A modular multiport pod missile includes a plurality of pipe sections securable together to form a conduit for transporting a fluid in a generally horizonal direction of travel, and at least one pod secured between two of the pipe sections forming the conduit. Each pod has a plurality of input ports extending radially outwardly at an angle from a perimeter of the pod. Each of the input ports is configured for connection to a high-pressure line for delivering a high-pressure fluid from a pump to the conduit. The input ports are angled such that, when connected to a high-pressure line, high-pressure fluid flowing through the input ports merges with the fluid in the conduit generally in the same direction of travel as the fluid in the conduit.

A fluid conduit assembly for a fluid supply system includes a low-pressure conduit assembly. The low-pressure conduit assembly includes a low-pressure conduit, multiple low-pressure inlets, and multiple low-pressure outlets. Each low-pressure inlet includes a fluid passage configured to independently direct low-pressure fluid from a fluid source to the low-pressure conduit, and the low-pressure outlets are configured to direct the low-pressure fluid from the low-pressure conduit to multiple fluid pumps.

A fluid conduit assembly for a fluid supply system includes a low-pressure conduit assembly. The low-pressure conduit assembly includes a low-pressure conduit, multiple low-pressure inlets, and multiple low-pressure outlets. Each low-pressure inlet includes a fluid passage configured to independently direct low-pressure fluid from a fluid source to the low-pressure conduit, and the low-pressure outlets are configured to direct the low-pressure fluid from the low-pressure conduit to multiple fluid pumps.

A component assembly for a space environment includes a main body, and a plurality of main body openings in the main body. Each main body opening has an identical cross-sectional shape. A plurality of inserts are installed to the main body at respective main body openings of the plurality of main body openings. Each insert of the plurality of inserts defines a fluid port for a fluid flow to flow into the main body or out of the main body via the respective main body openings. At least two fluid ports have a different cross-sectional configuration.

An X-pipe for an automotive engine exhaust system is made from a pair of 3-inch diameter metal pipes, each formed with a central bend and a pair of outboard bends. Each pipe is formed to have an oval-shaped central opening, and the two pipes are welded together along a central plane at the oval-shaped central openings. The resulting X-pipe may then be welded into an exhaust system and then installed on a vehicle with an internal combustion engine, and reduces rasp on startup, harmonizes exhaust flow between the cylinder banks on the engine, and improves tonal pleasantness of the exhaust note.

A water drain management apparatus used in clinical facility (43) or other facility includes a manifold plumbing fitting (32, 272, 384). The fitting includes a plurality of drain outlet connections for water discharge devices (40, 42, 222, 226, 230, 234). Such water discharge devices may include devices such as autoclaves, sterilizers, cleaners, washers, filters, humidifiers, condensing devices and other devices used in the facility. A plurality of drain fitting openings in the body of the fitting are connectable to respective water discharge devices, and openings that are not utilized are closable with plugs. Some manifold fittings (272, 344, 384, 482) include an air gap opening (288, 360, 392, 530). These configurations provide an air gap that prevents contamination due to back flow of water within the fitting reaching water discharge devices or the body inlet of the manifold fitting.

A water drain management apparatus used in clinical facility (43) or other facility includes a manifold plumbing fitting (32, 272, 384). The fitting includes a plurality of drain outlet connections for water discharge devices (40, 42, 222, 226, 230, 234). Such water discharge devices may include devices such as autoclaves, sterilizers, cleaners, washers, filters, humidifiers, condensing devices and other devices used in the facility. A plurality of drain fitting openings in the body of the fitting are connectable to respective water discharge devices, and openings that are not utilized are closable with plugs. Some manifold fittings (272, 344, 384, 482) include an air gap opening (288, 360, 392, 530). These configurations provide an air gap that prevents contamination due to back flow of water within the fitting reaching water discharge devices or the body inlet of the manifold fitting.

A gas infuser includes a mixing chamber and a liquid injector. Gas is supplied into the mixing chamber and liquid flows through openings of the injector to mix with the gas in the mixing chamber and form a gas-infused liquid.

Connecting assembly of a gas cooking appliance that includes a flexible tube and a connector fixed to a first end of said flexible tube, the connector being configured to be directly connected to an opening of a manifold of the gas cooking appliance.

A fluid connection assembly that includes a plurality of tubes having a first open end and a second open end opposite the first open end and a plurality of connectors. Each of the connectors include at least two connector portions, in which each of the at least two connector portions extend from a center of the connector and have a first end connected to the center of the connector and a second end connected to the second open end of one of the plurality of tubes. The connector portions are continuously formed with the tube and the center of the connector and the connector portions are fluidly connected together.