Towable subsea oil and gas production systems

The invention claimed is: 1. A towable pipeline bundle for installation underwater at a subsea oil or gas production site, the bundle comprising: two or more flowlines for carrying production fluid bundled in parallel relation; at least one rigid buoyancy pipe extending along and supporting said bundled flowlines, which buoyancy pipe has an internal buoyancy chamber and at least one port for introducing fluid into the buoyancy chamber; one or more spacer frames supporting and locating the flowlines relative to the buoyancy pipe and spacing each flowline from each other flowline, the or each spacer frame being attached to and extending transversely from or within the buoyancy pipe; and wherein the buoyancy pipe is of polymer-composite material and is arranged to have positive buoyancy in seawater when its buoyancy chamber contains a fluid less dense than seawater. 2. The bundle of claim 1 , wherein at least one of the bundled flowlines has a pipe-in-pipe arrangement. 3. The bundle of claim 1 further comprising a power and/or data line for conveying power or data along the bundle. 4. The bundle of claim 1 , wherein the buoyancy pipe surrounds the bundled flowlines as a carrier pipe. 5. The bundle of claim 4 , wherein an endpiece, end wall or side wall of the buoyancy pipe is penetrated by the bundled flowlines within the buoyancy pipe or by connections leading to the bundled flowlines within the buoyancy pipe. 6. The bundle of claim 1 , wherein the buoyancy pipe lies beside the bundled flowlines as a backbone pipe or a core pipe. 7. The bundle of claim 6 , wherein the buoyancy pipe lies between the bundled flowlines as a core pipe. 8. The bundle of claim 1 , wherein the buoyancy chamber contains pressurised air. 9. The bundle of claim 1 , wherein at least one of said ports penetrates a side wall of the buoyancy pipe. 10. The bundle of claim 1 , wherein at least one of said ports penetrates an endpiece that closes an end of the buoyancy pipe. 11. The bundle of claim 1 , wherein the buoyancy pipe is terminated by at least one end wall of polymer-composite material that is integral with or bonded to a side wall of the buoyancy pipe. 12. A towable unit comprising a towable pipeline bundle for installation underwater at a subsea oil or gas production site, wherein the bundle is attached to at least one towhead, the bundle comprising: two or more flowlines for carrying production fluid bundled in parallel relation; at least one rigid buoyancy pipe extending along and supporting said bundled flowlines, which buoyancy pipe has an internal buoyancy chamber and at least one port for introducing fluid into the buoyancy chamber; and one or more spacer frames supporting and locating the flowlines relative to the buoyancy pipe and spacing each flowline from each other flowline, the or each spacer frame being attached to and extending transversely from or within the buoyancy pipe; wherein the buoyancy pipe is of polymer-composite material and is arranged to have positive buoyancy in seawater when its buoyancy chamber contains a fluid less dense than seawater. 13. The unit of claim 12 , wherein: the buoyancy pipe is anchored to the towhead to provide a load path between the buoyancy pipe and the towhead; and the bundled flowlines are decoupled from that load path. 14. A subsea installation comprising the bundle of claim 1 . 15. A method of installing a towable pipeline unit underwater at a subsea oil or gas production site, the method comprising: using a rigid polymer-composite buoyancy pipe of the unit to support bundled flowlines of the unit for carrying production fluid, each flowline being supported and located relative to the buoyancy pipe, and spaced from each other flowline, by one or more spacer frames attached to and extending transversely from or within the buoyancy pipe; introducing a fluid less dense than seawater into an internal buoyancy chamber of the buoyancy pipe to confer substantially neutral buoyancy on the unit at a towing depth in seawater; towing the unit to the production site at the towing depth; and lowering the unit onto the seabed at the production site. 16. The method of claim 15 further comprising applying auxiliary buoyancy to one or more towheads at one or both ends of the buoyancy pipe. 17. The method of claim 15 further comprising lowering the unit to the seabed by replacing at least some of the fluid in the buoyancy chamber with a denser fluid. 18. The method of claim 17 further comprising fully or partially filling the buoyancy chamber with seawater or a heavier-than-seawater fluid or applying external ballast to the buoyancy pipe.