Adjustable fracturing system

The invention claimed is: 1. An apparatus comprising: a fracturing system for routing fracturing fluid to a well, the fracturing system including: a fracturing manifold; a fracturing tree coupled to the fracturing manifold to enable receipt of the fracturing fluid from the fracturing manifold; and a hydraulically actuated adjustment joint including an inlet, an outlet, and a bore to transmit the fracturing fluid through the adjustment joint, wherein the adjustment joint also includes: a tubular member; a mandrel received in the tubular member; a fluid port extending through the tubular member and in fluid communication with an annular space between the tubular member and the mandrel to enable the adjustment joint to be varied in length by pumping another fluid into the annular space to facilitate coupling of the fracturing manifold to the fracturing tree; a seal positioned radially between the mandrel and the tubular member; and a piston positioned to set the seal in response to hydraulic pressure on the piston. 2. The apparatus of claim 1 , wherein the piston is positioned in a cavity between the mandrel and a collar of the tubular member and is retained within the cavity by a retaining ring. 3. The apparatus of claim 2 , comprising an additional collar positioned along the mandrel. 4. The apparatus of claim 3 , wherein the additional collar is threaded to an exterior surface of the mandrel. 5. The apparatus of claim 3 , wherein the retaining ring is threaded to an interior surface of the collar of the tubular member. 6. The apparatus of claim 5 , comprising an additional retaining ring that is threaded to the interior surface of the collar of the tubular member and that limits movement of the additional collar in at least one direction along the mandrel. 7. The apparatus of claim 1 , wherein the fracturing manifold is mounted on at least one skid to enable movement of the fracturing manifold and includes a plurality of valves to control flow of the fracturing fluid from the fracturing manifold to a plurality of fracturing trees. 8. The apparatus of claim 7 , wherein the plurality of valves includes a first valve to control flow of the fracturing fluid from the fracturing manifold to a first fracturing tree and a second valve to control flow of the fracturing fluid from the fracturing manifold to a second fracturing tree, and the adjustment joint is disposed in the fracturing manifold to enable variation in the distance between the first valve and the second valve. 9. The apparatus of claim 1 , wherein the fracturing manifold includes a valve to control flow of fracturing fluid from the fracturing manifold to the fracturing tree, and the adjustment joint is disposed between the valve and the fracturing tree to enable variation in the length of a fluid connection between the valve and the fracturing tree. 10. An apparatus comprising: a fracturing system for routing fracturing fluid to a well, the fracturing system including: a fracturing manifold; a fracturing tree coupled to the fracturing manifold to enable receipt of the fracturing fluid from the fracturing manifold; and an adjustment joint including an inlet, an outlet, and a bore to transmit the fracturing fluid through the adjustment joint, wherein the adjustment joint also includes: a tubular member; a mandrel received in the tubular member; a seal positioned radially between the mandrel and the tubular member; and a piston positioned to set the seal in response to hydraulic pressure on the piston. 11. The apparatus of claim 10 , wherein the piston is positioned within a cavity between the tubular member and the mandrel. 12. The apparatus of claim 11 , comprising: a seal carrier positioned within the cavity; and a fluid port positioned to allow another fluid to be pumped into the cavity between the seal carrier and the piston to drive the piston along the mandrel toward the seal. 13. The apparatus of claim 12 , comprising a retaining ring that retains the seal carrier and the piston in the cavity. 14. The apparatus of claim 10 , wherein the adjustment joint includes multiple seals set by the piston, and a spacer positioned along the mandrel axially between two of the multiple seals. 15. A method comprising: coupling an adjustment joint in a fracturing system including a fracturing manifold and a fracturing tree, wherein the adjustment joint includes a mandrel received in a tubular member; applying hydraulic pressure to a piston of the adjustment joint after the length of the adjustment joint has been increased to set a seal positioned between the mandrel and the tubular member; and adjusting a length of the adjustment joint to facilitate alignment of a connection between the fracturing manifold and the fracturing tree in a first dimension, wherein adjusting the length of the adjustment joint includes hydraulically actuating the adjustment joint to increase its length. 16. The method of claim 15 , wherein hydraulically actuating the adjustment joint includes injecting fluid into an annular space between the mandrel and the tubular member to increase the length of the adjustment joint. 17. The method of claim 16 , comprising threading a retaining ring into the tubular member to retain the piston within the adjustment joint. 18. The method of claim 15 , comprising: threading a collar on the mandrel of the adjustment joint; inserting the mandrel with the collar into the tubular member of the adjustment joint; and installing a retaining ring in the adjustment joint, wherein the retaining ring cooperates with the collar to retain the mandrel within the tubular member.