Disclosed is a method for reducing methane emission from slurry produced in a livestock farm. The method comprising the steps of guiding unheated slurry from the livestock farm to a slurry heat exchanger, raising the temperature of the unheated slurry in the slurry heat exchanger to at least 65# Celsius, guiding the at least 65# Celsius hot slurry to an intermediate slurry tank, raising the temperature of the heated slurry to at least 75# Celsius in the intermediate slurry tank, guiding the at least 75# Celsius hot slurry through the slurry heat exchanger to exchange heat with the unheated slurry to raise the temperature of the unheated slurry to the at least 65# Celsius and to cool the at least 75# Celsius hot slurry to at least below 40# Celsius, and guiding the at least below 40# Celsius cold slurry to a slurry reservoir. Furthermore, a slurry treatment plant for reducing methane emission from slurry is disclosed.

Disclosed is a method for reducing methane emission from slurry produced in a livestock farm. The method comprising the steps of guiding unheated slurry from the livestock farm to a slurry heat exchanger, raising the temperature of the unheated slurry in the slurry heat exchanger to at least 65# Celsius, guiding the at least 65# Celsius hot slurry to an intermediate slurry tank, raising the temperature of the heated slurry to at least 75# Celsius in the intermediate slurry tank, guiding the at least 75# Celsius hot slurry through the slurry heat exchanger to exchange heat with the unheated slurry to raise the temperature of the unheated slurry to the at least 65# Celsius and to cool the at least 75# Celsius hot slurry to at least below 40# Celsius, and guiding the at least below 40# Celsius cold slurry to a slurry reservoir. Furthermore, a slurry treatment plant for reducing methane emission from slurry is disclosed.

An aerobic method for treating organic material, having the steps of loading a treatment unit with organic material; covering the organic material with a first membrane; aerobic treatment of the organic material by actively supplying air to the organic material and the supplied air flowing through said organic material; turning over the organic material using a turning-over device, wherein the organic material is homogenized and/or mixed; and continuing the supply of air according to step c). The turning-over device is moved along the direction of longitudinal extent of the treatment unit, turning over the organic material by a turning-over roller. The turning-over device has a membrane holding apparatus which holds the first membrane covering the organic material during the turning over, and a membrane laying apparatus, which lays a second membrane on the turned-over organic material.

An aerobic method for treating organic material, having the steps of loading a treatment unit with organic material; covering the organic material with a first membrane; aerobic treatment of the organic material by actively supplying air to the organic material and the supplied air flowing through said organic material; turning over the organic material using a turning-over device, wherein the organic material is homogenized and/or mixed; and continuing the supply of air according to step c). The turning-over device is moved along the direction of longitudinal extent of the treatment unit, turning over the organic material by a turning-over roller. The turning-over device has a membrane holding apparatus which holds the first membrane covering the organic material during the turning over, and a membrane laying apparatus, which lays a second membrane on the turned-over organic material.

A food recycler can include a case having a case volume between 8.79 liters and 35 liters, a control system, a user interface in electrical communication with the control system, and a bucket being configured with a bucket volume, wherein a ratio of the bucket volume to the case volume is between 0.0717 and 0.2857. The recycler can include a motor in communication with the control system, the motor being configured adjacent at least in part to the bucket, a gearbox configured below the bucket and in mechanical communication with the motor, a filter system having at least one filter and configured to receive air from a top portion of the bucket and a drying component configured to remove water from waste food items.

A food recycler can include a case having a case volume between 8.79 liters and 35 liters, a control system, a user interface in electrical communication with the control system, and a bucket being configured with a bucket volume, wherein a ratio of the bucket volume to the case volume is between 0.0717 and 0.2857. The recycler can include a motor in communication with the control system, the motor being configured adjacent at least in part to the bucket, a gearbox configured below the bucket and in mechanical communication with the motor, a filter system having at least one filter and configured to receive air from a top portion of the bucket and a drying component configured to remove water from waste food items.

A continuous membrane-covered aerobic fermentation system and an application method thereof are disclosed. The system comprises: a fermentation trough which is formed by underground walls of trough, above-ground walls of trough, and a trough bottom; a membrane changing machine configured for performing membrane uncovering, membrane laying, or membrane changing treatments on a semipermeable membrane covered on the fermentation trough and materials in the trough; a pile turning machine configured for direct turning and further mixing the materials under the membrane without uncovering the membrane, and gradually shifting and conveying the materials to another fixed position; and a condensate collecting system configured for continuously collecting the condensate on a inner surface of the semipermeable membrane in real time and guiding out the condensate.

A continuous membrane-covered aerobic fermentation system and an application method thereof are disclosed. The system comprises: a fermentation trough which is formed by underground walls of trough, above-ground walls of trough, and a trough bottom; a membrane changing machine configured for performing membrane uncovering, membrane laying, or membrane changing treatments on a semipermeable membrane covered on the fermentation trough and materials in the trough; a pile turning machine configured for direct turning and further mixing the materials under the membrane without uncovering the membrane, and gradually shifting and conveying the materials to another fixed position; and a condensate collecting system configured for continuously collecting the condensate on a inner surface of the semipermeable membrane in real time and guiding out the condensate.

A food recycler can include a case having a case volume between 8.79 liters and 35 liters, a control system, a user interface in electrical communication with the control system, and a bucket being configured with a bucket volume, wherein a ratio of the bucket volume to the case volume is between 0.0717 and 0.2857. The recycler can include a motor in communication with the control system, the motor being configured adjacent at least in part to the bucket, a gearbox configured below the bucket and in mechanical communication with the motor, a filter system having at least one filter and configured to receive air from a top portion of the bucket and a drying component configured to remove water from waste food items.

A food recycler can include a case having a case volume between 8.79 liters and 35 liters, a control system, a user interface in electrical communication with the control system, and a bucket being configured with a bucket volume, wherein a ratio of the bucket volume to the case volume is between 0.0717 and 0.2857. The recycler can include a motor in communication with the control system, the motor being configured adjacent at least in part to the bucket, a gearbox configured below the bucket and in mechanical communication with the motor, a filter system having at least one filter and configured to receive air from a top portion of the bucket and a drying component configured to remove water from waste food items.