Provided are embodiments for a system having an avionics system that is configured to dynamically communicate one or more configurable parameters of a wiper and wash system based at least in part on a selected mode, and an avionics bus that is configured to communicate dynamic parameters from the avionics system. The system also includes a wash system having a fluid reservoir and fluid level sensor, and a wiper system including a control unit (ECU) that is configured to operate the system based at least in part on the one or more configurable parameters, wherein the wiper system is coupled to the wash system and supplies the wash fluid to the wiper system. Also provided are embodiments of a method for performing dynamic control of the aircraft windscreen wiper and wash system configuration parameters.

A device including an outer shell having a first longitudinal axis and a first arcuate shape. The outer shell is opaque to ultraviolet light and to visible light. The device also includes an inner shell having a second longitudinal axis. The inner shell is connected longitudinally to the outer shell along a first longitudinal length and a second longitudinal length. The inner shell has a second arcuate shape different than the first arcuate shape. A chamber is disposed between the outer shell and the inner shell. The chamber is defined by a difference between the first arcuate shape and the second arcuate shape. The device also includes an ultraviolet light source disposed along the second longitudinal axis.

A device including an outer shell having a first longitudinal axis and a first arcuate shape. The outer shell is opaque to ultraviolet light and to visible light. The device also includes an inner shell having a second longitudinal axis. The inner shell is connected longitudinally to the outer shell along a first longitudinal length and a second longitudinal length. The inner shell has a second arcuate shape different than the first arcuate shape. A chamber is disposed between the outer shell and the inner shell. The chamber is defined by a difference between the first arcuate shape and the second arcuate shape. The device also includes an ultraviolet light source disposed along the second longitudinal axis.

An air gasper knob system for an overhead Passenger Service Unit (PSU) includes an annular gasper knob of a UV transparent material. The annular gasper knob defines an air passage therethrough, and extends about the air passage from a first annular end face to a second annular end face. The system also includes a UV illuminator mounted to the gasper knob, oriented to transmit UV illumination through the UV transparent material to sanitize exterior surfaces of the gasper knob. A method of sanitizing an air gasper knob comprises illuminating a gasper knob in an overhead PSU using UV illumination to destroy infectious agents on surfaces of the gasper knob.

A cleaning arrangement for cleaning an interior volume of a tank, the arrangement comprising: a plurality of ultrasonic transducers mounted to a support body to be mounted to the tank, in use, and means for providing electrical power to the transducers, wherein the transducers are mounted to the support body such that, when the support body is mounted to the tank, in use, and when power is supplied to the transducers, the transducers generate ultrasonic waves throughout the interior of the tank.

A cleaning arrangement for cleaning an interior volume of a tank, the arrangement comprising: a plurality of ultrasonic transducers mounted to a support body to be mounted to the tank, in use, and means for providing electrical power to the transducers, wherein the transducers are mounted to the support body such that, when the support body is mounted to the tank, in use, and when power is supplied to the transducers, the transducers generate ultrasonic waves throughout the interior of the tank.

A method and apparatus for cleaning surfaces of an object. A platform may be moved along a path relative to the object using a robotic device. A liquid may be applied onto the plurality of surfaces of the object using an applicator associated with the platform. The liquid may be worked into the plurality of surfaces using a plurality of cleaning elements associated with the platform to dislodge undesired material from the plurality of surfaces. A plurality of flexible members may be moved along the plurality of surfaces to dry the plurality of surfaces and remove the undesired material from the plurality of surfaces. An airflow may be generated that moves the undesired material into a vacuum duct in a vacuum system.

A method and apparatus for cleaning surfaces of an object. A platform may be moved along a path relative to the object using a robotic device. A liquid may be applied onto the plurality of surfaces of the object using an applicator associated with the platform. The liquid may be worked into the plurality of surfaces using a plurality of cleaning elements associated with the platform to dislodge undesired material from the plurality of surfaces. A plurality of flexible members may be moved along the plurality of surfaces to dry the plurality of surfaces and remove the undesired material from the plurality of surfaces. An airflow may be generated that moves the undesired material into a vacuum duct in a vacuum system.

A vehicle includes a disinfection system for combating biological, viral, fungal and parasitic agents. The vehicle includes a power source and is configured to generate at least one signal indicative the vehicle operation status. The disinfection system includes at least one electromagnetic emission device arranged to emit electromagnetic radiation; a controller having a plurality of stored scenarios. The controller is configured to receive the signal and to use the signal to select a scenario from the plurality of stored scenarios. The controller has output means to output control signals to the at least one electromagnetic emission device to control at least one of the intensity, wavelength, and duration of the emitted electromagnetic radiation in response to the selected scenario.

Systems and methods are provided for disinfecting. One embodiment includes a disinfecting device. The disinfecting device includes a housing having an attachment surface and an illumination surface that are opposed along an axis, and a plurality of adjustable ultraviolet (UV) emitters disposed at the housing that have fields of illumination that are adjustable along multiple axes via rotational couplings to illuminate an enclosed space that the illumination surface faces.