Method and apparatus for isolating and treating discrete zones within a wellbore

We claim: 1. An assembly for conducting a treatment operation in a wellbore, comprising: a tubing string; an unloader, wherein the unloader is actuated by a mechanical axial force provided by the tubing string for closing fluid communication between the unloader and the wellbore; a first packer; a second packer, wherein the first and second packers are actuated into engagement with the wellbore by the mechanical axial force for sealing an area of interest in the wellbore; an injection port disposed between the first and second packers for injecting a treatment fluid into the area of interest; and an anchor, wherein the anchor is actuated by the mechanical axial force for securing the assembly in the wellbore, wherein the mechanical axial force is a pull force applied to the unloader, the first packer, the second packer, and the anchor using the tubing string to thereby actuate the unloader, the first packer, the second packer, and the anchor. 2. The assembly of claim 1 , wherein the unloader is disposed below the tubing string, wherein the first and second packers are disposed below the unloader, and wherein the anchor is disposed below the first and second packers. 3. The assembly of claim 2 , wherein the tubing string is in fluid communication with the unloader, the first packer, and the injection port for supplying the treatment fluid into the area of interest. 4. The assembly of claim 3 , further comprising a plug disposed below the injection port, and a second unloader disposed below the plug and above the second packer, wherein the second unloader is actuated by the mechanical axial force to close fluid communication between the second unloader and the wellbore. 5. The assembly of claim 1 , wherein the injection port is formed from an erosion resistant material. 6. The assembly of claim 1 , wherein the injection port is formed from tungsten carbide. 7. The assembly of claim 1 , wherein the anchor comprises: a body; a slip coupled to the body; a cone coupled to the body, wherein the body is movable relative to the slip to direct the cone into engagement with the slip to actuate the slip into engagement with the wellbore; and a friction section operable to facilitate movement between the body and the slip. 8. The assembly of claim 7 , wherein the mechanical axial force moves the body relative to the slip. 9. The assembly of claim 7 , wherein the body includes a cam portion disposed on the outer surface of the body operable to limit the relative movement between the body and the slip. 10. The assembly of claim 1 , wherein the tubing string is a coiled tubing string. 11. The assembly of claim 1 , wherein the mechanical axial force is a tensile force. 12. An assembly for conducting a treatment operation in a wellbore, comprising: a tubing string; an unloader, wherein the unloader is actuated by a mechanical axial force provided by the tubing string for closing fluid communication between the unloader and the wellbore; a first anchor, wherein the first anchor is actuated by the mechanical axial force provided by the tubing string to secure the assembly in the wellbore; an injection port disposed below the first anchor for injecting a fluid into an area of interest in the wellbore; and a second anchor disposed below the injection port, wherein the second anchor is actuated by the mechanical axial force to secure the assembly in the wellbore, and wherein the mechanical axial force is a tensile force applied to the unloader, the first anchor and the second anchor to thereby actuate the first anchor and the second anchor into engagement with the wellbore. 13. The assembly of claim 12 , wherein the first and second anchors comprise: a body; a slip coupled to the body; a cone coupled to the body, wherein the body is movable relative to the slip to direct the cone into engagement with the slip to actuate the slip into engagement with the wellbore; and a friction section operable to facilitate movement between the body and the slip. 14. The assembly of claim 12 , wherein the first and second anchors are actuated by the mechanical axial force to close fluid communication between the first and second anchors and the wellbore. 15. The assembly of claim 14 , wherein the first and second anchors comprise: a body having a first port disposed through the body; a sleeve surrounding the body and having a second port disposed through the sleeve, wherein the body is movable relative to the sleeve to open and close fluid communication between the first and second ports. 16. The assembly of claim 12 , wherein the first anchor and the second anchor are actuated by the mechanical axial force to seal an area of interest in the wellbore. 17. The assembly of claim 16 , wherein the first and second anchors comprise: a body; and a packing element coupled to the body, wherein the packing element is operable to sealingly engage the wellbore. 18. The assembly of claim 12 , further comprising a plug disposed below the injection port and above the second anchor. 19. The assembly of claim 12 , wherein the tubing string is a coiled tubing string. 20. A method of treating an area of interest in a wellbore, comprising: positioning an assembly adjacent the area of interest using a tubing string; moving the tubing string in a first direction and then moving the tubing string in an opposite second direction to actuate the assembly, wherein the assembly includes an unloader that is actuated by a mechanical axial force provided by the tubing string for closing fluid communication between the unloader and the wellbore; applying the mechanical axial force to the assembly using the tubing string to secure the assembly in the wellbore and actuate a packing element of the assembly to seal the area of interest, wherein applying the mechanical axial force to the assembly includes pulling on the tubing string to place the assembly in tension and thereby actuate the packing element into engagement with the wellbore; and injecting a treatment fluid through the assembly and into the area of interest. 21. The method of claim 20 , further comprising releasing the mechanical axial force applied to the assembly, thereby releasing the assembly from a secured engagement to the wellbore. 22. The method of claim 21 , further comprising equalizing the pressure between the assembly and the wellbore above and below the area of interest. 23. The method of claim 22 , further comprising relocating the assembly adjacent a second area of interest. 24. The method of claim 20 , wherein the tubing string is a coiled tubing string. 25. A method of conducting a wellbore operation, comprising: lowering an assembly on a tubular string into a wellbore, wherein the assembly includes an unloader, a first packer, an injection port, a second packer, and an anchor; locating the injection port adjacent an area of interest in the wellbore; applying a mechanical axial force to the assembly using the tubular string, thereby securing the assembly into engagement with the wellbore and actuating the unloader, the first packer, the second packer, and the anchor into a set position, wherein applying the mechanical axial force to the assembly includes pulling on the tubular string to place the assembly in tension and thereby actuate the unloader, the first packer, the second packer, and the anchor into the set position to engage the wellbore; injecting a fluid throug