A method is described for maintaining a gaseous composition within a tube (that is part of tubular transportation system for transporting passengers or cargos via a capsule), where the tube is arranged along a predetermined route. The method comprises: (a) pumping the tube to a pressure that is below atmospheric pressure until the tube is substantially evacuated; (b) identifying a predetermined power value; (c) identifying a first percentage, x, of helium based on the predetermined power value identified in (b) and a leak rate associated with the tube; (d) maintaining, within each tube in the plurality of substantially evacuated tubes, a gaseous composition a gaseous composition comprising a mixture of a first percentage, x, of helium and a second percentage, (100x), of air.

A method is described for maintaining a gaseous composition within a tube (that is part of tubular transportation system for transporting passengers or cargos via a capsule), where the tube is arranged along a predetermined route. The method comprises: (a) pumping the tube to a pressure that is below atmospheric pressure until the tube is substantially evacuated; (b) identifying a predetermined power value; (c) identifying a first percentage, x, of helium based on the predetermined power value identified in (b) and a leak rate associated with the tube; (d) maintaining, within each tube in the plurality of substantially evacuated tubes, a gaseous composition a gaseous composition comprising a mixture of a first percentage, x, of helium and a second percentage, (100x), of air.

A tubular transportation system is disclosed for transporting one or more passengers or one or more cargoes via a capsule along a predetermined route. The tubular transportation system has: (1) a plurality of substantially evacuated tubes arranged along the predetermined route, where each tube is maintained at a pressure that is below atmospheric pressure; and (2) means for maintaining within each tube in the plurality of substantially evacuated tubes, a gaseous composition comprising a mixture of a first percentage, x, of helium and a second percentage, (100x), of air, and wherein the first percentage, x, of helium is picked based on a predetermined power value and a leak rate associated with the tube.

A tubular transportation system is disclosed for transporting one or more passengers or one or more cargoes via a capsule along a predetermined route. The tubular transportation system has: (1) a plurality of substantially evacuated tubes arranged along the predetermined route, where each tube is maintained at a pressure that is below atmospheric pressure; and (2) means for maintaining within each tube in the plurality of substantially evacuated tubes, a gaseous composition comprising a mixture of a first percentage, x, of helium and a second percentage, (100x), of air, and wherein the first percentage, x, of helium is picked based on a predetermined power value and a leak rate associated with the tube.

Operation of Unmanned Autonomous Vehicles (UAVs) around human population requires the utmost level of safety. Trackpath pre-computed navigation paths and Free flight corridor protection systems reduce the possibility of injuring humans during flight, but at the point of delivery the drone must, by necessity, come down to level of and near humans. This invention teaches the system and method of a personal household mail system that minimizes human exposure to the delivery UAV, provides a method of verifying that the addressee is correct, and optionally secures the mail until it is picked up by the designated recipient.

An automatic reloading and transport system for solid targets for a particle accelerator using a pneumatic tube transport system from the point of target activation by a particle accelerator to a target processing point and back, comprising a pneumatic tube transport system with end stations for receipt and dispatch of a capsule accommodating the target, a handling mechanism for both manipulating the solid target and handling the capsule and a target positioning system.

An automatic reloading and transport system for solid targets for a particle accelerator using a pneumatic tube transport system from the point of target activation by a particle accelerator to a target processing point and back, comprising a pneumatic tube transport system with end stations for receipt and dispatch of a capsule accommodating the target, a handling mechanism for both manipulating the solid target and handling the capsule and a target positioning system.

A method for delivering items in a pneumatic delivery system includes receiving delivery information corresponding to an item to be delivered from a first workstation of a plurality of workstations to a second one of the workstations, configuring a first one of a plurality of blowers and a corresponding workstation diverter corresponding to the first workstation to create a path from the first workstation to the first blower, operating the first blower to generate suction drawing the item to the first blower, configuring a subset of the plurality of diverters of the system to create a continuous path from the first blower to the second workstation and routing, when the first and second workstations are in separate subsystems of the pneumatic delivery system, the item through an inter-subsystem exchange unit so that the item is delivered to the second workstation using only the first blower.

A method for delivering items in a pneumatic delivery system includes receiving delivery information corresponding to an item to be delivered from a first workstation of a plurality of workstations to a second one of the workstations, configuring a first one of a plurality of blowers and a corresponding workstation diverter corresponding to the first workstation to create a path from the first workstation to the first blower, operating the first blower to generate suction drawing the item to the first blower, configuring a subset of the plurality of diverters of the system to create a continuous path from the first blower to the second workstation and routing, when the first and second workstations are in separate subsystems of the pneumatic delivery system, the item through an inter-subsystem exchange unit so that the item is delivered to the second workstation using only the first blower.

A vacuum volume reduction system and method for reducing a volume to be evacuated at a vacuum tube vehicle station are provided. The system has a station vacuum tube in an interior of a station wall of the vacuum tube vehicle station. The station vacuum tube has a tube volume. The system has a volume reduction assembly coupled to the station vacuum tube, and a control system for radially moving the assembly to and from a vehicle outer surface of a vacuum transport tube vehicle, to engage around the vehicle outer surface, for loading and unloading of passengers and/or cargo. The system further has door seal(s), an air supply assembly, and a vent-to-vacuum assembly. The system displaces the tube volume between the station wall and the vehicle outer surface, and in turn, reduces a volume to be evacuated at the vacuum tube vehicle station.