Shaped charge and method of modifying a shaped charge

1 . A method of manufacturing an enhanced shaped charge liner design for use in an oil/gas well perforator that is usable to form a desired hole shape in a rock formation, the method comprising comparing a desired hole shape to a library of known liner designs, the library including data relating to a hole shape formed by each liner design within the library; selecting a liner design that produces a closest hole shape to the desired hole shape; varying at least one parameter of the selected liner design to form a modified liner design; modelling the hole shape that the modified liner design produces; repeating the varying and modelling steps until a hole shape of the modified liner design converges towards the desired hole shape to thereby create a final liner design; and forming the enhanced shaped charge liner in accordance with the final liner design. 2 . The method as claimed in claim 1 , wherein the varying step comprises varying the thickness of the selected liner design. 3 . The method as claimed in claim 1 , wherein selected shaped charge liner design defines an internal apex angle, and the varying step comprises varying the internal apex angle of the selected liner design. 4 . The method as claimed in claim 1 , wherein the varying step comprises varying the liner material of the selected liner design. 5 . The method as claimed in claim 1 , wherein the library comprises data for a plurality of liner designs, and the hole shape each liner produces in a range of different rock strata, the method further comprising filtering the data for the plurality of liner designs against the rock conditions for a particular well environment. 6 . The method as claimed in claim 1 , wherein the forming step comprises forming the enhanced shaped charge liner to include: a cylindrically shaped lip member that is configured to engage the charge case, one end of the lip member defining a planar face having a diameter and an opposite end of the lip member defining a bottom face, a concavity extending between the planar and bottom faces of the lip member; and a projecting section defined by side walls projecting from the planar face of the lip member to define a linear apex end at a location that is spaced furthest from the planar face in a direction along a main liner axis that passes through the apex end and the lip member, the side walls having both inner surfaces and outer surfaces, wherein a maximum width of the outer surfaces at an end of the projecting section opposite the apex end extends in a direction perpendicular to the main liner axis and is less than the diameter of the planar face of the lip member such that flat surfaces are defined on the planar face of the lip member between all portions of the end of the projecting section and an outer perimeter of the lip member, the projecting section being rotationally symmetrical about the main liner axis such that the projecting section has discrete rotational symmetry about the main liner axis, a cross section of the projecting section in a plane perpendicular to the main liner axis defining a generally prismatic shape that is defined in part by two opposing arcuate walls. 7 . The method as claimed in claim 6 , wherein the forming step comprises forming the enhanced shaped charge liner such that the planar face of the lip member is circular, and side walls of the projecting section include opposing half cones that define the two opposing arcuate walls in cross-section. 8 . The method as claimed in claim 6 , wherein the forming step comprises forming the enhanced shaped charge liner such that the concavity of the lip member is contiguous with an aperture of the projecting section so as to form a single contiguous opening. 9 . The method as claimed in claim 6 , wherein the forming step comprises forming the enhanced shaped charge liner from a wrought metal. 10 . The method as claimed in claim 6 , wherein the forming step comprises forming the enhanced shaped charge liner from a pressed metal powder, and the metal powder includes tungsten powder. 11 . The method as claimed in claim 6 , wherein the forming step comprises forming the enhanced shaped charge liner such that the projecting section is hollow. 12 . The method as claimed in claim 6 , wherein the forming step comprises forming the enhanced shaped charge liner such that the liner constitutes a reactive liner. 13 . The method as claimed in claim 6 , wherein the forming step comprises forming the enhanced shaped charge liner such that the charge case defines a lower end, and the lip member engages a region of the charge case adjacent the lower end. 14 . The method as claimed in claim 6 , wherein the forming step comprises forming the enhanced shaped charge liner such that a width of the concavity of the lip member is wider than a width of the aperture of the projecting section in the direction perpendicular to the main liner axis. 15 . The method as claimed in claim 6 , wherein the forming step comprises forming the enhanced shaped charge liner such that the concavity of the lip member has a smaller volume than the aperture of the projecting section. 16 . The method as claimed in claim 1 , wherein the forming step comprises forming the enhanced shaped charge liner to include: a cylindrically shaped lip member that is configured to engage the charge case, one end of the lip member defining a planar face having a diameter and an opposite end of the lip member defining a bottom face, a star shaped concavity extending between the planar and bottom faces of the lip member; and a projecting section defined by side walls projecting from the planar face of the lip member to define an apex end at a location that is spaced furthest from the planar face in a direction along a main liner axis that passes through the apex end and the lip member, the side walls having both inner surfaces and outer surfaces, wherein a maximum width of the outer surfaces at an end of the projecting section opposite the apex end extends in a direction perpendicular to the main liner axis and is less than the diameter of the planar face of the lip member such that flat surfaces are defined on the planar face of the lip member between all portions of the end of the projecting section and an outer perimeter of the lip member, the projecting section being rotationally symmetric about the main liner axis such that the projecting section has discrete rotational symmetry about the main liner axis, a cross section of the projecting section in a plane perpendicular to the main liner axis defining a four or five pointed star shape of both the inner surfaces and the outer surfaces of the side walls of the projecting section, wherein all of the inner surfaces and all of the outer surfaces of the side walls of the projecting section are flat, planar surfaces. 17 . The method as claimed in claim 16 , wherein the forming step comprises forming the enhanced shaped charge liner such that the planar face of the lip member is circular. 18 . The method as claimed in claim 16 , wherein the forming step comprises forming the enhanced shaped charge liner such that the concavity of the lip member is contiguous with a star shaped aperture of the projecting section so as to form a single contiguous star shaped opening; and the charge case defines a lower end, and the lip member engages a region of the charge case adjacent the lower end. 19 . The method as claimed in claim 18 , wherein the forming step comprises forming the enhanced shaped charge liner such that a width of the concav