Method and system for hydraulic communication with target well from relief well

The invention claimed is: 1. A system for establishing hydraulic flow from a relief wellbore to a target wellbore, the system comprising: a latch assembly carried by a tubular string; a non-rotational packer carried by the tubular string; a perforating gun carried by the tubular string; and a radially extending lug carried by the non-rotational packer and extending through at least one slot longitudinally formed in the non-rotational packer, thereby constraining actuation of the non-rotational packer to axial movement and transmitting torque from the tubular string above the non-rotational packer, through the non-rotational packer, to the latch assembly carried by the tubular string below the non-rotational packer. 2. The system of claim 1 , further comprising: a casing string extending along at least part of the length of the relief wellbore; the casing string including a latch coupling disposed adjacent a portion of the target wellbore; the latch assembly carried at a distal end of the tubular string; the perforating gun disposed above the latch assembly along the tubular string; and the non-rotational packer disposed on the tubular string above the perforating gun. 3. The drilling system of claim 1 , wherein the latch assembly comprises a key housing having at least one circumferentially distributed, axially extending key window through which a spring operated latch key is radially outwardly biased, each latch key having an outward facing key profile; and the latch coupling comprises a tubular casing section having a latch profile formed along an inner surface of the tubular casing. 4. The drilling system of claim 3 , wherein the latch profile comprises one or more grooves axially spaced from one another and one or more sets of recesses radially spaced from one another on the inner surface of the tubular casing. 5. The drilling system of claim 3 , wherein the latch assembly is engaged with the latch coupling so that the key profile of at least one of the latch keys engages the latch profile, thereby positioning a charge in the perforating gun to face radially toward the first wellbore. 6. The system of claim 1 , wherein the perforating gun comprises a tubular body disposed along an axis of the tubing tool string; at least one charge carried by the tubular body and oriented to face outward from the body along a select radius. 7. The system of claim 6 , wherein the perforating gun comprises a plurality of charges longitudinally aligned along a portion of an axial length of the tubular body, the plurality of charges oriented to face outward from the body along the select radius. 8. The system of claim 6 , wherein the perforating gun comprises a plurality of charge sets, each set comprising a plurality of charges longitudinally aligned along a portion of an axial length of the tubular body, the plurality of charges of a set oriented to face outward from the body along a select radius. 9. The system of claim 1 , wherein the non-rotational packer comprises a packer mandrel having a seal element slidingly disposed thereon between an upper compression member and a lower compression member; and a radially movable slip assembly having a cam surface and an axially movable cam assembly having a cam surface generally disposed to cooperate with the cam surface of the slip assembly. 10. The system of claim 2 , wherein the portion of the second well is drilled to be axially offset from and substantially parallel to a portion of the first well. 11. The system of claim 6 , further comprising: a firing head located along the tubular string. 12. The system of claim 1 , further comprising a lower extension section separating the latch assembly from the perforating gun and an upper extension section separating the non-rotational packer from the perforating gun. 13. A system for establishing hydraulic flow from a relief wellbore to a target wellbore, the system comprising: a casing string extending along at least part of the length of the relief wellbore; the casing string including a latch coupling disposed adjacent a portion of the target wellbore; a latch assembly carried by a tubular string disposed in the casing string, the latch assembly comprises a key housing having at least one circumferentially distributed, axially extending key window through which a spring operated latch key is radially outwardly biased, each latch key having an outward facing key profile; a non-rotational packer carried by the tubular string, the non-rotational packer comprises a packer mandrel having a seal element slidingly disposed thereon between an upper compression member and a lower compression member; a radially movable slip assembly having a cam surface and an axially movable cam assembly having a cam surface generally disposed to cooperate with the cam surface of the slip assembly; a radially extending lug carried by the packer and extending through at least one slot longitudinally formed in the packer, thereby constraining actuation of the packer to axial movement; and a perforating gun carried by the tubular string, the perforating gun comprises a tubular body disposed along an axis of the tubing tool string; and a plurality of charges longitudinally aligned along a portion of an axial length of the tubular body, the plurality of charges oriented to face outward from the body along a select radius, wherein the latch assembly is carried at a distal end of the tubular string; the perforating gun is disposed above the latch assembly along the tubular string; and the non-rotational packer is disposed on the tubular string above the perforating gun such that the radially extending lug carried by the non-rotational packer transmits torque applied to the tubular string from above the non-rotational packer to the perforating gun and latch assembly below the non-rotational packer. 14. The system of claim 13 , further comprising: a firing head located along the tubular string, a lower extension section separating the latch assembly from the perforating gun and an upper extension section separating the non-rotational packer from the perforating gun. 15. The system of claim 2 or 13 , further comprising a first well having an axially extending section; a second well having an axially extending section substantially parallel with but spaced apart from the axially extending section of the first well, the axially extending section of the second well having the casing string disposed therein. 16. A method of establishing fluid communication between a first wellbore and a second wellbore in a formation, the method comprising: positioning a tubing string carrying a perforating gun and a non-rotational packer in the second wellbore upstream of a target location for perforation; determining at least one tubing string parameter associated with the perforating gun while in the upstream position; urging the tubing string downstream in the second wellbore until a change in the tubing string parameter is identified; applying torque to the tubing string above the non-rotational packer and through a radially extending lug carried by the non-rotational packer to a latch assembly carried by the tubing string below the non-rotational packer until an increase in torque is identified thereby securing the perforating gun in a radial position; setting the non-rotational packer by applying an axial force to the non rotational packer; and discharging the perforating gun in the direction of the first wellbore. 17. The method of claim 16 , further comprising: drilling the second wellbore in the formation so that at least a p