Method of producing an explosive emulsion composition

The invention claimed is: 1. A method, comprising: providing a flow of liquid energetic material; delivering an agent into the flow of liquid energetic material in a series of pulses such that an explosive composition that includes the liquid energetic material and sensitizing voids is produced with the sensitizing voids being present in the liquid energetic material with a non-random distribution, in each pulse, a discrete amount of the agent delivered into the liquid energetic material to produce first regions in the liquid energetic material having sensitizing voids that are sufficiently concentrated to render those regions detonable, between each pulse, no agent being delivered into the liquid energetic material to produce second regions in the liquid energetic material that are not detonable; and delivering the explosive composition into a blasthole. 2. The method of claim 1 , wherein the agent is a chemical gassing solution that reacts with one or more components of the liquid energetic material to generate gas bubbles that are the sensitizing voids. 3. The method of claim 2 , wherein a distribution of gas bubbles in the liquid energetic material is manipulated by controlling one or more of: (i) the flow rate of the liquid energetic material at the location of delivery of the chemical gassing solution during each pulse, (ii) an amount of the chemical gassing solution, (iii) a type of the chemical gassing solution, (iv) a concentration of the chemical gassing solution, (v) a duration of each pulse, or (vi) a frequency of pulses. 4. The method of claim 1 , wherein the agent is at least one of glass micro-balloons, plastic micro-balloons, or expanded polystyrene beads. 5. The method of claim 4 , wherein a distribution of sensitizing voids is manipulated by controlling one or more of: (i) a flow rate of the liquid energetic material at a location at which the agent is delivered into the liquid energetic material, (ii) a flow rate of the agent, (iii) a type agent, (iv) a duration of each pulse, or (v) a frequency of pulses. 6. The method of claim 1 , further comprising detonating the explosive composition. 7. A mobile manufacturing and delivery platform that is adapted to provide in a blasthole, an explosive composition in accordance with the method of claim 1 , the mobile manufacturing and delivery platform comprising: a storage tank for a liquid energetic material; a delivery line for conveying a stream of the liquid energetic material from the storage tank; a void delivery system for delivering an agent into the stream of liquid energetic material in a series of pulses such that an explosive composition that includes the liquid energetic material and sensitizing voids is produced with the sensitizing voids being present in the liquid energetic material with a non-random distribution, in each pulse, a discrete amount of the agent delivered into the liquid energetic material to produce first regions in the liquid energetic material having sensitizing voids that are sufficiently concentrated to render those regions detonable, between each pulse, no agent being delivered into the liquid energetic material to produce second regions in the liquid energetic material that are not detonable; and a blasthole loading hose. 8. The mobile manufacturing and delivery platform of claim 7 , wherein the void delivery system comprises a flow control valve or a reciprocating pump. 9. The mobile manufacturing and delivery platform of claim 7 , wherein the storage tank comprises at least two independent compartments and a valve for controlling which compartment feeds the delivery line. 10. The mobile manufacturing and delivery platform of claim 7 , wherein the storage tank comprises at least two independent compartments, a supply line extending from each compartment and a valve for controlling which supply line feeds the delivery line. 11. A method of blasting in which an explosive composition is provided in a blasthole using a mobile manufacturing and delivery platform as claimed in claim 7 . 12. A method of blasting in which an explosive composition is provided in a blasthole using a mobile manufacturing and delivery platform as claimed in claim 7 , and the explosive composition subsequently detonated. 13. A portable module that is adapted to provide in a blasthole an explosive composition in accordance with the method of claim 1 , the portable module comprising: a delivery line for conveying a stream of the liquid energetic material from a storage tank; a void delivery system for delivering an agent into the stream of liquid energetic material in a series of pulses such that an explosive composition that includes the liquid energetic material and sensitizing voids is produced with the sensitizing voids being present in the liquid energetic material with a non-random distribution, in each pulse, a discrete amount of the agent delivered into the liquid energetic material to produce first regions in the liquid energetic material having sensitizing voids that are sufficiently concentrated to render those regions detonable, between each pulse, no agent being delivered into the liquid energetic material to produce second regions in the liquid energetic material that are not detonable; and a blasthole loading hose. 14. The portable module of claim 13 , wherein the void delivery system comprises a flow control valve or a reciprocating pump. 15. A method of blasting in which an explosive composition is provided in a blasthole using a mobile manufacturing and delivery platform as claimed in a portable module as claimed in claim 13 , and the explosive composition subsequently detonated. 16. A method of blasting in which an explosive composition is provided in a blasthole using a portable module as claimed in claim 13 . 17. The method of claim 1 , wherein, prior to the delivery of sensitizing voids, the liquid energetic material is not void sensitized. 18. The method of claim 1 , wherein the agent is delivered into a liquid energetic material that is already void sensitized. 19. The method of claim 1 , wherein the explosive composition has a uniform internal structure in a given volume, with that uniform internal structure being varied between volumes within an overall volume of the explosive composition produced.