Integrated separator system and process for preconcentration and pretreatment of a material

The claims defining the invention are as follows: 1. An integrated separator system for the preconcentration of a material, the system comprising a grizzly screen having a plurality of grizzly bars, and spacing between bars of the plurality of grizzly bars allows disintegrated particles of the material to pass through the grizzly screen while non-disintegrated particles are retained on top of the grizzly screen; wherein the grizzly bars act as electrodes which provide a high voltage pulse (HVP) discharge to the material; wherein the HVP discharge is applied at a voltage and energy sufficient to disintegrate particles of the material containing high conductivity or high permittivity minerals; and wherein particles that do not contain high conductivity or high permittivity minerals are protected by particles containing high conductivity or high permittivity minerals and are not broken. 2. The separator system of claim 1 , wherein the grizzly screen comprises grizzly bars which act as alternating positive and negative electrodes of a screen element. 3. The separator system of claim 1 , wherein the grizzly screen acts as a negative electrode and a positive electrode is located above the grizzly screen. 4. The separator system of claim 1 , wherein the grizzly bars are cylindrical or rectangular in cross-sectional shape. 5. The separator system of claim 1 , wherein a gap between the grizzly bars is set between 10 to 200 mm. 6. The separator system of claim 1 , wherein the grizzly bars are rectangular in cross sectional shape and are substantially parallel to each other. 7. The separator system of claim 1 , wherein the grizzly bars are rectangular in cross sectional shape and are arranged in a cone shape with a first end of the grizzly bars having a larger gap therebetween than compared to a second end of the respective grizzly bars. 8. The integrated separator system according to claim 1 , wherein the system is used to remove sulphide minerals selected from the group comprising pyrite or other mineral matters having higher conductivity/permittivity than coal to improve coal quality and to reduce environmental impact. 9. A process for preconcentration of a material preferably a mineral which comprises: a) providing the material into an integrated separator system comprising one or more grizzly bars and one or more electrodes which are capable of providing at least one high voltage pulse discharge(s) to the material; b) applying one or more high voltage pulse discharge(s) to the material as the material is travelling along the grizzly bar(s) to preferentially disintegrate the particles containing mineral grains of high conductivity/permittivity; c) separating the disintegrated particles by way of the grizzly bar(s) resulting in the separation of the feed material into low grade (oversize) and high grade (undersize) products; and wherein the disintegrated particles from step b) pass through a screening element for further treatment. 10. A process for preconcentration of a material according to claim 9 , wherein the material is a mineral within a rock.