Wireline hydraulic driven mill bottom hole assemblies and methods of using same

What is claimed is: 1. A bottom hole assembly for running on a wireline into production tubing of a wellbore, the bottom hole assembly comprising: an upper end having a wireline connector releasably secured to the wireline; a first packer disposed below the wireline connector; a first drain sub having a first drain sub port in fluid communication with an upper bore of the bottom hole assembly; an axial compression device disposed below the first packer, the axial compression device having an axially compressed position and an axially extended position; a hydraulically actuated motor disposed below the axial compression device; a ported sub disposed below the motor, the ported sub having a sub port; and a cutting tool disposed below the ported sub, the cutting tool operatively associated with the motor, said axial compression device selectively applying a force to said cutting tool when said cutting tool is operated by said motor. 2. The bottom hole assembly of claim 1 , wherein the axial compression device comprises a compensator. 3. The bottom hole assembly of claim 2 , further comprising a rupture disk sub disposed below the first packer and above the motor. 4. The bottom hole assembly of claim 3 , further comprising a screen sub disposed below the rupture disk sub and above the motor. 5. The bottom hole assembly of claim 4 , wherein the ported sub comprises a junk basket. 6. The bottom hole assembly of claim 1 , wherein the axial compression device comprises an electric tractor operatively associated with a slack joint. 7. The bottom hole assembly of claim 6 , further comprising a rupture disk sub disposed below the first packer and above the motor. 8. The bottom hole assembly of claim 1 , further comprising a second packer disposed below the axial compression device and above the motor. 9. The bottom hole assembly of claim 8 , further comprising a second drain sub disposed below the first packer and above the axial compression device, the second drain sub having a second drain sub port in fluid communication with the upper bore of the bottom hole assembly. 10. The bottom hole assembly of claim 9 , further comprising a third drain sub disposed above the second packer and below the second drain sub, the third drain sub having a third drain sub port in fluid communication with a lower bore of the bottom hole assembly. 11. The bottom hole assembly of claim 10 , wherein the ported sub comprises a junk basket. 12. The bottom hole assembly of claim 10 , wherein a rupture disk sub is disposed in fluid communication with the upper bore of the bottom hole assembly between the first drain sub port and the second drain sub port. 13. The bottom hole assembly of claim 12 , further comprising a screen sub disposed below the rupture disk sub. 14. The bottom hole assembly of claim 13 , further comprising a jar tool disposed below the wireline connector and above the first drain sub. 15. The bottom hole assembly of claim 14 , wherein the axial compression device comprises an electric tractor operatively associated with a slack joint. 16. A method of removing an object disposed within production tubing of a wellbore, the method comprising the steps of: (a) running on a wireline a bottom hole assembly into a production tubing of a wellbore, the bottom hole assembly having a packer disposed below a drain sub, the drain sub having a port for fluid communication from the production tubing to a bore of the bottom hole assembly, an axial compression device disposed below the packer, the axial compression device having a an axially compressed position and an axially extended position, a hydraulically actuated motor disposed below the axial compression device, a ported sub disposed below the motor, the ported sub having a sub port in fluid communication with the bore of the bottom hole assembly, and a cutting tool disposed below the ported sub, the cutting tool being operatively associated with the motor; (b) landing the cutting tool on an object disposed in the production tubing; (c) actuating the packer to isolate a portion of the production tubing, the isolated portion of the production tubing being located below the packer and being in fluid communication with a production tubing port disposed in the production tubing, the production tubing port being in fluid communication with an annulus of the wellbore; (d) pumping fluid down the production tubing, into the port of the drain sub and down the bore of the bottom hole assembly; (e) actuating the motor by flowing the fluid through the motor and out of the sub port of the ported sub; and (f) rotating the cutting tool by actuation of the motor causing the cutting tool to mill the object; wherein during said rotating the cutting tool, the axial compression device is moved from the compressed position toward the expanded position to exert an axial force on said cutting tool when rotated by said motor. 17. The method of claim 16 , wherein the fluid flowing out of the sub port of the ported sub is flowed up the production tubing to the production tubing port and exits the production tubing through the production tubing port. 18. A method of removing an object disposed within production tubing of a wellbore, the method comprising the steps of: (a) running on a wireline a bottom hole assembly into a production tubing of a wellbore, the bottom hole assembly having a packer disposed below a drain sub, the drain sub having a port for fluid communication from the production tubing to a bore of the bottom hole assembly, an axial compression device disposed below the packer, the axial compression device having a compressed position and an extended position, a hydraulically actuated motor disposed below the axial compression device, a ported sub disposed below the motor, the ported sub having a sub port in fluid communication with the bore of the bottom hole assembly, and a cutting tool disposed below the ported sub, the cutting tool being operatively associated with the motor; (b) landing the cutting tool on an object disposed in the production tubing; (c) actuating the packer to isolate a portion of the production tubing, the isolated portion of the production tubing being located below the packer and being in fluid communication with a production tubing port disposed in the production tubing, the production tubing port being in fluid communication with an annulus of the wellbore; (d) pumping fluid down the production tubing, into the port of the drain sub and down the bore of the bottom hole assembly; (e) actuating the motor by flowing the fluid through the motor and out of the sub port of the ported sub; and (f) rotating the cutting tool by actuation of the motor causing the cutting tool to mill the object; wherein said rotating the cutting tool, the axial compression device is moved from the compressed position toward the expanded position; wherein the fluid flowing out of the sub port of the ported sub is flowed up the production tubing to the production tubing port and exits the production tubing through the production tubing port; wherein during step (f), a portion of the fluid flowing up the production tubing enters a junk basket disposed in the bottom hole assembly to capture debris carried in the fluid. 19. A method of removing an object disposed within production tubing of a wellbore, the method comprising the steps of: (a) running on a wireline a bottom hole assembly into a production tubing of a wellbore, the bottom hole assembly having a first packer disposed belo