of rotation of the impeller, the impeller blades extend at an angle from the rotary axis in a direction of the respective one of the two flow channel respectively arranged opposite to the impeller blades. 2. The side-channel blower as recited in claim 1 , wherein the impeller blades are inclined in the direction of rotation of the impeller by 5° to 20°. 3. The side-channel blower as recited in claim 1 , wherein, the impeller blades each comprise a radially outer end region and an intermediate region which adjoins the radially outer end region on a radially inner side of the radially outer end region, and the radially outer end region of each of the impeller blades is formed to be inclined in the direction of rotation of the impeller with respect to the intermediate region. 4. The side-channel blower as recited in claim 3 , wherein, the radially outer end region of the impeller blades is inclined by 5° to 20° in the direction of rotation of the impeller with respect to a radial direction, and the intermediate region of the impeller blades is inclined by 5° to 20° against the direction of rotation of the impeller with respect to the radial direction. 5. The side-channel blower as recited in claim 3 , wherein, the impeller blades are further configured, as seen in the cross section of the plane on which the rotary axis lies, to comprise a first leg and a second leg which are joined together via a connection, and further comprising: partition walls arranged at a height of the connection between the first leg and the second leg, the partition wall being configured to extend radially over the intermediate region of the impeller blades that adjoins the radially outer end region. 6. The side-channel blower as recited in claim 1 , wherein, the radial gap is arranged between the radially outer end region of the impeller blades and the housing wall, the radial gap radially surrounds the impeller, and the radial gap is 0.03 to 0.1 times a diameter of the impeller in a region of the two flow channels. 7. The side-channel blower as recited in claim 1 , wherein, the two flow channels comprise a cross section, and the outlet is configured to extend tangentially from each of the two flow channels in the flow housing and to comprise a circular cross section which substantially corresponds to the cross section of the two flow channels.