A method of forming a yellow grease is provided. The method includes delivering a FOG lipid extraction agent into a processing tank. The method further includes preheating an FOG to a temperature of between 35 C. and 95 C. The method further includes mixing the preheated waste grease with the FOG lipid extraction agent in the processing tank to form the yellow grease.

This disclosure describes methods to separate solids from liquids in a production facility. A process separates components in a defiber process stream by using two or more mechanical devices to separate the solids from the liquids based on density differences. The process produces animal feed products having a protein content ranging from approximately 45% to approximately 64%.

The present invention relates to a method of operating a membrane filtration unit including plural hollow fiber membrane modules connected to each other in parallel, the method including: a filtration step; a collection step; and a recovery step, in which a relation of n.sub.1n.sub.2>n.sub.3 is satisfied, where n.sub.1 is the number of the hollow fiber membrane modules simultaneously used in executing the filtration step, n.sub.2 is the number of the hollow fiber membrane modules simultaneously used in executing the collection step, and n.sub.3 is the number of the hollow fiber membrane modules simultaneously used in executing the recovery step.

A two-step process for recovering useable solids from food processing wastewater and for significantly reducing the pollutants, chemical, bacterial, and viral load. The first step is the addition of pretreatment chemicals such as metal-based coagulant, pH adjuster, oxidant or a combination thereof. The second step is pumping the chemically pretreated wastewater into a foam fractionation system where a gas is introduced into the chemically treated wastewater to create a rising foam that captures and remove solid materials from the remaining wastewater effluent. The solids are recovered for additional post-processing and the effluent is discharged for post-processing or to existing bodies of water.

A sand-manure liquid separation plant including a tank for the processing of a mixture of sand and manure liquid. The tank including a top portion having a mixture inlet for filling the mixture to be processed into the tank and a bottom portion having a sand discharge for discharging sand settled in the tank. A maximum level (ML) of filling of the mixture is defined within the tank, wherein the mixture inlet is arranged at a position at a level above the maximum level (ML) of filling. The plant further includes a number of fluid outlet(s) connectable to a source of a fluid and arranged above the maximum level (ML) of filling. The fluid outlets being configured to provide a flow of the fluid directed towards the maximum level (ML), below the position of the mixture inlet.

This disclosure describes methods to separate solids from liquids in a production facility. A process separates components in a defiber process stream by using two or more mechanical devices to separate the solids from the liquids based on density differences. The process produces animal feed products having a protein content ranging from approximately 45% to approximately 64%.

The present invention relates to a method of operating a membrane filtration unit including plural hollow fiber membrane modules connected to each other in parallel, the method including: a filtration step; a collection step; and a recovery step, in which a relation of n.sub.1n.sub.2>n.sub.3 is satisfied, where n.sub.1 is the number of the hollow fiber membrane modules simultaneously used in executing the filtration step, n.sub.2 is the number of the hollow fiber membrane modules simultaneously used in executing the collection step, and n.sub.3 is the number of the hollow fiber membrane modules simultaneously used in executing the recovery step.

A mobile agricultural machine includes a sensor capable of sensing a gaseous composition of an air flow impinging the sensor; an air filtering unit configured to remove particulate matter from the air flow; and a controller. The controller is configured to: receive a sensing signal from the sensor, wherein the sensing signal is representative of the gaseous composition; and output an indication signal if the gaseous composition is indicative of an anomaly associated with an operation of the mobile agricultural machine.

A sand-manure liquid separation plant including a tank for the processing of a mixture of sand and manure liquid. The tank including a top portion having a mixture inlet for filling the mixture to be processed into the tank and a bottom portion having a sand discharge for discharging sand settled in the tank. A maximum level (ML) of filling of the mixture is defined within the tank, wherein the mixture inlet is arranged at a position at a level above the maximum level (ML) of filling. The plant further includes a number of fluid outlet(s) connectable to a source of a fluid and arranged above the maximum level (ML) of filling. The fluid outlets being configured to provide a flow of the fluid directed towards the maximum level (ML), below the position of the mixture inlet.

A sand-manure liquid separation plant including a tank for the processing of a mixture of sand and manure liquid. The tank including a top portion having a mixture inlet for filling the mixture to be processed into the tank and a bottom portion having a sand discharge for discharging sand settled in the tank. A maximum level (ML) of filling of the mixture is defined within the tank, wherein the mixture inlet is arranged at a position at a level above the maximum level (ML) of filling. The plant further includes a number of fluid outlet(s) connectable to a source of a fluid and arranged above the maximum level (ML) of filling. The fluid outlets being configured to provide a flow of the fluid directed towards the maximum level (ML), below the position of the mixture inlet.