An oven for elimination of harmful organisms which pose phytosanitary risks and are present in material of plant origin in the form of particles is provided. The oven includes: a said oven comprising (a) first and second circular plates mounted in rotation about an axis Z, the surface of said plates being perforated and permeable to air and water, (b) a means for transferring the collected particles from the first plate to the second plate, and (c) a gas-blowing means forming a closed gas cycle. The gas-blowing means includes a blower for accelerating a flow of gas and directing it towards a heating station in order to heat the gas and directing it parallel to the axis Z towards the first plate, passing through the perforated surface of the first plate, then directly afterwards through the perforated surface of the second plate, in order to return to the blower and recommence the gas cycle.

The present invention provides a mosquito trapping device, which comprises a carbon dioxide generating module, a temperature control module, a humidity control module, and a mosquito-killing module. The carbon dioxide generating module comprises a container A and a container B, a solution in the container A reacts with a solution in the container B to generate carbon dioxide; the temperature control module controls a temperature of the mosquito trapping device to be between 38 C. and 45 C.; the humidity control module controls humidity of the mosquito trapping device to be between 50% and 80%; the mosquito-killing module generates a guiding wind having a wind speed of 0.7 m/s to 15 m/s. The present invention has a good mosquito-attracting effect and a desirable mosquito-killing ability.

A device for detecting a group of offending objects and determining that the number of offending objects is above a predetermined threshold of offending objects. The device uses an image capturing system to scan areas to detect flying objects such as flying insects to detect a presence of a swarm of such flying objects. An action head on the device is configured to automatically respond once a swarm of objects is identified. The action head may disperse the swarm by expelling a substance such as a mist, smoke, repellant or insecticide.

An induction heating system a base and an electromagnetic radiation source configured to generate an emission area in the base. The emission area comprises a portion of the base that receives electromagnetic radiation from the electromagnetic radiation source. The system also includes a ferromagnetic element and an element controller configured to move the ferromagnetic element into and out of the emission area.

The present invention provides a method and system for processing insect larvae in an ethical manner and without imposing unnecessary stress on them. The method involves anaesthetising the insects by cooling and then cutting them, thereby destroying the nervous system of the insects. Thus, an energy-saving method of processing insects with minimal stress is provided.

A device for detecting offending objects such as insects on substrates such as on leaves, plants, in fluid or over a large area. The device has a microscope lens which magnifies a portion of the substrate and sends an image of the substrate portion to an image recognition system. If the image recognition system detects the presence of an offending objectfurther steps are taken to remove, neutralize or mark the area where the offending object is located for subsequent action. The device may be mounted on a movable platform such as drone for active surveillance and action over a large area.

A method for performing mold remediation includes placing a ferromagnetic material in or adjacent to a surface upon which mold is located. The method also includes emitting, by an electromagnetic radiation source, radiation to heat the ferromagnetic material that is adjacent to the surface upon which the mold is located. The method also includes detecting, by a temperature sensor, a temperature of the surface. The method further includes comparing, by a processor in communication with the electromagnetic radiation source and the temperature sensor, the temperature of the surface to a desired temperature to perform mold remediation.

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.

A method of analyzing shipments of goods includes receiving, by a transceiver of a shipment analysis system, a heat map template, where the heat map template is an expected heat map for a plurality of packages in a shipment. The method also includes directing electromagnetic radiation from an electromagnetic radiation source to the package to heat any ferromagnetic material in or on a package. The method also includes generating, by a processor of the shipment analysis system, a heat map based on the heating of any ferromagnetic material in or on the package. The method further includes generating, by the processor, an alert responsive to a determination that the generated heat map does not match the heat map template. The alert indicates that the package is not one of the plurality of packages in the shipment.

A method for performing mold remediation includes placing a ferromagnetic material in or adjacent to a surface upon which mold is located. The method also includes emitting, by an electromagnetic radiation source, radiation to heat the ferromagnetic material that is adjacent to the surface upon which the mold is located. The method also includes detecting, by a temperature sensor, a temperature of the surface. The method further includes comparing, by a processor in communication with the electromagnetic radiation source and the temperature sensor, the temperature of the surface to a desired temperature to perform mold remediation.