A cleaning system for an additively manufactured component includes a tank storing a cleaning fluid. A fluid circuit is operably coupled with the tank. A pump is coupled with the fluid circuit. A manifold is configured to receive fluid from the fluid circuit through the pump. At least one of a coupler defined by the manifold or a hose is coupled with the manifold. The at least one of the coupler defined by the manifold or the hose is further configured to couple with said additively manufactured component.

A method of retrofitting an environmental control system of an aircraft includes inserting the orifice plate through the connector slot and the connector ring slot into the receptacle. The method also includes aligning the covering portion with the connector slot.

A method of retrofitting an environmental control system of an aircraft includes inserting the orifice plate through the connector slot and the connector ring slot into the receptacle. The method also includes aligning the covering portion with the connector slot.

An apparatus for cleaning a felt in a system for producing a paper web has a device for introducing a cleaning liquid into the felt and at least one following suction device in the direction of movement of the felt and having a vacuum duct, through which the cleaning liquid is suctioned out of the felt. The suction device between the vacuum duct and the felt is formed with suction ducts, through which the cleaning liquid in the felt is suctioned away. At least one of the suction ducts is assigned an inflatable valve element. In the inflated state of the valve element the suction duct is closed and in its ventilated state the suction duct is opened.

A HEPA-qualified coating removal system, coating removal tool, and method is disclosed. The HEPA-qualified coating removal system comprises a HEPA-vacuum coupled to a coating removal tool via a vacuum line. A method of using the HEPA-qualified coating removal system includes, but is not limited to, the steps of the user putting on appropriate protective equipment, connecting the vacuum line of the HEPA-vacuum to an outlet of the coating removal tool, activating the HEPA-vacuum, using scraping motion of coating removal tool to strip a surface and the resulting loose debris being removed by suction force from the environment, deactivating the HEPA-vacuum, and disposing of the debris collected in the HEPA vacuum.

A HEPA-qualified coating removal system, coating removal tool, and method is disclosed. The HEPA-qualified coating removal system comprises a HEPA-vacuum coupled to a coating removal tool via a vacuum line. A method of using the HEPA-qualified coating removal system includes, but is not limited to, the steps of the user putting on appropriate protective equipment, connecting the vacuum line of the HEPA-vacuum to an outlet of the coating removal tool, activating the HEPA-vacuum, using scraping motion of coating removal tool to strip a surface and the resulting loose debris being removed by suction force from the environment, deactivating the HEPA-vacuum, and disposing of the debris collected in the HEPA vacuum.

In some implementations, the power plant may include an array having 200 or more modules. In addition, the array may have conterminous modules. Arrays may include modules having a contact point that rests on the ground or a contact surface of one or more structures. In some implementations, 90% of the power-plant arrays have 800 or more modules. In some plants, the ground supports 90 percent of the conterminous modules. In some plants, neither the plants nor the arrays do not contain stowing functionality or extreme dampening functionality.

An apparatus including a housing; a plurality of prongs connected to the housing so that the prongs are movable with respect to the housing; and a device for holding a food; and wherein the plurality of prongs are configured to be moved from a position outside of the food to a position where the plurality of prongs are inserted into the food; and wherein the plurality of prongs are configured to insert a substance into the food. The substance may be a seasoning. The apparatus may include a device for cleaning the plurality of prongs through a vacuum process and/or a blower process; wherein the device has an input configured to connect to one of the plurality of prongs. The apparatus may include a cook food platform; a sandwich platform; a hot beverage platform; and a cold beverage platform.

An apparatus including a housing; a plurality of prongs connected to the housing so that the prongs are movable with respect to the housing; and a device for holding a food; and wherein the plurality of prongs are configured to be moved from a position outside of the food to a position where the plurality of prongs are inserted into the food; and wherein the plurality of prongs are configured to insert a substance into the food. The substance may be a seasoning. The apparatus may include a device for cleaning the plurality of prongs through a vacuum process and/or a blower process; wherein the device has an input configured to connect to one of the plurality of prongs. The apparatus may include a cook food platform; a sandwich platform; a hot beverage platform; and a cold beverage platform.

A gate valve device includes a cleaning component, a first lifting component, and a second lifting component. The cleaning component is arranged on the second lifting component. The first lifting component is configured to control whether an opening on a side of a vacuum chamber close to a swing gate valve is in a closed state. The second lifting component is configured to, in a case that the opening on the side of the vacuum chamber close to the swing gate valve is in the closed state, control the cleaning component to clean the swing gate valve.