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.

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.

A kit for extermination of pest animals in furniture and a method for using the kit are disclosed. A sheet is provided over upholstered furniture. The sheet may be provided with ballast at the edges for keeping the sheet more or less fixed. Heated air is forced underneath the sheet. The furniture is preferably provided with an air treatment module for forcing air through the upholstery like a mattress. This allows the heated air provided by the forced air supply to be provided to the upholstery via the inside, highly increasing efficiency of heat treatment of the furniture. A way of controlling temperature of air provided by the forced air supply is disclosed, as well as a way of controlling temperature of air actually within the spaced defined by the positioned sheet. The latter allows for improved control of maintaining a temperature at which for example bed bugs are killed.

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.

Methods, structures, devices and systems are disclosed for solarizing soil using a moveable optical focusing array. In one example, an apparatus to solarize soil from a moveable platform includes a vehicle, an array of mirrors located on the exterior of the vehicle, in which the mirrors are steerable to control the orientation of the mirrors to direct sunlight to a spot on soil that generates heat to a solarize the soil, and a sensor coupled to the vehicle to measure the temperature of the soil, in which the orientation of the mirrors is determined based at least in part on the measured temperature to control the temperature of the soil.

A parasite eradicating device configured for eradicating parasites by producing a high-temperature airflow, directing it in a stream at an infestation area where parasites thrive, and suctioning the airflow away from the infestation area, such that the parasites are killed and their eggs rendered nonviable by the heat of the airflow.

Disclosed herein is an insect control system that involves injection of hot liquid (e.g. water or other ecologically suitable liquid) into a mound or nest of target insects. The system includes a tank, a heating component, a hose, a pump and an injector component. The system may further include an actuator to control release of hot liquid through the injector component as well as components to keep the operator safe from hot liquid. Typically, the tank will hold a volume of liquid and the system heats the liquid to about 150 F. or more.

A system to verify product authenticity includes a transceiver configured to receive information regarding one or more pieces of ferromagnetic material that are in or on a product. The system also includes an electromagnetic radiation source configured to emit radiation to heat the one or more pieces of ferromagnetic material in or on the product. The system also includes a heat sensor configured to detect heat emitted from the one or more pieces of ferromagnetic material that are in or on the product. The system further includes a processor in communication with the transceiver, the electromagnetic radiation source, and the heat sensor. The processor is configured to determine if the product is counterfeit based on the received information and the detected heat.

A battery powered insect repellent device capable of the battery being separated from the volatile dispenser element and further including wireless communication facilities between a smartphone and the repellent device enabling electronic monitoring of the status of the various elements in the device as well as displaying the same to the user.

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.