Method and system for dynamically charging a coke oven

We claim: 1. A coal charging system, the system comprising: a coke oven including a pusher side opening, a coke side opening opposite the pusher side opening, opposite side walls, and an oven floor defined by the pusher side opening, the coke side opening, and the opposite side walls; a charging ram having a proximal end portion, a distal end portion, and opposite sides that define a length of the charging ram, the charging ram being movable at least along a length of the oven from the pusher side opening towards the coke side opening; a locking mechanism configured to hold the charging ram in an initial charging position; a conveyor system operably coupled to the charging ram and capable of charging coal into the oven, wherein the conveyor system in operation experiences a charging pressure; and a control system in communication with the charging ram, wherein the control system is configured to automatically move the charging ram at least between the pusher side opening and the coke side opening, such that the automatic movement of the charging ram along the length of the oven is determined at least in part by a chain pressure experienced by the conveyor system; wherein the control system is configured to automatically release the locking mechanism and move the charging ram toward the coke side opening after a preset locking charging pressure is reached, and wherein the control system is further configured to maintain the chain pressure within a preset operating range. 2. The coal charging system of claim 1 wherein the preset locking charging pressure is greater than 1700 psi. 3. The coal charging system of claim 1 wherein the preset operating range is between 2000-3500 psi. 4. The coal charging system of claim 1 wherein the preset operating range is between 2300-2900 psi. 5. The coal charging system of claim 1 wherein the charging ram movement between the pusher side opening towards the coke side opening is a horizontal movement in a first direction. 6. The coal charging system of claim 5 wherein the charging ram is horizontally movable in a second direction between the opposite side walls of the oven, such that the control system is configured to automatically move the charging ram towards at least one of the opposite side walls of the oven. 7. The coal charging system of claim 1 wherein the charging pressure is comprised of the chain pressure. 8. A coal charging system comprising: a coke oven including a pusher side opening, a coke side opening opposite the pusher side opening, opposite side walls, and an oven floor defined by the pusher side opening, the coke side opening, and the opposite side walls; a charging ram having a proximal end portion, a distal end portion, and opposite sides that define a length of the charging ram, the charging ram being horizontally movable from the pusher side opening towards the coke side opening and vertically movable away from the oven floor; wherein the distal end portion of the charging ram is configured to penetrate a vertical plane of the pusher side opening of the oven; a conveyor system operably coupled to the charging ram and capable of charging coal into the oven, wherein the conveyor system in operation experiences a charging pressure; a control system in communication with the charging ram, wherein the control system is configured to automatically move the charging ram horizontally toward the coke side opening and vertically away from the oven floor, wherein the automatic movement of the charging ram is determined at least in part by the charging pressure experienced by the conveyor system; the control system further configured to maintain an operating charging pressure within a preset operating range between 2000-3500 psi; a vertically oriented charging head operatively coupled with the distal end portion of the charging ram, wherein the charging head includes a planar body residing within a charging head plane, a lower edge portion, an upper edge portion opposite the lower edge portion, a front face, and a rearward face opposite the front face, wherein the rearward face is oriented to face toward the proximal end portion of charging ram; and an extrusion plate operatively coupled with the rearward face of the charging head, the extrusion plate having a lower coal engagement face that is oriented to face rearwardly and downwardly with respect to the charging head, and an upper deflection face that is oriented to face rearwardly and upwardly with respect to the charging head, the coal engagement face and deflection face being operatively coupled with one another to define a peak ridge facing rearwardly away from the charging head. 9. The coal charging system of claim 8 , further comprising a drive system in communication with the control system, wherein the drive system is operably coupled to the charging ram, and wherein the control system utilizes the drive system at least to vertically move the charging ram in a third direction. 10. The coal charging system of claim 9 wherein the drive system is at least one of a hydraulic drive, electrical drive or screw drive. 11. The coal charging system of claim 8 wherein the charging ram is horizontally movable toward at least one of the opposite side walls of the oven, and wherein the control system is configured to automatically move the charging ram towards at least one of the opposite side walls of the oven. 12. The coal charging system of claim 8 , further comprising a scanning system attached to the charging ram and in communication with the control system. 13. The coal charging system of claim 12 wherein the scanning system is configured to scan the oven to determine at least one of an oven floor profile or oven profile. 14. The coal charging system of claim 13 wherein the control system is configured to automatically move the charging ram in the vertical direction away from the oven floor in response to the determined oven floor profile or oven profile. 15. The coal charging system of claim 12 wherein the scanning system is at least one of a camera, laser, or radar. 16. The coal charging system of claim 8 wherein each of the opposite sides of the charging ram includes an interior surface and an exterior surface, the charging ram further comprising: a plurality of horizontally oriented cross support braces mechanically coupled to the opposite sides of the charging ram; and a plurality of stiffener plates mechanically coupled to at least a portion of the plurality of cross support braces, wherein each stiffener plate is positioned between the cross support braces and the opposite sides of the charging ram, such that an exterior facing surface of each stiffener plate is adhered to the interior surface of each of the opposite sides of the charging ram and an interior facing surface of each stiffener plate is adhered to one of the cross support braces. 17. The coal charging system of claim 16 , further comprising a support member mechanically coupled to the stiffener plate and the cross support brace. 18. The coal charging system of claim 17 wherein the support member is positioned at a lower portion of the cross support brace, and wherein the support member includes first and second surfaces configured approximately normal to each other, the first surface of the support member being connected to the interior facing surface of the stiffener plate and the second surface of the support member being connected to the lower portion of the cross support brace. 19. The coal charging system of claim 16 wherein the plurality of cross su