Downhole tool deployment assembly with improved heater removability and methods of employing such

The invention claimed is: 1. A downhole tool deployment assembly, said assembly comprising: a heater with a tubular heater body having an internal cavity configured to receive a heat source; a tubular heat conducting member configured to surround the tubular heater body leaving an annular clearance between said conducting member and said heater body, wherein the tubular heat conducting member does not extend along the entire length of the tubular heater body; a collar mounted adjacent to the region of the assembly where the tubular heat conducting member ends, wherein the collar is configured to prevent access to the annular clearance between the tubular heat conducting member and the tubular heater body; an eutectic/bismuth based alloy covering extending over the collar and at least a portion of the tubular heater body and the tubular heat conducting member, and whereby only the alloy holds the heater and the tubular heat conducting member together until the alloy is melted; and whereby once the eutectic/bismuth based alloy has melted and slumped, the heater can be retrieved from the heat conducting member through said clearance. 2. The assembly of claim 1 , wherein the collar is mounted on the tubular heater body. 3. The assembly of claim 1 , wherein the collar extends from a first diameter at a first end thereof to a second, larger diameter at a second end thereof. 4. The assembly of claim 1 , wherein the alloy is at least partially enclosed within an insulating sleeve. 5. The assembly of claim 4 , wherein the insulating sleeve comprises one or more openings in a region adjacent to the collar. 6. The assembly of claim 4 , wherein the insulating sleeve comprises one or more weakened points in the region adjacent to the collar; said weakened points being configured to fail before the rest of the remaining sleeve. 7. A method of deploying a downhole tool within an oil/gas well, said method comprising: delivering into a target region of an oil/gas well a tool deployment assembly according to claim 1 ; activating the heater to melt the eutectic/bismuth alloy layer; allowing the alloy to cool and secure the tubular heat conducting member in position within the oil/gas well to form the downhole tool; retrieving the heater from the oil/gas well. 8. A downhole tool deployment assembly, said assembly comprising: a heater with a tubular heater body having an internal cavity configured to receive a heat source, wherein the tubular heater body comprises an up-hole section and a downhole section that are separated by a point of weakness; a collar mounted adjacent to the point of weakness, wherein the collar is configured to cover the point of weakness; and a eutectic and/or bismuth based alloy covering extending over the collar and at least a portion of both the up-hole section and the downhole section of the tubular heater body, and whereby the alloy holds the up-hole and downhole sections of the tubular heater body together until the alloy is melted. 9. The assembly of claim 8 , wherein the collar extends from a first diameter at a first end thereof to a second, larger diameter at a second end thereof. 10. The assembly of claim 8 , wherein the alloy is at least partially enclosed within an insulating sleeve. 11. The assembly of claim 10 , wherein the insulating sleeve comprises one or more openings in a region adjacent to the collar. 12. The assembly of claim 10 , wherein the insulating sleeve comprises one or more weakened points in the region adjacent to the collar; said weakened points being configured to fail before the rest of the insulating sleeve. 13. A method of deploying a downhole tool within an oil/gas well, said method comprising: delivering into a target region of an oil/gas well a tool deployment assembly according to claim 8 ; activating the heater to melt the eutectic/bismuth alloy layer; allowing the alloy to cool and secure the downhole section of the tubular heating body in position within the oil/gas well to form the downhole tool; retrieving the up-hole section of the tubular heater body from the oil/gas well. 14. The assembly of claim 1 , 2 , 3 or 4 , wherein the tubular heat conducting member is formed from aluminum. 15. The assembly of claim 1 , 2 , 3 or 4 further comprising a skirt portion located at the end of the tubular heat conducting member remote from the collar. 16. The assembly of claim 1 , 2 , 3 or 4 further comprising an end plate located at the end of the tubular heat conducting member remote from the collar. 17. The assembly of claim 1 , 2 , 3 or 4 , further comprising releasable fixing means to supplement the holding together of the heater and the tubular heat conducting member until the alloy is melted. 18. The assembly of claim 1 , 2 , 3 or 4 , wherein the internal cavity of the tubular heater body contains a chemical reaction heat source. 19. The assembly of claim 1 , 2 , 3 or 4 , wherein the inner walls of the tubular heater body are provided with a layer of refractory material. 20. A method of deploying a by-pass conduit, such as a straddle, within an oil/gas well, said method comprising: deploying a downhole tool within an oil/gas well using the method of claim 7 or 13 ; providing a length of tubing with eutectic/bismuth based alloy mounted on the outer wall of said tubing; delivering the tubing onto the downhole tool; heating the tubing so as to melt said alloy; and allowing the eutectic/bismuth based alloy to cool and secure the tubing in position so as to form a by-pass conduit within the oil/gas well. 21. The method of claim 20 , wherein the alloy provided on the tubing is in the form of an annular packer. 22. The method of claim 20 , wherein the tubing is heated using a heater located within the tubing. 23. The method of claim 22 , wherein the heater comprises a chemical heat source. 24. The method of any of claims 21 or 22 , wherein the heater is retrieved once the alloy has cooled. 25. The method of claim 20 wherein the heater is retrieved once the alloy has cooled. 26. A method of sealing an oil/gas well, said method comprising: delivering into a target region of an oil/gas well a tool deployment assembly according to claim 1 or 8 ; activating the heater to melt the eutectic/bismuth alloy layer; allowing the alloy to cool and secure the downhole section of the tubular heating body in position within the oil/gas well to form a seal within the target region; retrieving the up-hole section of the tubular heater body from the oil/gas well. 27. The assembly of claim 8 , 9 , or 11 , further comprising a skirt portion located at the end of the tubular heat conducting member remote from the collar. 28. The assembly of claim 8 , 10 , or 12 , further comprising an end plate located at the end of the downhole tubular section remote from the collar. 29. The assembly of claim 8 , 9 , or 10 , further comprising releasable fixing means to supplement the holding together of the up-hole and downhole sections of the tubular heater until the alloy is melted. 30. The assembly of claim 8 , 11 , or 12 , wherein the internal cavity of the tubular heater body formed by the up-hole and downhole sections contains a chemical reaction heat source. 31. The assembly of claim 8 , 9 , or 10 , wherein the inne