A process for determining the drying time for a structure or building uses energy values based on sensible and latent energy to determine the enthalpy evaporation evaluation value for a condition. The condition includes the ambient temperature, the dew point temperature, and the wet bulb temperature for the air. The condition also includes the ambient humidity ratio, the dew point humidity ratio, and the wet bulb humidity ratio. The process can be implemented in a device that uses these values to determine the enthalpy evaporation evaluation value, which is used to predict a drying time for the materials.

A process for determining the drying time for a structure or building uses energy values based on sensible and latent energy to determine the enthalpy evaporation evaluation value for a condition. The condition includes the ambient temperature, the dew point temperature, and the wet bulb temperature for the air. The condition also includes the ambient humidity ratio, the dew point humidity ratio, and the wet bulb humidity ratio. The process can be implemented in a device that uses these values to determine the enthalpy evaporation evaluation value, which is used to predict a drying time for the materials.

A process for determining the drying time for a structure or building uses energy values based on sensible and latent energy to determine the enthalpy evaporation evaluation value for a condition. The condition includes the ambient temperature, the dew point temperature, and the wet bulb temperature for the air. The condition also includes the ambient humidity ratio, the dew point humidity ratio, and the wet bulb humidity ratio. The process can be implemented in a device that uses these values to determine the enthalpy evaporation evaluation value, which is used to predict a drying time for the materials.

A process for determining the drying time for a structure or building uses energy values based on sensible and latent energy to determine the enthalpy evaporation evaluation value for a condition. The condition includes the ambient temperature, the dew point temperature, and the wet bulb temperature for the air. The condition also includes the ambient humidity ratio, the dew point humidity ratio, and the wet bulb humidity ratio. The process can be implemented in a device that uses these values to determine the enthalpy evaporation evaluation value, which is used to predict a drying time for the materials.

Provided is a sensor element that can be manufactured without using hydrofluoric acid or hot phosphoric acid solution. A sensor element 100 includes a base material 10 and a semiconductor chip 20 bonded to the base material 10. The semiconductor chip 20 includes a semiconductor substrate 21, a support film 22 provided on a surface 21a of the semiconductor substrate 21, and a substrate chamber 23 provided in a concave shape on the semiconductor substrate 21 to form a cavity facing an element region 22A of the support film 22, an insulating layer 24 provided on a rear surface 21b of the semiconductor substrate 21, and a bonding layer 25 provided between the insulating layer 14 and the base material 10. The insulating layer 24 includes at least one of a silicon oxynitride film and a silicon oxide film. The bonding layer 25 includes a low-melting point glass.

A head-mounted device includes: an outer shell; a first flow channel that is a gap between a head of a wearer and the outer shell; a second flow channel provided in the outer shell and joining the first flow channel; a fan configured to blow air from one of the first flow channel and the second flow channel to the other of the first flow channel and the second flow channel; a first humidity sensor configured to measure an absolute humidity of intake air entering one of the first flow channel and the second flow channel; and a second humidity sensor configured to measure an absolute humidity of exhaust air exiting from the other of the first flow channel and the second flow channel.

The purpose of the present invention is to reduce a load of preventing dew condensation, and to provide a highly reliable humidity detection device. In order to achieve the purpose, this humidity detection device is provided with: a humidity sensor having a humidity detection unit and a temperature detection unit; a heating resistor that heats the humidity sensor; and a heating control unit that controls a heating temperature of the heating resistor. The humidity detection device is characterized in having a target temperature storage unit that stores target temperatures of the heating resistor, said target temperatures having been determined corresponding to temperatures and humidities.

The purpose of the present invention is to reduce a load of preventing dew condensation, and to provide a highly reliable humidity detection device. In order to achieve the purpose, this humidity detection device is provided with: a humidity sensor having a humidity detection unit and a temperature detection unit; a heating resistor that heats the humidity sensor; and a heating control unit that controls a heating temperature of the heating resistor. The humidity detection device is characterized in having a target temperature storage unit that stores target temperatures of the heating resistor, said target temperatures having been determined corresponding to temperatures and humidities.

A cooking oven wet bulb sensor system having: a reservoir configured to be secured to a cooking chamber wall of the cooking oven, with a cavity of the reservoir in an upward-facing orientation; a temperature sensor probe configured to be mounted at least partially within the cavity of the reservoir; and a water fill opening positioned to dispense water into the cavity. A cooking oven having a wet bulb sensor system and a method for operating a cooking oven are also provided.

A cooking oven wet bulb sensor system having: a reservoir configured to be secured to a cooking chamber wall of the cooking oven, with a cavity of the reservoir in an upward-facing orientation; a temperature sensor probe configured to be mounted at least partially within the cavity of the reservoir; and a water fill opening positioned to dispense water into the cavity. A cooking oven having a wet bulb sensor system and a method for operating a cooking oven are also provided.