The invention relates to a plant for treating comminuted waste materials, comprising: a reactor, which has a treatment chamber, for receiving a waste suspension containing the waste materials and a treatment fluid; at least one ultrasound generator; and a control unit by means of which the ultrasound generator can be adjusted and serves to adjust a treatment intensity. According to the invention, a detection unit is provided which serves to determine an amount of material in the waste suspension. The invention also relates to a method for treating comminuted waste materials, wherein the waste materials are present as a waste suspension in a treatment fluid, and wherein the waste suspension is subjected to ultrasonic treatment (1). According to the invention, at least one amount of material in the waste suspension is detected as an actual value, and a treatment intensity is regulated if the actual value deviates from a target value.

The invention relates to a plant for treating comminuted waste materials, comprising: a reactor, which has a treatment chamber, for receiving a waste suspension containing the waste materials and a treatment fluid; at least one ultrasound generator; and a control unit by means of which the ultrasound generator can be adjusted and serves to adjust a treatment intensity. According to the invention, a detection unit is provided which serves to determine an amount of material in the waste suspension. The invention also relates to a method for treating comminuted waste materials, wherein the waste materials are present as a waste suspension in a treatment fluid, and wherein the waste suspension is subjected to ultrasonic treatment (1). According to the invention, at least one amount of material in the waste suspension is detected as an actual value, and a treatment intensity is regulated if the actual value deviates from a target value.

A silicon carbide gravel usable, for example, for refractory products, and a method for the production of different qualities and grain sizes of silicon carbide gravel. The silicon carbide gravel includes SiC particles having a high density. Particles of the silicon carbide gravel consist to an extent of at least 85 mass % of SiC waste products and have a density of 2.89 to 3.20 g/cm3, a compressive strength of >2500 MPa, a fraction of <5% of pores with an equivalent diameter of >100 m and a fraction of open porosity of <10%. The silicon carbide gravel consists at least predominantly of particles with particle sizes of greater than or equal to 2 mm and the particles have an irregular shape produced by a mechanical loading.

A silicon carbide gravel usable, for example, for refractory products, and a method for the production of different qualities and grain sizes of silicon carbide gravel. The silicon carbide gravel includes SiC particles having a high density. Particles of the silicon carbide gravel consist to an extent of at least 85 mass % of SiC waste products and have a density of 2.89 to 3.20 g/cm3, a compressive strength of >2500 MPa, a fraction of <5% of pores with an equivalent diameter of >100 m and a fraction of open porosity of <10%. The silicon carbide gravel consists at least predominantly of particles with particle sizes of greater than or equal to 2 mm and the particles have an irregular shape produced by a mechanical loading.

A control system is provided for control of an organic material handling system. A modular system and method for improving the receiving, processing, storing, and transloading of bulk materials such as organic waste. A system includes at least a receiving module to receive material, a storage module, a discharge module, and a control system. Systems can be adapted with additional modules, such as processing modules and transfer modules, depending on the site and materials to be handled. The storage module has a levelling component for levelling out the organic material stored therein, and a removal component for discharging the organic material. The control system interfaces with the modular components and local operators, and provides remote reporting and monitoring.

A control system is provided for control of an organic material handling system. A modular system and method for improving the receiving, processing, storing, and transloading of bulk materials such as organic waste. A system includes at least a receiving module to receive material, a storage module, a discharge module, and a control system. Systems can be adapted with additional modules, such as processing modules and transfer modules, depending on the site and materials to be handled. The storage module has a levelling component for levelling out the organic material stored therein, and a removal component for discharging the organic material. The control system interfaces with the modular components and local operators, and provides remote reporting and monitoring.

An artificial turf recycling system and method includes multi-phase processing of shredded turf laden with infill from an 8 inch minus product size down to about 1 mm minus particle size or less with a combination of special purpose equipment. Clean processed sand and crumb rubber may efficiently and expeditiously be reused in the installation of replacement artificial turf. Mobile apparatus and equipment may optionally be utilized proximate the site of the artificial turf needing replacement.

An artificial turf recycling system and method includes multi-phase processing of shredded turf laden with infill from an 8 inch minus product size down to about 1 mm minus particle size or less with a combination of special purpose equipment. Clean processed sand and crumb rubber may efficiently and expeditiously be reused in the installation of replacement artificial turf. Mobile apparatus and equipment may optionally be utilized proximate the site of the artificial turf needing replacement.

A solar module lifting apparatus includes a base supported on the ground, a cylinder module including cylinder units disposed on the base and changing in height by contracting and stretching, and a rotary supply plate having one side supporting a solar module and the other side coupled to the cylinder module and moving up and down the solar module by operation of the cylinder module, in which the rotary supply plate includes a first hinge and a second hinge spaced apart from each other on the other side, the cylinder module includes a first cylinder unit and a second cylinder unit of which the upper ends are coupled to the first hinge and the second hinge by shafts, respectively, and at least one of the height and the inclination of the rotary supply plate is adjusted by contracting or stretching of the first cylinder unit and the second cylinder unit.

A solar module lifting apparatus includes a base supported on the ground, a cylinder module including cylinder units disposed on the base and changing in height by contracting and stretching, and a rotary supply plate having one side supporting a solar module and the other side coupled to the cylinder module and moving up and down the solar module by operation of the cylinder module, in which the rotary supply plate includes a first hinge and a second hinge spaced apart from each other on the other side, the cylinder module includes a first cylinder unit and a second cylinder unit of which the upper ends are coupled to the first hinge and the second hinge by shafts, respectively, and at least one of the height and the inclination of the rotary supply plate is adjusted by contracting or stretching of the first cylinder unit and the second cylinder unit.