A floating unit and a supply system for a floating unit having a bendable connection element and a platform. The platform includes at least one connection point for storing the at least one floating unit. The at least one connection point includes an additional interface for connecting a first interface of the at least one floating unit wherein the bendable connection element is threaded through the clamping unit of the at least one floating unit.

An unmanned hybrid airship for delivering packages, featuring: a forward payload bay counterbalanced by a moveable counterweight; and a gripping mechanism for engaging unconventional mooring structures such as balcony rails and window sills. Other embodiments are described.

An unmanned hybrid airship for delivering packages, featuring: a forward payload bay counterbalanced by a moveable counterweight; and a gripping mechanism for engaging unconventional mooring structures such as balcony rails and window sills. Other embodiments are described.

A system uses existing pipelines, e.g., natural gas, oil, etc., to transport hydrogen to one or more distribution points. The disclosed hydrogen distribution system enables use of water, sewer, storm drain and other existing pipelines for local distribution. Hydrogen is produced from an energy source at a producing location. A safety pipe is located inside an existing pipeline configured to carry a first product and a hydrogen delivery line, configured to carry hydrogen, is placed inside the safety pipe such that a channel is formed between an exterior of the hydrogen delivery line and an interior of the safety pipe. Hydrogen is injected into the hydrogen delivery line and a sweeper gas is injected into the channel to purge any hydrogen that might be leaking from the hydrogen delivery line.

A system uses existing pipelines, e.g., natural gas, oil, etc., to transport hydrogen to one or more distribution points. The disclosed hydrogen distribution system enables use of water, sewer, storm drain and other existing pipelines for local distribution. Hydrogen is produced from an energy source at a producing location. A safety pipe is located inside an existing pipeline configured to carry a first product and a hydrogen delivery line, configured to carry hydrogen, is placed inside the safety pipe such that a channel is formed between an exterior of the hydrogen delivery line and an interior of the safety pipe. Hydrogen is injected into the hydrogen delivery line and a sweeper gas is injected into the channel to purge any hydrogen that might be leaking from the hydrogen delivery line.

An intelligence, surveillance, and reconnaissance system is disclosed including a ground station and one or more aerial vehicles. The aerial vehicles are autonomous systems capable of communicating intelligence data to the ground station and be used as part of a missile delivery package. A plurality of aerial vehicles can be configured to cast a wide net of reconnaissance over a large area on the ground including smaller overlapping reconnaissance areas provided by each of the plurality of the aerial vehicles.

An intelligence, surveillance, and reconnaissance system is disclosed including a ground station and one or more aerial vehicles. The aerial vehicles are autonomous systems capable of communicating intelligence data to the ground station and be used as part of a missile delivery package. A plurality of aerial vehicles can be configured to cast a wide net of reconnaissance over a large area on the ground including smaller overlapping reconnaissance areas provided by each of the plurality of the aerial vehicles.

The present disclosure proposes a multipurpose floating weather canopy. The multipurpose floating weather canopy comprises of an inner gas tight hollow body, an outer gas tight hollow body, a mesh and plurality of ropes. The multipurpose floating weather canopy aids to shield and protect homes, vehicles and thereof from adverse effects of weather conditions such as sunlight and snow. The size of the multipurpose floating weather canopy is variable based on object size that includes either house or vehicle or factory and thereof. The multipurpose floating weather canopy can be manufactured with required mesh material to protect from heat or snow based on the weather condition.

The present disclosure proposes a multipurpose floating weather canopy. The multipurpose floating weather canopy comprises of an inner gas tight hollow body, an outer gas tight hollow body, a mesh and plurality of ropes. The multipurpose floating weather canopy aids to shield and protect homes, vehicles and thereof from adverse effects of weather conditions such as sunlight and snow. The size of the multipurpose floating weather canopy is variable based on object size that includes either house or vehicle or factory and thereof. The multipurpose floating weather canopy can be manufactured with required mesh material to protect from heat or snow based on the weather condition.

A Rapid Air Ballast System that generates ballast for an airship relatively quickly by compressing air at low pressures into a ballonet inside a large volume tank. The air pressure inside the ballonet being roughly equal to the lifting gas pressure outside the ballonet but inside the tank. The system comprising a controllable air compression device to achieve the desired air pressure and valves in the system to direct the flow of air into or out of the system. This is particularly useful for quickly and efficiently controlling aerostatic lift for an airship, especially while performing on-loading and off-loading of payload operations.