Air duct damper and installation components

What is claimed is: 1. A flow control member comprising: a body portion configured to be coupled to a damper plate, the body portion including a curved periphery; and a plurality of projections extending from the curved periphery of the body portion, the plurality of projections defining a flow space between adjacent projections; wherein the plurality of projections vary in size and alignment along the curved periphery; wherein the plurality of projections comprise: a first projection with a first size, the first size defined between the curved periphery and a distal end of the first projection, a second projection with a second size defined between the curved periphery and a distal end of the second projection, the second size greater than the first size, and a third projection with a third size defined between the curved periphery and a distal end of the third projection, the third size less than the second size; and wherein the second projection is positioned between the first projection and the third projection; wherein variations in the size and alignment of the plurality of projections along the curved periphery are configured to result in differently sized flow spaces between adjacent projections as the plurality of projections flex upon engagement with an air duct wall. 2. The flow control member of claim 1 , wherein a length of the plurality of projections varies along the curved periphery. 3. The flow control member of claim 1 , wherein the plurality of projections comprise a flexible material and are configured to flex upon engagement with the air duct wall. 4. The flow control member of claim 3 , wherein the plurality of projections are configured to resist flexing due to flow past the flow control member. 5. The flow control member of claim 4 , wherein the body portion has a first stiffness greater than a second stiffness of the plurality of projections. 6. The flow control member of claim 1 , wherein the body portion is ring-shaped. 7. An installation kit for use in installing a flow control member to a damper plate, the installation kit comprising: a flow control member configured to be coupled to the damper plate, the flow control member comprising: a body portion being annular in shape and configured to be coupled to the damper plate, the body portion including a central opening, a plurality of projections extending from a curved periphery of the body portion, the plurality of projections continuously increasing in size along the curved periphery from a first location along the curved periphery to a central point and continuously decreasing in size along the curved periphery from the central point to a second location along the curved periphery, the first location and the second location being on opposite sides of the central point, the plurality of projections defining a flow space between adjacent projections; and at least one of a fastener or an adhesive configured to couple the flow control member to the damper plate, the central opening separate from an aperture for the fastener; wherein variations in sizes and alignment of the plurality of projections along the curved periphery are configured to result in differently sized flow spaces between adjacent projections as the plurality of projections flex upon engagement with an air duct wall. 8. A flow control assembly comprising: a flow control member, the flow control member comprising: a body portion configured to be coupled to a damper plate and defining a circular periphery, and a plurality of flexible projections extending from the periphery, the plurality of projections continuously increasing in size along the curved periphery from a first location along the curved periphery to a central point and continuously decreasing in size along the curved periphery from the central point to a second location along the curved periphery, the first location and the second location being on opposite sides of the central point, wherein the plurality of projections vary in alignment along the circular periphery; wherein variations in the size and alignment of the plurality of flexible projections are configured to result in differently sized flow spaces between adjacent flexible projections as the plurality of projections flex upon engagement with an air duct wall.