A spray system for dust control on a shearer machine that operates laterally with respect to a mining floor surface is provided where the spray system is provided with a set of first ranging arm sprays mounted on a first ranging arm and wherein said first ranging arm is located on a first end of a shearer machine chassis. A set of second ranging arm sprays is optionally provided and is mounted on the upper side of the first ranging arm and resides approximate to and in operational relationship to the set of first ranging arm sprays. Furthermore, a plurality of chassis spray sets may also be optionally provided and are located on a mining side of said shearer machine chassis and reside in a non-linear format. Moreover, a set of shearer-clearer venturi arm sprays may also optionally be provided and is mounted on a shearer-clearer venturi arm that resides as an angular extension of the set of first shearer-clearer arm sprays.

A mining machine includes a chassis, a boom, a cutting head, and a shield supported for movement relative to the chassis. The chassis includes a first end and a second end, and defines a longitudinal axis extending between the first end and the second end. The boom includes a first end and a second end, and the boom is supported for movement relative to the chassis. The boom translates in a first direction and is pivotable relative to the chassis between first and second positions. The cutting head is coupled to the second end of the boom and is supported for rotation relative to the boom. The cutting head is rotatable about a cutting head axis. The shield is supported for movement relative to the chassis and positioned proximate the cutting head. In some embodiments, the shield is coupled to a sumping frame supported for movement relative to the chassis.

An excavation apparatus is disclosed. The excavation apparatus includes a chassis having a length that extends from a front end to a rear end of the chassis. The chassis also has a width oriented perpendicular to the length. A boom is pivotally attached to the rear end of the chassis. A cutting component mounted to the boom. A shroud structure at least partially covers the cutting component. A source of vacuum is in fluid communication with an interior of the shroud structure for drawing air containing dust from the interior of the shroud structure. A filter filters the air drawn from the interior of the shroud structure by the source of vacuum. A dust barrier projects downwardly from the shroud structure and extends along at least a portion of a perimeter of the shroud structure. The dust barrier has a construction that is pervious to debris generated by the cutting component and that provides gradually reduced restriction to inward air flow through the dust barrier as the dust barrier extends downwardly from the shroud structure.

A management system of a workplace includes: an expected time calculation unit that calculates an expected time at which an unmanned haul vehicle arrives at a work area; and a water-sprinkling condition decision unit that decides a water-sprinkling condition of an unmanned water-sprinkling vehicle in the work area based on the expected time.

Various examples are provided related to dust particle removal in underground mining. In one example, a filter system for removing dust particles includes a mesh system comprising one or more meshes, a frame bed for holding the mesh system, and vibrational energy transfer from the continuous miner to the mesh system. In another example, a method for removing dust particles includes contacting the dust particles with the filter system mounted to the continuous miner, where the continuous miner produces vibrational energy sufficient to vibrate the mesh in the filter system.

Various examples are provided related to dust particle removal in underground mining. In one example, a filter system for removing dust particles includes a mesh system comprising one or more meshes, a frame bed for holding the mesh system, and vibrational energy transfer from the continuous miner to the mesh system. In another example, a method for removing dust particles includes contacting the dust particles with the filter system mounted to the continuous miner, where the continuous miner produces vibrational energy sufficient to vibrate the mesh in the filter system.