A process for removal of aluminium and iron in the recycling of rechargeable batteries comprising providing a leachate from black mass, adding phosphoric acid (H.sub.3PO.sub.4) to said leachate and adjusting the pH to form iron phosphate (FePO.sub.4) and aluminium phosphate (AlPO.sub.4), precipitating and removing the formed FePO.sub.4 and AlPO.sub.4, and forming a filtrate for further recovery of cathode metals, mainly NMC-metals and lithium.

A process for removal of aluminium and iron in the recycling of rechargeable batteries comprising providing a leachate from black mass, adding phosphoric acid (H.sub.3PO.sub.4) to said leachate and adjusting the pH to form iron phosphate (FePO.sub.4) and aluminium phosphate (AlPO.sub.4), precipitating and removing the formed FePO.sub.4 and AlPO.sub.4, and forming a filtrate for further recovery of cathode metals, mainly NMC-metals and lithium.

An aspect relates to a container-type photovoltaic module recycling device, which is provided including at least two sections of containers that are capable of being docked at their ends in a length direction, an articulating transfer apparatus located between two adjacent containers, a junction box removal apparatus, a frame removal apparatus, and a glass stripping apparatus. On the one hand, after on-site recycling is implemented, the cells recycled from a single photovoltaic module are about 10 g in weight, in addition, the cost of moving and transporting a device once, compared with the existing centralized recycling of loaded photovoltaic module, the transportation cost will be qualitatively reduced with strong flexibility and practicality; on the other hand, through docking and articulating transfer of containers, it is not limited by on-site levelness and height differences, once the containers are docked, recycling is performed in an on-site environment with inconsistent levelness.

An aspect relates to a container-type photovoltaic module recycling device, which is provided including at least two sections of containers that are capable of being docked at their ends in a length direction, an articulating transfer apparatus located between two adjacent containers, a junction box removal apparatus, a frame removal apparatus, and a glass stripping apparatus. On the one hand, after on-site recycling is implemented, the cells recycled from a single photovoltaic module are about 10 g in weight, in addition, the cost of moving and transporting a device once, compared with the existing centralized recycling of loaded photovoltaic module, the transportation cost will be qualitatively reduced with strong flexibility and practicality; on the other hand, through docking and articulating transfer of containers, it is not limited by on-site levelness and height differences, once the containers are docked, recycling is performed in an on-site environment with inconsistent levelness.

The present disclosure pertains to a system (100) and a method (200) for removing contaminants from polymer components. The system (100) includes a chamber (102), a nozzle (104) configured to allow a mixture of air jet and a blasting media (106) in a predefined portion to be splashed on the polymer components within the chamber (102). The chamber (102) is configured to correspondingly allow a tumbling operation on the polymer components using the blasting media (106) within the chamber (102) to remove contaminants from the polymer components.

The present disclosure pertains to a system (100) and a method (200) for removing contaminants from polymer components. The system (100) includes a chamber (102), a nozzle (104) configured to allow a mixture of air jet and a blasting media (106) in a predefined portion to be splashed on the polymer components within the chamber (102). The chamber (102) is configured to correspondingly allow a tumbling operation on the polymer components using the blasting media (106) within the chamber (102) to remove contaminants from the polymer components.

The present invention provides systems and methods for the recycling of animal bedding and the disposal or reuse of manure, feces, urine or expectorant resulting from recycling animal bedding. The present invention provides systems and methods for the disposal of materials related to the recycling or repurposing of stall residual waste and/or soiled animal bedding which is environmentally conscious to aquifers, and further limiting off gassing of enteric methane and other gasses. Use of such methods create a healthier recycled bedding than existing new bedding materials. The reusable and clean animal bedding provides for a healthy, hygienic, sanitary and enhanced stall environment. The present invention further provides methods for infusing additives, enhancements or amendments to recycled animal bedding which promote the health and safety of the animals using the recycled animal bedding (or the humans in contact with the animal bedding or animals) and/or the barn environment.

The present invention provides systems and methods for the recycling of animal bedding and the disposal or reuse of manure, feces, urine or expectorant resulting from recycling animal bedding. The present invention provides systems and methods for the disposal of materials related to the recycling or repurposing of stall residual waste and/or soiled animal bedding which is environmentally conscious to aquifers, and further limiting off gassing of enteric methane and other gasses. Use of such methods create a healthier recycled bedding than existing new bedding materials. The reusable and clean animal bedding provides for a healthy, hygienic, sanitary and enhanced stall environment. The present invention further provides methods for infusing additives, enhancements or amendments to recycled animal bedding which promote the health and safety of the animals using the recycled animal bedding (or the humans in contact with the animal bedding or animals) and/or the barn environment.

The invention relates to a method for processing solar modules by means of a recycling installation, the method comprising the following steps: detecting the solar module by means of at least one sensor, so that the at least one sensor sends measurement data to an electrical control unit, the measurement data containing information on the solar module; evaluating the measurement data and determining operating parameters for the recycling installation; and processing the solar module in the recycling installation that is operated with the determined operating parameters.

The invention relates to a method for processing solar modules by means of a recycling installation, the method comprising the following steps: detecting the solar module by means of at least one sensor, so that the at least one sensor sends measurement data to an electrical control unit, the measurement data containing information on the solar module; evaluating the measurement data and determining operating parameters for the recycling installation; and processing the solar module in the recycling installation that is operated with the determined operating parameters.