Flame holder system

The invention claimed is: 1. A flame holder system, comprising: a plurality of catch pins adapted to be coupled to an outboard end of a torch body transporting combustible gases to the outboard end during a torch operation, each of said catch pins extending radially outward from the torch body; a flame holder having an outer wall and an interior cavity extending therethrough from an upstream first end to a downstream second end thereof to define an inner wall with said first end adapted to fit over the outboard end of the torch body, said flame holder having a plurality of grooves formed in said inner wall, each groove having a base wall spaced from said inner wall to define a depth, and side walls that are spaced apart to define a width, each of said grooves corresponding in depth and position to one of said catch pins, each of said grooves starting at said first end and shaped to define at least two turns, wherein each said groove is substantially U-shaped with a first segment having an open end and a final segment extending; shorter than the first segment, and the first and final segments being substantially parallel to a center line of said flame holder, each of said grooves sized to receive only a particular one of said catch pins therein when said flame holder is fitted over the outboard end of the torch body, said inner wall having a first portion adjacent said first end, a second portion adjacent said second end, and a third portion between the first and second portions, wherein the third portion includes a stepwise expansion in cross sectional area from the first portion, wherein the second portion has a divergent cross sectional area that increases from a location adjacent to the third portion to a location adjacent to the second end, wherein the second and third portions are configured to provide sudden expansion and recirculation of a fuel and air mixture to hold a flame immediately downstream of the third portion, and wherein the plurality of grooves are located in the first portion, further wherein the first, second and third portions define a single flow path; and a spring-loaded stop including a spring disposed between said spring-loaded stop and said catch pins and adapted to be coupled to the torch body for engaging said first end of said flame holder fitted over the outboard end of the torch body, and wherein the final segment of each of said grooves of said flame holder engages one of said catch pins when said spring applies a force axially to said flame holder to thereby retain said flame holder on the torch body. 2. A flame holder system as in claim 1 wherein: said catch pins comprise two catch pins that are substantially diametrically opposed to one another on the torch body. 3. A flame holder system as in claim 1 wherein: said flame holder comprises a one piece integral homogenous ceramic material. 4. A flame holder system as in claim 1 wherein: an inner diameter of said flame holder varies between said first end and said second end. 5. A flame holder system as in claim 3 wherein: said ceramic material comprises zirconium oxide. 6. A flame holder system, comprising: a plurality of catch pins adapted to be coupled to an outboard end of a torch body transporting combustible gases to the outboard end during a torch operation, each of said catch pins extending radially outward from the torch body; a flame holder comprising a one piece integral homogeneous ceramic material, the flame holder having an interior cavity extending therethrough from an open first end to an open second end thereof to define an inner wall surface and an outer wall surface, with said first end adapted to fit over the outboard end of the torch body, said flame holder having a plurality of grooves formed in said inner wall, each groove having a base wall spaced from said inner wall to define a depth, and side walls that are spaced apart to define a width, wherein each said groove is substantially U-shaped with a first segment having an open end and a final segment extending shorter than the first segment, wherein the first and final segments are substantially parallel to a center line of said flame holder, each of said grooves sized to receive one of said catch pins therein when said flame holder is fitted over the outboard end of the torch body, said inner wall having a first portion adjacent said first end, a second portion adjacent said second end, and a third portion between the first and second portions, wherein the third portion includes a stepwise expansion in cross sectional area from the first portion, wherein the second portion has a divergent cross sectional area, and wherein the second and third portions are configured to provide sudden expansion and recirculation of a fuel and air mixture to hold a flame immediately downstream of the third portion, and wherein the plurality of grooves are located in the first portion, and further wherein the first, second and third portions define a single flow path; and a spring-loaded stop including a spring disposed between said spring-loaded stop and said catch pins are adapted to be coupled to the torch body for engaging said first end of said flame holder fitted over the outboard end of the torch body, and wherein the final segment of each of said grooves of said flame holder engages one of said catch pins when said spring applies a force axially to said flame holder to there by retain said flame holder on the torch body. 7. A flame holder system as in. claim 6 wherein: the first and final segments are substantially parallel to a center line of said flame holder. 8. A flame holder system as in claim 7 , wherein: each of said grooves is sized to receive only a particular one of said catch pins therein when said flame holder is fitted over the outboard end of the torch body. 9. A flame holder system as in claim 6 wherein: said catch pins comprise two catch pins that are substantially diametrically opposed to one another on the torch body. 10. A flame holder system as in claim 6 wherein: said integral homogeneous ceramic material comprises zirconium oxide. 11. A flame holder system as in claim 6 wherein: an inner diameter of the second portion increases from a location adjacent to the third portion to a location that faces said open second end.