An edge protection safety bund system (10) for use in connection with a rock bund made of rock fill. The edge protection safety bund system (10) comprises a bund module (12) having a barrier wall (14) and a base plate (16). The bund module (12) is preferably one of a plurality of bund modules (12) arranged side by side to form an extended barrier wall (14). The barrier wall (14) of each module (12) extends substantially perpendicularly upwards from the base plate (16), and a support web (18) extends at an angle from a rear face of the barrier wall (14) to an upper surface of the base plate (16). In use, when rock fill is dumped onto the rear of the bund modules (12), and allowed to flow back to its natural angle of repose behind the barrier walls (14), it creates a rock bund (20) with a front face formed by the extended barrier wall (14).

Systems and methods for remediating an initially liquid-like slurry pond include distributing one or more floating wicks into the slurry pond, wherein the slurry pond includes a slurry with a supernatant level above the slurry. A method also includes placing a load on the slurry, wherein the load causes an effective stress on the slurry and aids in dewatering the slurry.

An area-based open pit mine designer is disclosed. One example includes an economic shell receiver module to receive an economic shell. In addition, a user input module receives a user parametric input denoting an open pit mine shape based on the economic shell. The open pit mine designer module automatically develops an open pit mine design based on the user parametric input.

An area-based open pit mine designer is disclosed. One example includes an economic shell receiver module to receive an economic shell. In addition, a user input module receives a user parametric input denoting an open pit mine shape based on the economic shell. The open pit mine designer module automatically develops an open pit mine design based on the user parametric input.

This disclosure concerns techniques for monitoring and controlling mining operations, notably oil sands mining that involves trucks and shovels. The process can include monitoring key mining performance indicators (KMPI) comprising truck operating parameters; shovel operating parameters; and workforce performance parameters, and then controlling the trucks and the shovels based on a pre-developed model comprising the KMPI. The workforce performance parameters of shift change duration can be determined in various ways, such as determining a base shift change duration based on a shift-change code and adding to it a supplementary shift change duration based on certain additional stationary-state codes; and/or determining truck cycle times during a pre-determined time interval spanning the corresponding shift change, determining a longest truck cycle, determining an average truck cycle which excludes the longest truck cycle; and determining the shift change duration based on a difference between the longest truck cycle and the average truck cycle.

A system and method for pit design that that operates directly on a geological model without creating a three dimensional block model thereby minimizing modeling dilution. A resource in a deposit may be divided into a set of base resource units that closely conform to the resource geometry and value distribution and that can be mined by the equipment assumed to perform the excavation. A resource increment (RI) is defined by a base resource unit and any resource and waste over the base resource unit which is assumed to be excavated in conformance with slope stability and safe practices forming an approximation of a truncated inverted cone. A systematic sorting and grouping process of the RIs iterates down a list of RIs and identifies RIs and/or RI groups that add value to the pit while excluding RIs and/or RI groups that do not add value. The sorting and grouping process operates on the recognition that, for RIs analyzed later in the RI list, the cost of intersections of waste overlaying the RIs base resource unit is carried by RIs analyzed earlier in the list. The sorting and grouping process allows intersecting RIs to be evaluated, grouped into RI groups, and either included or not included in the pit so that a maximum valued pit is defined. One aspect of the novel sorting and grouping process is the identification and grouping of interdependent RIs and RI groups. Another novel aspect of this pit design system is the application of over lapping RI bases with size defined large enough to represent the minimal accessible mining space for the equipment proposed. Larger sized bases should lead to reduction in the complexity of intersecting RIs and computational time. The end result is a model of the pit including a list of RIs and/or RI groups to include in the pit and resource and/or reserve statements.

A system and method for pit design that that operates directly on a geological model without creating a three dimensional block model thereby minimizing modeling dilution. A resource in a deposit may be divided into a set of base resource units that closely conform to the resource geometry and value distribution and that can be mined by the equipment assumed to perform the excavation. A resource increment (RI) is defined by a base resource unit and any resource and waste over the base resource unit which is assumed to be excavated in conformance with slope stability and safe practices forming an approximation of a truncated inverted cone. A systematic sorting and grouping process of the RIs iterates down a list of RIs and identifies RIs and/or RI groups that add value to the pit while excluding RIs and/or RI groups that do not add value. The sorting and grouping process operates on the recognition that, for RIs analyzed later in the RI list, the cost of intersections of waste overlaying the RIs base resource unit is carried by RIs analyzed earlier in the list. The sorting and grouping process allows intersecting RIs to be evaluated, grouped into RI groups, and either included or not included in the pit so that a maximum valued pit is defined. One aspect of the novel sorting and grouping process is the identification and grouping of interdependent RIs and RI groups. Another novel aspect of this pit design system is the application of over lapping RI bases with size defined large enough to represent the minimal accessible mining space for the equipment proposed. Larger sized bases should lead to reduction in the complexity of intersecting RIs and computational time. The end result is a model of the pit including a list of RIs and/or RI groups to include in the pit and resource and/or reserve statements.

Automatic change propagation in an area-based open pit mine designer is disclosed. One example includes an economic shell receiver module to receive an economic shell. In addition a user input module receives a user parametric input denoting an open pit mine shape based on the economic shell. An open pit mine designer module automatically develops an open pit mine design from the user parametric input. The user input module receives an additional area to be incorporated into the open pit mine design. The open pit mine designer module automatically propagates the additional area into the open pit mine design to generate a modified open pit mine design.

Automatic change propagation in an area-based open pit mine designer is disclosed. One example includes an economic shell receiver module to receive an economic shell. In addition a user input module receives a user parametric input denoting an open pit mine shape based on the economic shell. An open pit mine designer module automatically develops an open pit mine design from the user parametric input. The user input module receives an additional area to be incorporated into the open pit mine design. The open pit mine designer module automatically propagates the additional area into the open pit mine design to generate a modified open pit mine design.

A mining machine management system includes a detection unit mounted on a mining machine that travels in a mine in which a plurality of landmarks is installed, and which detects a position of the landmark with respect to the mining machine in a non-contact manner, and a traveling control unit which corrects a current position of the mining machine based on a position of the landmark, the position having been obtained in advance, and the position of the landmark obtained by the detection unit and causes the mining machine to travel by dead reckoning navigation, and which does not use at least the position of the landmark detected by the detection unit in causing the mining machine to travel by the dead reckoning navigation, when a vehicle traveling in the mine exists around the position of the landmark detected by the detection unit.