A system and method is provided for the remediation of wastewater by electrocoagulation. The system and method are directed to the precipitation of ammonia resulting in the formation of struvite. According to another embodiment, the method also results in precipitation of nitrogen compounds including nitrates, nitrites, and urea.

The present invention relates to an in-line blending apparatus and use therein for flocculating and dewatering an aqueous mineral suspension. Said method comprises blending an aqueous mineral suspension and a poly(ethylene oxide) (co)polymer using a progressive cavity pump. Said method is particularly useful for the treatment of suspensions of particulate material, especially waste mineral slurries, especially for the treatment of tailings and other waste material resulting from mineral processing, in particular, the processing of oil sands tailings.

The present invention relates to an in-line blending apparatus and use therein for flocculating and dewatering an aqueous mineral suspension. Said method comprises blending an aqueous mineral suspension and a poly(ethylene oxide) (co)polymer using a progressive cavity pump. Said method is particularly useful for the treatment of suspensions of particulate material, especially waste mineral slurries, especially for the treatment of tailings and other waste material resulting from mineral processing, in particular, the processing of oil sands tailings.

A plant growing system has a number of modular units arranged together on a flat surface in side of a growing room. The modular units have rigid boxes therein with vertical holes therethrough inside of which is located a growing soil. Water and nutrients are pumped from a reservoir to a distributor located in a growing soil of the rigid boxes as called for by moisture sensors, which activates a controller to turn ON a delivery pump. When moisture and nutrients need to be removed from an impermeable flexible liner located below the modular units, the controller turns ON a return pump, which pumps the excess water and nutrients back to the reservoir.

A plant growing system has a number of modular units arranged together on a flat surface in side of a growing room. The modular units have rigid boxes therein with vertical holes therethrough inside of which is located a growing soil. Water and nutrients are pumped from a reservoir to a distributor located in a growing soil of the rigid boxes as called for by moisture sensors, which activates a controller to turn ON a delivery pump. When moisture and nutrients need to be removed from an impermeable flexible liner located below the modular units, the controller turns ON a return pump, which pumps the excess water and nutrients back to the reservoir.

A system for urban organic solid waste pyrolysis-gasification coupled with drying includes a sludge feeding and storage device, a pre-drying device, a cyclone separator, a specific cloth bag for sludge and a flue gas waste heat recovery device sequentially connected. The cyclone separator and a sludge outlet of the specific cloth bag for sludge are connected with a cyclone fluidized bed gasification furnace. The cyclone fluidized bed gasification furnace is connected with a high-temperature separator. The high-temperature separator is connected with a secondary combustion chamber. High-temperature flue gas generated by the secondary combustion chamber serves as a heat source of the pre-drying device. Ash generated by the high-temperature separator and secondary combustion chamber is sent to an ash bin after being cooled by a cold slag conveyor. Through system integration and optimization, the disclosure adopts a two-stage process of pre-drying and pyrolysis-gasification, thus having high process controllability and operability.

A system for urban organic solid waste pyrolysis-gasification coupled with drying includes a sludge feeding and storage device, a pre-drying device, a cyclone separator, a specific cloth bag for sludge and a flue gas waste heat recovery device sequentially connected. The cyclone separator and a sludge outlet of the specific cloth bag for sludge are connected with a cyclone fluidized bed gasification furnace. The cyclone fluidized bed gasification furnace is connected with a high-temperature separator. The high-temperature separator is connected with a secondary combustion chamber. High-temperature flue gas generated by the secondary combustion chamber serves as a heat source of the pre-drying device. Ash generated by the high-temperature separator and secondary combustion chamber is sent to an ash bin after being cooled by a cold slag conveyor. Through system integration and optimization, the disclosure adopts a two-stage process of pre-drying and pyrolysis-gasification, thus having high process controllability and operability.

A sludge drying apparatus includes a drying unit for drying sludge as it is transferred by a transfer belt. The drying unit includes a box that covers an upper surface of the transfer belt and extends in a direction of extension of the transfer belt, an air inlet formed at one end of the box, an air outlet formed at the other end of the box, a fan provided outside the box for sucking air in the box from the air outlet and thereby intaking outside air from the air inlet into the box, a dividing portion for dividing the air discharged from the fan into two parts, and a return inlet formed between the air inlet and the air outlet for returning one of the two parts of the air divided by the dividing portion into the box.

A sludge drying apparatus includes a drying unit for drying sludge as it is transferred by a transfer belt. The drying unit includes a box that covers an upper surface of the transfer belt and extends in a direction of extension of the transfer belt, an air inlet formed at one end of the box, an air outlet formed at the other end of the box, a fan provided outside the box for sucking air in the box from the air outlet and thereby intaking outside air from the air inlet into the box, a dividing portion for dividing the air discharged from the fan into two parts, and a return inlet formed between the air inlet and the air outlet for returning one of the two parts of the air divided by the dividing portion into the box.

This invention relates to processes for the removal of phosphorous from aqueous waste streams comprising phosphorus-containing compounds produced in the manufacture of glyphosate, in order to meet and typically exceed environmental regulations. More particularly, various embodiments of the present invention relate to the removal of phosphorous-containing compounds utilizing biological treatment system(s), oxidizing agent(s), and/or precipitant(s). The processes of the invention are also applicable to the removal of phosphorous compounds from phosphorous-containing waste streams other than those waste streams resulting from the manufacture of glyphosate.