The present invention is directed to processes for preparing oil compositions having a high concentration of poly-unsaturated fatty acids and oil compositions having a low concentration of -linolenic acid. In addition, the present invention is directed to processes for preparing oil compositions having advantageous stability characteristics.

The present invention is directed to processes for preparing oil compositions having a high concentration of poly-unsaturated fatty acids and oil compositions having a low concentration of -linolenic acid. In addition, the present invention is directed to processes for preparing oil compositions having advantageous stability characteristics.

An onsite system for generating a fumigant for use with foodstuffs comprising: an active fumigant vaporizing station comprising: a first water heater; a heat exchanger connectable to the first water heater to receive heated water therefrom, the heat exchanger being configured to receive, heat and vaporise active liquid fumigant entering into the heat exchanger via a fumigant inlet; and a fumigant outlet connected to the plate heat exchanger for delivering a stream of vaporised fumigant; a liquid diluent vaporizing station comprising: a second water heater; a shell and tube heat exchanger connectable to the second water heater to receive heated water therefrom, the shell and tube heat exchanger being configured to receive, heat and vaporise the liquid diluent entering into the shell and tube heat exchanger via a mixing liquid inlet; and a mixing liquid outlet connected to the shell and tube heat exchanger for delivering the vaporised diluent; and a mixing unit configured to receive and mix the vaporised fumigant from the fumigant outlet and the vaporized diluent liquid from the diluent liquid outlet; mixing of the vaporised fumigant and vaporised mixing liquid to deliver a vaporised fumigant mixture; and a mixing and control means at the mixing unit for mixing the vaporised fumigant and diluent at, or substantially at, a predetermined mixing ratio.

An onsite system for generating a fumigant for use with foodstuffs comprising: an active fumigant vaporizing station comprising: a first water heater; a heat exchanger connectable to the first water heater to receive heated water therefrom, the heat exchanger being configured to receive, heat and vaporise active liquid fumigant entering into the heat exchanger via a fumigant inlet; and a fumigant outlet connected to the plate heat exchanger for delivering a stream of vaporised fumigant; a liquid diluent vaporizing station comprising: a second water heater; a shell and tube heat exchanger connectable to the second water heater to receive heated water therefrom, the shell and tube heat exchanger being configured to receive, heat and vaporise the liquid diluent entering into the shell and tube heat exchanger via a mixing liquid inlet; and a mixing liquid outlet connected to the shell and tube heat exchanger for delivering the vaporised diluent; and a mixing unit configured to receive and mix the vaporised fumigant from the fumigant outlet and the vaporized diluent liquid from the diluent liquid outlet; mixing of the vaporised fumigant and vaporised mixing liquid to deliver a vaporised fumigant mixture; and a mixing and control means at the mixing unit for mixing the vaporised fumigant and diluent at, or substantially at, a predetermined mixing ratio.

A method of treating a product or surface with a reactive gas, comprises producing the reactive gas by forming a high-voltage cold plasma (HVCP) from a working gas; transporting the reactive gas at least 5 cm away from the HVCP; followed by contacting the product or surface with the reactive gas. The HVCP does not contact the product or surface.

A method of treating a product or surface with a reactive gas, comprises producing the reactive gas by forming a high-voltage cold plasma (HVCP) from a working gas; transporting the reactive gas at least 5 cm away from the HVCP; followed by contacting the product or surface with the reactive gas. The HVCP does not contact the product or surface.

Disclosed is an apparatus for decontaminating grain with ozone, where the apparatus includes a grain inlet, a decontamination chamber that includes a plurality of baffles and a plurality of ozone ports; and a grain outlet. Also disclosed is a method for decontaminating grain that includes contacting a gravity assisted or gravity driven flow of grain with ozone.

Disclosed is an apparatus for decontaminating grain with ozone, where the apparatus includes a grain inlet, a decontamination chamber that includes a plurality of baffles and a plurality of ozone ports; and a grain outlet. Also disclosed is a method for decontaminating grain that includes contacting a gravity assisted or gravity driven flow of grain with ozone.

A method of treating a product or surface with a reactive gas, comprises producing the reactive gas by forming a high-voltage cold plasma (HVCP) from a working gas; transporting the reactive gas at least 5 cm away from the HVCP; followed by contacting the product or surface with the reactive gas. The HVCP does not contact the product or surface.

A method of treating a product or surface with a reactive gas, comprises producing the reactive gas by forming a high-voltage cold plasma (HVCP) from a working gas; transporting the reactive gas at least 5 cm away from the HVCP; followed by contacting the product or surface with the reactive gas. The HVCP does not contact the product or surface.