In a method for the inactivation of microorganisms in liquid foods, a liquid food is mixed with a pressurized, liquefied gas at a pressure which is sufficient to maintain the liquefied gas in the liquid state. The mixture of food and gas is then depressurized to a pressure at which the liquefied gas is vaporized. According to the invention, before or during the depressurization to the second pressure, the mixture is guided through a pipeline and brought up to a flow speed in the pipeline which is sufficient to form cavitations in the liquid food.

Various embodiments of the present invention relate to, among other things, a nano carrier platform for generating enhanced engineered water nanostructures (iEWNS) encapsulating and delivering reactive oxygen species (ROS) and, in some instances, other active ingredients, methods for inactivating at least one of viruses, bacteria, bacterial spores, and fungi on a substrate by applying iEWNS to the substrate.

Various embodiments of the present invention relate to, among other things, a nano carrier platform for generating enhanced engineered water nanostructures (iEWNS) encapsulating and delivering reactive oxygen species (ROS) and, in some instances, other active ingredients, methods for inactivating at least one of viruses, bacteria, bacterial spores, and fungi on a substrate by applying iEWNS to the substrate.

The process includes a treatment step during which a liquid containing a biocidal and/or plant-protection product or a mixture of biocidal and/or plant-protection products is evaporated and injected into the internal atmosphere of premises, the liquid being evaporates at a temperature of less than 50° C., the product vapour concentration in the internal atmosphere of the premises being kept at greater than 10% of a saturation concentration of the vapour of said product in said atmosphere at said temperature for a saturation duration of greater than 12 hours.

A method of treating the atmosphere of a storage of vegetable products with a volume greater than 200 m.sup.3, wherein the method comprises at least one step of contacting the atmosphere with a liquid flow by circulation in a packing. A treatment unit of the atmosphere of a storage of vegetable products having a volume greater than 200 m.sup.3, wherein the unit comprises a contacting device comprising a packing, a device for injecting a liquid flow into the contacting device, a device for circulating the storage atmosphere in the contacting device, wherein the contacting device is so designed that the atmosphere is brought into contact with the liquid flow by circulation in the packing.

A method of treating the atmosphere of a storage of vegetable products with a volume greater than 200 m.sup.3, wherein the method comprises at least one step of contacting the atmosphere with a liquid flow by circulation in a packing. A treatment unit of the atmosphere of a storage of vegetable products having a volume greater than 200 m.sup.3, wherein the unit comprises a contacting device comprising a packing, a device for injecting a liquid flow into the contacting device, a device for circulating the storage atmosphere in the contacting device, wherein the contacting device is so designed that the atmosphere is brought into contact with the liquid flow by circulation in the packing.

A method and apparatus for reducing pathogens in successive pre-measured units of a flowable food product without substantially increasing the head height requirement of a feed production system. A plurality of containers are moved about a path within a housing. The path has a plurality of stations, such as a receiving station, one or more sanitizing stations, and a dispensing station, and a container cleaning station. A pre-measured unit of the flowable food product is received at the receiving station into a container. The pre-measured unit of the flowable food product is exposed to one or more sanitizing agents at one or more sanitizing stations. The pre-measured unit of the flowable food product is dispensed into the packaging device at the dispensing station. The containers are then cleaned at the container cleaning station to prepare each container to receive a subsequent pre-quantified unit of the flowable feed product.

A device and related degassing method for granular or powder material and the use of a blower element, wherein a containment chamber of the granular or powder material and of a gas produced by said material is provided, means for supplying an injection gas with the gas produced by the material having the blower element for feeding the injection gas into said chamber for mixing and/or homogenizing the material and the relative gas produced by the material itself with the injection gas.

A device and related degassing method for granular or powder material and the use of a blower element, wherein a containment chamber of the granular or powder material and of a gas produced by said material is provided, means for supplying an injection gas with the gas produced by the material having the blower element for feeding the injection gas into said chamber for mixing and/or homogenizing the material and the relative gas produced by the material itself with the injection gas.

The aspects of the present disclosure relate to methods for energy-efficient destruction of organic toxins on the surface of any material, in particular on the surface of organic material. The material contaminated with toxins is exposed to NH.sub.2 and H radicals. Said radicals react chemically with toxins causing their transformation to less poisonous or less carcinogenic substances, or destruction to hydrocarbons and nitrogen-containing benign molecules. Exemplary usage for treatment of seeds, grains, beans, food, feedstock.