Abstract: A distributed control system for a vacuum sewer system comprising a suction pipe which is communicated with a vacuum source via a transport conduit (520) by opening a vacuum valve (530) using a solenoid valve is disclosed. The transport conduit is connected between the vacuum valve and a collection tank, with the collection tank having a vacuum source relative to atmospheric pressure applied thereto. The suction pipe is connected between the vacuum valve and a sewage sump, with the sewage sump have a source of sewage maintained at atmospheric pressure. Sewage (551) in the sump is sucked through the suction pipe and sent to the collection tank via the transport conduit by opening the vacuum valve. A transport conduit section is laid out in a sawtooth fashion, having in series transport conduit portions comprising a low-point conduit portion (522), a riser conduit portion (521), and a down-slope conduit portion (523).

Abstract: A distributed control system for a vacuum sewer system comprising a suction pipe which is communicated with a vacuum source via a transport conduit (520) by opening a vacuum valve (530) using a solenoid valve is disclosed. The transport conduit is connected between the vacuum valve and a collection tank, with the collection tank having a vacuum source relative to atmospheric pressure applied thereto. The suction pipe is connected between the vacuum valve and a sewage sump, with the sewage sump have a source of sewage maintained at atmospheric pressure. Sewage (551) in the sump is sucked through the suction pipe and sent to the collection tank via the transport conduit by opening the vacuum valve. A transport conduit section is laid out in a sawtooth fashion, having in series transport conduit portions comprising a low-point conduit portion (522), a riser conduit portion (521), and a down-slope conduit portion (523).

Abstract: A distributed control system for a vacuum sewer system comprising a suction pipe which is communicated with a vacuum source via a transport conduit (520) by opening a vacuum valve (530) using a solenoid valve is disclosed. The transport conduit is connected between the vacuum valve and a collection tank, with the collection tank having a vacuum source relative to atmospheric pressure applied thereto. The suction pipe is connected between the vacuum valve and a sewage sump, with the sewage sump have a source of sewage maintained at atmospheric pressure. Sewage (551) in the sump is sucked through the suction pipe and sent to the collection tank via the transport conduit by opening the vacuum valve. A transport conduit section is laid out in a sawtooth fashion, having in series transport conduit portions comprising a low-point conduit portion (522), a riser conduit portion (521), and a down-slope conduit portion (523).

Abstract: A self-contained radio frequency (RF) wireless communication device (100) comprising an explosion-proof housing (110), an internal electronic system for the conversion of radio wave and conducted electrical signals, and an internal antenna system located within a non-metallic portion (130) of the housing for collecting and emitting radio wave energy. The antenna system enables the wireless communication device (100) to safely collect and emit radio wave energy using one or more optimally configured antenna resonators (351), with each antenna resonator differing each other antenna resonator by at least one attribute in a group of attributes comprising: frequency response, field polarization, and wavelength spatial diversity.