Technology Development Projects

Underwater Facilities Construction

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This type of facility pertains to underwater facilities, such as up-side-down sky scrapers that have an upper layer that floats on the water and uses compression of helium to manage buoyancy. Other technologies that pertain to this facility type may include underwater inner-facility waterfalls and building integrations with the aquatic environment, such as waterfalls that flow through the building at horizontal levels, waterfalls that are controlled with gravity fields, and observation decks that stretch out into the water away from the building and/or to attach multiple buildings together. This facility may use the combination of an above-ground entry point that allows entry while keeping the buoyancy and the use of multiple airlocks and pressurization / depressurization to ensure the pressure inside the building doesn’t change. The facility may also use underwater ports that connect with submarine vehicles.

Underground Cavern Facilities Construction

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This type of facility pertains to the construction of facilities within caverns, such as facilities that are attached to the top of caverns, to the side of caverns, and facilities that are able to gather the resources in caverns and sustain the environmental impacts of the enclosure of the caverns, such as hot lava flowing below in the cavern, water flowing below and the risks of flooding, lack of oxygen, dangerous gas in the cavern, and other possibilities such as the use of mining equipment in the cavern while also maintaining the strength of the facilities – including the attachment to the cavern, the shields of the facility, and uses of technologies such as transparent hydraulic jacks that allow the creation of additional structural support inside the cavern while not obstructing the view.

Carrier Ship Mass Production Facilities

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This type of facility pertains to the mass production of carrier ships. This would pertain to the ability to build hundreds of carrier ships in a very limited amount of time, such that the facilities are designed as an assembly line rather than an order-by-order construction process. This facility type converts the process into an assembly line that manufactures and assembles large numbers of components, and each of the carrier ships can vary in the configurations, while the robotic manufacturing and assembly line is able to install and configure a vast number of technologies that are available, and have the capability to mass produce the carrier ships to deliver on the demands of entire military forces that order entire fleets of carrier ships all at the same time.

 

Magnetic Foundry Construction

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This facility pertains to the manufacturing of magnets through the foundry of large amounts of magnetic particles into the molten form. This facility requires a high-capacity ventilation system for the equipment and for the environment around the equipment, and the air must be filtered at a nuclear level due to the use of nuclear technology to align the particles during the foundry process of the magnet creation. This facility type is a secured nuclear research facility, with its own requirements for distance clearance and safety procedures. The facility has multiple levels of clearance, such as receiving the raw supplies of magnetic particles that are enriched to super-magnetic particles, the movement of the super-magnetic particles to the melting equipment, the pouring of the melted magnetic materials into the foundry molding, the alignment of the magnetic forces, the cooling of the magnets, and the loading of the magnets onto the transportation train that delivers the magnets to the completed pieces facility. Each of the compartments of the process has as separate inter-compartmental system that is required for security access to the specific compartment, and the inter-compartments all have separate airlocks and air sanitization / screening / security rooms to ensure there is no cross contamination of nuclear radiation, particles, and/or other types of contaminants. Some of the rooms may require radiation shielding, and in such rooms there are entry way centers that include multiple screening / decontamination levels, including decontamination suits and decontamination procedures that are separate for input and output, and there are multiple rooms for each, such that each room and each direction is separate to ensure isolation of all instances and to ensure that all particles / radiation / contaminants are removed from all persons prior to their entry / exit into the specific rooms that require such decontamination procedures, and to ensure the safety of the overall project from such cross contamination.

Volcano Facilities Construction

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This technology pertains to the use of robotics and specialized technologies to build secured facilities within volcanoes, including the conversion of lava and the heat from rocks into cryogenic fluids, and the overall rapid cooling of the volcano to allow for mining and construction of facilities within the recent molten rocks. These facilities may require systems that manage the environmental temperature underground to ensure that the temperature of the volcano remains under control, such as pushing the lava flows deeper underground while channeling the energy from the lava into a power generation facility that is designed especially for the volcano facilities. This technology would provide power for air conditioning systems, the generation of pure oxygen, and the creation of water from the production of cryogenic fluid from the lava, and the gathering of perspiration from the freezing technologies. The cryogenic fluid is created through the differentiation of the liquid in the lava and at a distance, and the cooled fluid at a cryogenic state is compressed within storage tanks with multiple levels of shielding, such that the cold does not escape from within the storage tanks, and there are multiple layers of air-tight and temperature-tight seals that keep the inner parts of the storage tanks under perfect controlled temperatures.

 


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