A system for pest control in a confined space using flue gas from a biomass power plant is disclosed. The system contains a flue gas treatment device including a discharge pipe; a storage tank of treated flue gas; a control unit; a first regulating valve; a first pressure monitoring sensor; a carbon dioxide concentration monitoring sensor; and a first atmospheric valve.

A system for pest control in a confined space using flue gas from a biomass power plant is disclosed. The system contains a flue gas treatment device including a discharge pipe; a storage tank of treated flue gas; a control unit; a first regulating valve; a first pressure monitoring sensor; a carbon dioxide concentration monitoring sensor; and a first atmospheric valve.

In some examples, a sensor node is mounted, using two metal fasteners, to a wood item located indoors. The sensor node measures, using a thermometer, an ambient temperature of a location in which the wood item is located, measures, using a hygrometer, an ambient humidity of the location, measures, by an ohmmeter, a resistance of the wood item between the two metal fasteners, determines, based on the resistance, a moisture content of the wood item, and determines, based on the ambient temperature, the ambient humidity, and the moisture content, that conditions are conducive to pest activity. The sensor node captures audio data. using a microphone coupled to the wood item, determines that the audio data indicates pest activity, and sends a notification of pest activity. The notification includes the ambient temperature, the ambient humidity, the moisture content, and the audio data.

In some examples, a sensor node is mounted, using two metal fasteners, to a wood item located indoors. The sensor node measures, using a thermometer, an ambient temperature of a location in which the wood item is located, measures, using a hygrometer, an ambient humidity of the location, measures, by an ohmmeter, a resistance of the wood item between the two metal fasteners, determines, based on the resistance, a moisture content of the wood item, and determines, based on the ambient temperature, the ambient humidity, and the moisture content, that conditions are conducive to pest activity. The sensor node captures audio data. using a microphone coupled to the wood item, determines that the audio data indicates pest activity, and sends a notification of pest activity. The notification includes the ambient temperature, the ambient humidity, the moisture content, and the audio data.

Method and apparatus for a pest control device mounting system configured for mounting pest control devices in a building and using them to control pests. The pest control device mounting system including a mounting bracket, which may have a circumferential portion defining a portal. In some examples, the mounting bracket includes a flange portion suitable for attaching to the perimeter of a cavity in a building surface. The pest control device mounting system including a plug configured to be removably attached to the mounting bracket and to substantially close the portal when attached to the mounting bracket, wherein the plug is configured to accommodate a pest control device.

Method and apparatus for a pest control device mounting system configured for mounting pest control devices in a building and using them to control pests. The pest control device mounting system including a mounting bracket, which may have a circumferential portion defining a portal. In some examples, the mounting bracket includes a flange portion suitable for attaching to the perimeter of a cavity in a building surface. The pest control device mounting system including a plug configured to be removably attached to the mounting bracket and to substantially close the portal when attached to the mounting bracket, wherein the plug is configured to accommodate a pest control device.

A pest abatement wall plate includes a wall plate portion structured to cover an electrical box. The wall plate portion is formed substantially from a plastic material, and it has an inner surface and an outer surface. The inner surface is adjacent to an inside volume of the electrical box when the pest abatement wall plate is deployed. The pest abatement wall plate also includes a hosting platform proximate the inner surface of the pest abatement wall plate. The hosting platform arranged to stage a pesticide. Optionally, the pest abatement wall plate further includes a mounting structure and a hinge connecting the mounting structure to the wall plate portion.

A pest abatement wall plate includes a wall plate portion structured to cover an electrical box. The wall plate portion is formed substantially from a plastic material, and it has an inner surface and an outer surface. The inner surface is adjacent to an inside volume of the electrical box when the pest abatement wall plate is deployed. The pest abatement wall plate also includes a hosting platform proximate the inner surface of the pest abatement wall plate. The hosting platform arranged to stage a pesticide. Optionally, the pest abatement wall plate further includes a mounting structure and a hinge connecting the mounting structure to the wall plate portion.

A method for killing pests in an affected area of a structure includes receiving a flow of water from a faucet, wherein the faucet comprises one of a shower faucet and a sink faucet and the temperature of the flow of water is at least 45 degrees Fahrenheit. The method continues by generating heated air using a heat pump by transferring heat from the flow of water to air, and emitting the heated air into an affected area in order to raise the temperature of the affected area to a target temperature greater than 120 degrees Fahrenheit. The method concludes by monitoring a temperature of a flow of water as it is received and, automatically ceasing operation of the heat pump when the temperature of the flow of water is above a predefined limit.

A method for killing pests in an affected area of a structure includes receiving a flow of water from a faucet, wherein the faucet comprises one of a shower faucet and a sink faucet and the temperature of the flow of water is at least 45 degrees Fahrenheit. The method continues by generating heated air using a heat pump by transferring heat from the flow of water to air, and emitting the heated air into an affected area in order to raise the temperature of the affected area to a target temperature greater than 120 degrees Fahrenheit. The method concludes by monitoring a temperature of a flow of water as it is received and, automatically ceasing operation of the heat pump when the temperature of the flow of water is above a predefined limit.