A method for treating waste printed circuit board includes carbonizing waste printed circuit board together with a calcium compound at 400° C. to 600° C. in a non-oxidizing atmosphere to fix a halogen contained in the board as calcium halide and to melt a solder of the board to allow mounted parts to be easily separated from the board, performing crushing after the carbonizing, and sieving crushed materials into fine particles of less than 0.5 mm containing the calcium compounds, medium particles containing the mounted parts, and coarse particles containing board pieces such that the crushed materials are sorted into the calcium compounds, the mounted parts, and the board pieces.

An aggregate production method includes procuring stone waste by-products, sorting the stone waste by-products by type and color, and subjecting the sorted stone waste by-products to a two-stage crushing process to produce aggregate. The aggregate is screened into different sizes and placed according to size into a bag or container.

An aggregate production method includes procuring stone waste by-products, sorting the stone waste by-products by type and color, and subjecting the sorted stone waste by-products to a two-stage crushing process to produce aggregate. The aggregate is screened into different sizes and placed according to size into a bag or container.

It A waste sorting robot (100) comprises a manipulator (101) moveable within a working area (102). A gripper (103) is connected to the manipulator (101) and arranged to selectively grip a waste object (104, 104a, 104b, 104c) in the working area (102). A controller (108) is in communication with a sensor (107) and is configured to receive detected object parameters, and determine a throw trajectory (109) of the gripped waste object (104) towards a target position (106) based on the detected object parameters of the gripped waste object (104). The controller (108) is configured to send control instructions to the gripper (103) and/or manipulator (101) so that the gripper (103) and/or manipulator (101) accelerates the gripped waste object (104) and releases the waste object (104) at a throw position with a throw velocity and throw angle towards the target position (106) so that the waste object (104) is thrown along the determined throw trajectory (109). A related method of controlling a waste robot is also disclosed.

Mesofluidic separator assemblies are provided that can include at least a pair of supports configured to extend within a pressure differential axis, and at least one level of a plurality of members extending between the pair of supports. Separator assemblies are also provided that can include at least individual members of the plurality defining a plurality of levels extending from a first level configured to have initial contact with the fluid to be separated and a last level configured to have final contact with the fluid to be separated. Assemblies are also provided that can include each member in a set of members being aligned along one axis that is neither parallel nor normal to the pressure differential axis. Assemblies are provided that can include a conduit configured to facilitate the flow of fluid along a pressure differential axis with the conduit defining at least one cross sectional area that is open. Methods for size separating particles within a fluid are provided. The methods can include providing a fluid having solid particles of at least two sizes into a conduit having a plurality of members.

Mesofluidic separator assemblies are provided that can include at least a pair of supports configured to extend within a pressure differential axis, and at least one level of a plurality of members extending between the pair of supports. Separator assemblies are also provided that can include at least individual members of the plurality defining a plurality of levels extending from a first level configured to have initial contact with the fluid to be separated and a last level configured to have final contact with the fluid to be separated. Assemblies are also provided that can include each member in a set of members being aligned along one axis that is neither parallel nor normal to the pressure differential axis. Assemblies are provided that can include a conduit configured to facilitate the flow of fluid along a pressure differential axis with the conduit defining at least one cross sectional area that is open. Methods for size separating particles within a fluid are provided. The methods can include providing a fluid having solid particles of at least two sizes into a conduit having a plurality of members.

A system for separating packages of different sizes includes a conveyor segment and a plurality of alignment members dividing the conveyor segment into a plurality of conveyor lanes. The conveyor segment has an input end, a discharge end and transport mechanism for transporting packages from the input end to the discharge end. The transport mechanism is configured to impart a lateral shift to packages on the conveyor segment. One or more of the alignment members each forms a respective window to allow lateral shifting of packages across adjacent conveyor lanes. Each window has a uniquely defined vertical height to the limit lateral shifting of packages across adjacent conveyor lanes based on a height of each package. Each conveyor lane delivers packages of a uniquely different size group at the discharge end of the conveyor segment. The packages in a conveyor lane are aligned against a respective alignment member.

A process and system is provided for the manufacture of vegetable dough using only water as an ingredient of the dough, and for a time interval ranging between 5 minutes and up to 10 minutes, wherein the vegetable is selected from vegetables and grains.

A process and system is provided for the manufacture of vegetable dough using only water as an ingredient of the dough, and for a time interval ranging between 5 minutes and up to 10 minutes, wherein the vegetable is selected from vegetables and grains.

A process and system is provided for the manufacture of vegetable dough using only water as an ingredient of the dough, and for a time interval ranging between 5 minutes and up to 10 minutes, wherein the vegetable is selected from vegetables and grains.