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In certain embodiments, an apparatus for killing pests in an affected area includes a fuel source, a first air inlet configured to receive a first air flow from the affected area, and a second air inlet configured to receive a second air flow from an unaffected area. The system further includes a pr

In certain embodiments, an apparatus for killing pests in an affected area includes a fuel source, a first air inlet configured to receive a first air flow from the affected area, and a second air inlet configured to receive a second air flow from an unaffected area. The system further includes a premix system operable to generate an air-fuel mixture by mixing a fuel flow received from the fuel source with the second air flow received from the second air inlet. The system further includes a burner operable to generate combustion air by combusting the air-fuel mixture. The combustion air is mixed with the first air flow subsequent to combustion to generate a heated air flow, and the heated air flow is discharged into the affected area. The fuel source, the premix system, and the burner are configured for positioning in the affected area.

대표청구항 ▼

1. An apparatus for use in killing pests in an affected area, comprising: a fuel source comprising a fuel tank;a first air inlet configured to receive a first air flow from an affected area;a second air inlet configured to receive a second air flow from an unaffected area;a premix system operable to

1. An apparatus for use in killing pests in an affected area, comprising: a fuel source comprising a fuel tank;a first air inlet configured to receive a first air flow from an affected area;a second air inlet configured to receive a second air flow from an unaffected area;a premix system operable to generate an air-fuel mixture by mixing a fuel flow received from the fuel source with the second air flow received from the second air inlet;a burner operable to generate combustion air by combusting the air-fuel mixture, the combustion air being mixed with the first air flow to generate a heated air flow to be discharged into the affected area, the burner being configured such that the flame resulting from the combustion of the air-fuel mixture is shielded from the first air flow;a thermostat positioned in the first air inlet, the thermostat operable to measure an air temperature at the first inlet; anda controller configured to communicate with the thermostat, the controller operable to cause a change in the heated air flow being discharged into the affected area based on the measurement of the air temperature at the first air inlet;wherein the fuel tank, the premix system, the burner, the thermostat, and the controller are housed in a moveable cabinet for positioning in the affected area. 2. The system of claim 1, wherein the affected area comprises a dwelling located in a building at above ground level. 3. The system of claim 1, wherein the second air flow has a flow rate sufficient to combust substantially all of the fuel flow received from the fuel source. 4. The system of claim 1, wherein: the fuel tank comprises a propane tank; andthe fuel flow comprises a flow of propane gas. 5. The system of claim 4, wherein the flow of propane gas comprises between 10,000 and 40,000 BTUs of energy. 6. The system of claim 1, wherein the second air inlet is in fluid communication with the unaffected area via an air duct extending to the unaffected area. 7. The system of claim 1, wherein the premix system comprises a blower operable to draw the second air flow from the unaffected area at a flow rate sufficient to combust at least a portion of the fuel flow received from the fuel source. 8. The system of claim 1, wherein the heated air flow being discharged into the affected area heats air in the affected area to a target temperature greater than or equal to 120 degrees Fahrenheit. 9. The system of claim 1, further comprising one or more air monitoring sensors operable to perform at least one of the following: monitor an oxygen level of ambient air within the affected area;monitor a carbon dioxide level of the ambient air within the affected area; andmonitor a carbon monoxide level of the ambient air within the affected area. 10. The system of claim 9, wherein the one or more air monitoring sensors are further operable to cause the fuel flow to the premix system to stop if at least one of the following is determined: the oxygen level is less than a predetermined minimum oxygen level;the carbon dioxide level is greater than a predefined maximum carbon dioxide level; andthe carbon monoxide level is greater than a predefined maximum carbon monoxide level. 11. The system of claim 1, further comprising a tip sensor configured to cause the fuel flow to the premix system to stop upon a determination that the orientation of the fuel source is outside a range of operating orientations. 12. An apparatus for use in killing pests in an affected area, comprising: a fuel source operable to supply a fuel flow having between 10,000 and 40,000 BTUs of energy, the fuel source comprising a fuel tank;a first air inlet configured to receive a first air flow from an affected area;a second air inlet configured to receive a second air flow from an unaffected area, the second air inlet being in fluid communication with the unaffected area via an air duct extending to the unaffected area;a premix system operable to generate an air-fuel mixture by mixing the fuel flow received from the fuel source with the second air flow received from the second air inlet, the second air flow having a flow rate sufficient to combust substantially all of the fuel flow received from the fuel source;a burner operable to generate combustion air by combusting the air-fuel mixture, the combustion air being mixed with the first air flow to generate a heated air flow to be discharged into the affected area in order to heat air in the affected area to a target temperature greater than or equal to 120 degrees Fahrenheit, the burner being configured such that the flame resulting from the combustion of the air-fuel mixture is shielded from the first air flow;a thermostat positioned in the first air inlet, the thermostat operable to measure an air temperature at the first inlet; anda controller configured to communicate with a thermostat operable to measure an air temperature in the affected area, the controller operable to cause a change in the heated air flow being discharged into the affected area based on the measurement of the air temperature at the first air inlet;wherein the fuel tank, the premix system, the burner, the thermostat, and the controller are housed in a moveable cabinet for positioning in the affected area. 13. The apparatus of claim 12, wherein the affected area comprises a dwelling located in a building at above ground level. 14. The apparatus of claim 12, wherein: the fuel tank comprises a propane tank; andthe fuel flow comprises a flow of propane gas. 15. The apparatus of claim 12, wherein the premix system comprises a blower operable to draw the second air flow from the unaffected area at a flow rate sufficient to combust substantially all of the fuel flow received from the fuel source. 16. The apparatus of claim 12, further comprising one or more air monitoring sensors operable to perform at least one of the following: monitor an oxygen level of ambient air within the affected area;monitor a carbon dioxide level of the ambient air within the affected area; andmonitor a carbon monoxide level of the ambient air within the affected area. 17. The apparatus of claim 16, wherein the one or more air monitoring sensors are further operable to cause the fuel flow to the premix system to stop if at least one of the following is determined: the oxygen level is less than a predefined minimum oxygen level;the carbon dioxide level is greater than a predefined maximum carbon dioxide level; andthe carbon monoxide level is greater than a predefined maximum carbon monoxide level. 18. The apparatus of claim 12, further comprising a tip sensor configured to cause the fuel flow to the premix system to stop upon a determination that the orientation of the fuel source is outside a range of operating orientations.