Methods and devices for casing and cementing wellbores

What is claimed is: 1. A pumpable casing plug for use in a wellbore with well fluids, the casing plug comprising: a housing comprising a body section, a first end section, and a second end section; wherein the first end section of the housing is the uphole end; wherein the housing is configured to be pumped through the wellbore in the well fluids; an insert defining a flow path configured, in response to fluid flow therethrough, to generate variable flow resistance to generate cyclic hydraulic loading in the well, thereby causing repeated extension and contraction of the casing string sufficient to reduce the drag force on the casing string thereby facilitating advancement of the casing string down the wellbore, wherein the insert is sized to be received in the body section of the housing; wherein the housing and the flow path in the insert together form a throughbore so that well fluids can be pumped through the casing plug; a tubular fishing neck connected to the first end section; and at least a first wiper supported on the first end section of the housing; wherein the body section of the housing is free of wipers. 2. The pumpable casing plug of claim 1 wherein the second end section of the housing is the downhole end and wherein the casing plug further comprises a tubular nose cone connected to the second end section. 3. The pumpable casing plug of claim 2 wherein the nose cone is wiper-free. 4. The pumpable casing plug of claim 1 wherein the flow path comprises: an inlet and an outlet; a jet chamber; a nozzle to direct fluid from the inlet into the jet chamber; first and second input channels diverging from the jet chamber; at least one vortex chamber continuous with the outlet and having first and second inlet openings; wherein the first input channel connects to the first inlet opening and the second input channel connects to the second inlet opening; a feedback-operated switch to direct fluid from the inlet alternately to the first and second input channels; and a feedback control circuit configured to receive fluid alternately from primary and secondary vortices in the vortex chamber and in response thereto to operate the switch. 5. The pumpable casing plug of claim 4 wherein first and second input channels and the first and second inlet openings of the vortex chamber are configured to direct fluid in opposite, tangential paths into the vortex chamber. 6. The pumpable casing plug of claim 4 wherein the first input channel and the first inlet opening in the at least one vortex chamber are configured to direct fluid flow into the vortex chamber along a tangential path to generate a primary vortex and wherein the second input channel and the second inlet opening of the vortex chamber are configured to direct fluid flow along a radial path into the vortex chamber to produce a secondary vortex that is opposite in direction and weaker in strength relative to the primary vortex. 7. The pumpable casing plug of claim 1 wherein the body section of the housing is a solid tubular member. 8. The pumpable casing plug of claim 1 wherein the body section of the housing is split transversely into first and second segments, wherein the outer diameter of the insert includes a circumferential rib having first and second axially-facing upward and downward shoulders, wherein the first and second segments of the body section of the housing have axially and oppositely facing end faces, wherein the axially-facing end faces of the first and second housing segments engage the first and second axially-facing upward and downward shoulders of the circumferential rib on the insert, and wherein the first and second segments of the body section of the housing are sized to engage the outer diameter of the insert in an interference fit. 9. The pumpable casing plug of claim 1 further comprising a rupture disk supported in the throughbore. 10. The pumpable casing plug of claim 1 wherein the second end section is the downhole end of the housing and wherein a second wiper is supported on the second end section of the housing. 11. The pumpable casing plug of claim 10 wherein the first wiper is nonmovably fixed to the first end section of the housing. 12. The pumpable casing plug of claim 11 wherein the first wiper is one of a first plurality of grouped wipers. 13. The pumpable casing plug of claim 12 wherein the second wiper is one of a second plurality of grouped wipers nonmovably fixed to the second end section of the housing. 14. The pumpable casing plug of claim 10 wherein the body section of the housing is split transversely into first and second segments, wherein the outer diameter of the insert includes a circumferential rib having first and second axially-facing upward and downward shoulders, wherein the first and second segments of the body section of the housing have axially and oppositely facing end faces, wherein the axially-facing end faces of the first and second segments of the body section of the housing are sized to engage the first and second axially-facing upward and downward shoulders of the circumferential rib on the insert, and wherein the first and second segments of the insert section of the housing are secured to the insert. 15. The pumpable casing plug of claim 14 wherein the first and second segments of the body section of the housing are cooperatively sized with the insert to engage the outer diameter of the insert in an interference fit. 16. The pumpable casing plug of claim 10 wherein the casing plug is drillable. 17. A pumpable casing plug for use in a wellbore with well fluids, the casing plug comprising: a housing comprising a body section, a first end section, and a second end section; wherein the first end section of the housing is the uphole end and the second end section of the housing is the downhole end; wherein the housing is configured to be pumped through the wellbore in the well fluids; an insert defining a flow path configured, in response to fluid flow therethrough, to generate variable flow resistance to generate cyclic hydraulic loading in the well, thereby causing repeated extension and contraction of the casing string sufficient to reduce the drag force on the casing string thereby facilitating advancement of the casing string down the wellbore, wherein the insert is sized to be received in the body section of the housing; wherein the housing and the flow path in the insert together form a throughbore so that well fluids can be pumped through the casing plug; a tubular nose-cone connected to the second end section, the nose cone being wiper-free; and at least a first wiper supported on the first end section of the housing; wherein the body section of the housing is free of wipers. 18. The pumpable casing plug of claim 17 further comprising a tubular fishing neck connected to the first end section. 19. The pumpable casing plug of claim 17 wherein the flow path comprises: an inlet and an outlet; a jet chamber; a nozzle to direct fluid from the inlet into the jet chamber; first and second input channels diverging from the jet chamber; at least one vortex chamber continuous with the outlet and having first and second inlet openings; wherein the first input channel connects to the first inlet opening and the second input channel connects to the second inlet opening; a feedback-operated switch to direct fluid from the inlet alternately to the first and second input channels; and a feedback control circuit configured to receive fluid alternately from primary and secondary