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An air management system for a motorcycle including a first air channel and a second air channel. The first air channel defines a first passageway extending through a body of the motorcycle, the first passageway having an inlet located on a first side of the motorcycle and an outlet located under a

An air management system for a motorcycle including a first air channel and a second air channel. The first air channel defines a first passageway extending through a body of the motorcycle, the first passageway having an inlet located on a first side of the motorcycle and an outlet located under a seat of the motorcycle. The second air channel defines a second passageway passing through the body of the motorcycle, the second passageway having an inlet located on a second side of the motorcycle and an outlet in communication with an engine air inlet. The first and second passageway inlets are relatively symmetrically disposed relative to a longitudinal axis of the motorcycle. The first air passageway delivers cooling air to a radiator that is disposed beneath the motorcycle seat, while the second air passageway delivers air to the engine air inlet. An air filter is disposed in a terminal portion of the second air channel and is oriented relatively transverse to the motorcycle axis.

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An air management system for a motorcycle including a first air channel and a second air channel. The first air channel defines a first passageway extending through a body of the motorcycle, the first passageway having an inlet located on a first side of the motorcycle and an outlet located under a

An air management system for a motorcycle including a first air channel and a second air channel. The first air channel defines a first passageway extending through a body of the motorcycle, the first passageway having an inlet located on a first side of the motorcycle and an outlet located under a seat of the motorcycle. The second air channel defines a second passageway passing through the body of the motorcycle, the second passageway having an inlet located on a second side of the motorcycle and an outlet in communication with an engine air inlet. The first and second passageway inlets are relatively symmetrically disposed relative to a longitudinal axis of the motorcycle. The first air passageway delivers cooling air to a radiator that is disposed beneath the motorcycle seat, while the second air passageway delivers air to the engine air inlet. An air filter is disposed in a terminal portion of the second air channel and is oriented relatively transverse to the motorcycle axis. content of hydroxyl groups in the cellulose ester resin (A) and the content of hydroxyl groups in the cellulose ester resin (B) each being not more than 6% by weight, the remaining hydroxyl groups having been esterified with an organic acid excluding acetic acid. 2. The thermal transfer image-receiving sheet according to claim 1, wherein the organic acid is propionic acid and/or butyric acid. 3. The thermal transfer image-receiving sheet according to claim 1, wherein the receptive layer further comprises a compatible thermoplastic resin. 4. The thermal transfer image-receiving sheet according to claim 1, wherein the receptive layer comprises at least one plasticizer selected from the group consisting of phthalic acid plasticizers, phosphate plasticizers, polycaprolactones, and polyester plasticizers and the content of the plasticizer is not more than 15% by weight based on the total weight of the plasticizer and the resins constituting the receptive layer. 5. The thermal transfer image-receiving sheet according to claim 1, wherein the receptive layer comprises at least one release agent. 6. The thermal transfer image-receiving sheet according to claim 5, wherein the release agent comprises at least a modified silicone oil and/or a cured product thereof, a fluorosurfactant, and/or a silicone surfactant. 7. The thermal transfer image-receiving sheet according to claim 6, wherein the silicone surfactant is a polyether-modified silicone. 8. A print produced by forming an image on an image-receiving face of the thermal transfer image-receiving sheet according to claim 1 and then transferring a protective layer onto the image formed face. 9. A thermal transfer image-receiving sheet comprising: a substrate sheet; and a dye-receptive layer provided on at least one side of the substrate sheet, said dye-receptive layer containing, at least in its outermost surface portion, at least one polyether-modified silicone selected from the group consisting of polyether-modified silicones represented by formulae (B1), (B2), and (B3), said polyether-modified silicones having a siloxane content of 25 to 65% by weight: wherein polyether-modified silicones represented by formula (B1) are of grafting type, R represents H, an aryl group, or a straight-chain or branched alkyl group optionally substituted by a cycloalkyl group, m and n are each an integer of not more than 2000, and a and b are each an integer of 1 to 30; wherein polyether-modified silicones represented by formula (B2) are of end modification type, R represents H, an aryl group, or a straight-chain or branched alkyl group optionally substituted by a cycloalkyl group, m is an integer of not more than 2000, and a and b are each an integer of 1 to 30; and wherein polyether-modified silicones represented by formula (B3) are of main chain copolymerization type, R represents H, an aryl group, or a straight-chain or branched alkyl group optionally substituted by a cycloalkyl group, R1represents an aryl group or a straight-chain or branched alkyl group optionally substituted by a cycloalkyl group, m and n are each an integer of not more than 2000, and a and b are each an integer of 1 to 30. 10. The thermal transfer image-receiving sheet according to claim 9, wherein the weight ratio of ethylene oxide (EO) to propylene oxide (PO), EO/PO, in the polyether-modified silicones is 35/65 to 65/35. 11. The thermal transfer image-receiving sheet according to claim 9, wherein the polyether-modified silicone is contained in an amount of not more than 10% by weight based on 100 parts by weight of the resin component constituting the dye-receptive layer. 12. The thermal transfer image-receiving sheet according to claim 9, wherein the dye-receptive layer further comprises an epoxy-modified silicone and/or a methylstyrene-modified silicone. 13. The thermal transfer image-receiving sheet according to claim 9, wherein the polyether-modified silicone has an HLB value of not less than 9. 14.