A chiller bath includes a tank for holding a volume of chiller water; a dosing system for dosing a first solution and a second solution into the chiller water, arranged to create a plurality of zones within the volume of water, wherein each zone has a higher concentration of either the first or the second solution than surrounding portions of the volume of water; and a meat or poultry immersion arrangement for immersing and moving carcasses in the chiller water. A method for reducing bacterial load on meat or poultry includes generating a plurality of zones within a chiller bath containing water by dosing a source of alkalinity and antimicrobial into the water, wherein the plurality of zones comprises at least one alkaline zone with a pH above 8.5, and at least one antimicrobial zone with pH below 8.5; and submersing meat or poultry in the bath. The zones can also be generated using spray nozzles in a meat or poultry operation.

A chiller bath includes a tank for holding a volume of chiller water; a dosing system for dosing a first solution and a second solution into the chiller water, arranged to create a plurality of zones within the volume of water, wherein each zone has a higher concentration of either the first or the second solution than surrounding portions of the volume of water; and a meat or poultry immersion arrangement for immersing and moving carcasses in the chiller water. A method for reducing bacterial load on meat or poultry includes generating a plurality of zones within a chiller bath containing water by dosing a source of alkalinity and antimicrobial into the water, wherein the plurality of zones comprises at least one alkaline zone with a pH above 8.5, and at least one antimicrobial zone with pH below 8.5; and submersing meat or poultry in the bath. The zones can also be generated using spray nozzles in a meat or poultry operation.

A method for preserving aquatic products at sea includes the following steps: an on-board refrigeration system is used to refrigerate the antifreeze solution, and the antifreeze solution is used as a main cold source, and temperatures at centers of fish bodies drop rapidly to achieve rapid cooling and reduce activity of endogenous enzymes and inhibit proliferation of microorganisms by direct or indirect heat exchange with captured catches. The antifreeze solution contains edible alcohol, propylene glycol, glycerol, calcium chloride, sodium chloride, amino acids, Antarctic krill protein hydrolysate with average molecular weight of 50-100 KDa, surfactant and water, and the mass percentage of each component is as follows: edible alcohol 15%-30%, propylene glycol 10%-30%, glycerol 2%-15%, calcium chloride 1%-10%, sodium chloride 3%-10%, amino acid 0.1%-0.15%, Antarctic krill protein hydrolysate 0.01%-0.3%, surfactant 0.005%-0.5%, and the balance is water.

A method for preserving aquatic products at sea includes the following steps: an on-board refrigeration system is used to refrigerate the antifreeze solution, and the antifreeze solution is used as a main cold source, and temperatures at centers of fish bodies drop rapidly to achieve rapid cooling and reduce activity of endogenous enzymes and inhibit proliferation of microorganisms by direct or indirect heat exchange with captured catches. The antifreeze solution contains edible alcohol, propylene glycol, glycerol, calcium chloride, sodium chloride, amino acids, Antarctic krill protein hydrolysate with average molecular weight of 50-100 KDa, surfactant and water, and the mass percentage of each component is as follows: edible alcohol 15%-30%, propylene glycol 10%-30%, glycerol 2%-15%, calcium chloride 1%-10%, sodium chloride 3%-10%, amino acid 0.1%-0.15%, Antarctic krill protein hydrolysate 0.01%-0.3%, surfactant 0.005%-0.5%, and the balance is water.

The present invention relates to a method to treat insects in order to produce a human nutrition and/or an animal feed. The treatment involves at reducing and preferably stopping the autolysis of the insects, preferably using a cooling treatment step. The present invention further relates to a line to process insects.

The present invention relates to a method to treat insects in order to produce a human nutrition and/or an animal feed. The treatment involves at reducing and preferably stopping the autolysis of the insects, preferably using a cooling treatment step. The present invention further relates to a line to process insects.

The invention relates to process for reducing the number of viable microorganisms present on the surface of meat, especially poultry. The process comprising the steps of rapidly cooling the surface membrane of a contaminated meat item to a sequence of temperatures sufficient to reduce the number of viable bacteria, whilst at the same time retaining in the muscle meat the organoleptic and nutritional qualities of fresh meat. Campylobacter spp. are successfully controlled by the methods disclosed.

The invention relates to process for reducing the number of viable microorganisms present on the surface of meat, especially poultry. The process comprising the steps of rapidly cooling the surface membrane of a contaminated meat item to a sequence of temperatures sufficient to reduce the number of viable bacteria, whilst at the same time retaining in the muscle meat the organoleptic and nutritional qualities of fresh meat. Campylobacter spp. are successfully controlled by the methods disclosed.

The present invention has demonstrated that microorganisms present in a liver can be killed by washing the bile duct and the portal vein with hot water, and then disinfecting the liver using a chlorine-based disinfectant. It has also been demonstrated that sterilizing effects can be enhanced by freezing the liver after disinfection with a chlorine-based disinfectant.

The present invention has demonstrated that microorganisms present in a liver can be killed by washing the bile duct and the portal vein with hot water, and then disinfecting the liver using a chlorine-based disinfectant. It has also been demonstrated that sterilizing effects can be enhanced by freezing the liver after disinfection with a chlorine-based disinfectant.