Geodesic Dome’s – Steven Paul Cote

Geodesic Domes

Planning to use Geodesic Domes for many purposes. Temporary and semi-permanent structures.

evStation’s plan to cluster a few or more domes together, huge Marquee to connect the Dom enabling gun control access to eat dumb protected from the adverse weather conditions when necessary.

Large bay windows and Twilight windows are playing to enable natural light into the dome interior space.

Pacific Domes, has been selected as a preferred provider for the first year.

Geodesic Domes are strong and durable, most can withstand 100 mph winds.

Fast set up and take down is expected with using compact track loaders (CTLs) and other rapid assembly technique including humanoid robots. Artificial general intelligence is planned teaching robots, to set
-up and take-down thumbs especially in the upper higher areas for some danger present itself without proper equipment.

Size Selection to include supporting the plans of not to 150 guests for a dining experience. Films also plan for privacy one or two people for intimate dining experience. Domes are available in many different sizes. Exterior and interior services are ideal for branding.

DESCRIPTION:

Geodesic Domes are the strongest structure known in the architectural world. They cover the most amount of space with the least amount of material. Domes are portable, quick and easy to assemble and yet can withstand any snow and wind load required.

The American Institute of Architects awarded R. Buckminster Fuller a gold medal, acclaiming his invention, the geodesic dome, as “the strongest, lightest and most efficient means of enclosing space known to man“.

The manufacturers have perfected the function and beauty of these portable Geodesic Domes over the last 30 years, in which time people have been living in them close to nature. Giving a comfortable and energy efficient environment, safe in high winds, heavy snows, and earthquakes!

Energy Efficiency
There are two reasons domes are energy efficient. The ambient airflow inside the dome is continuous, with no stagnant corners, requiring less energy to circulate air and maintain even temperatures. The energy required to heat and cool a dome is approximately 30% less than a conventional building. The second is the high volume-to-surface-area ratio, requiring less building materials to enclose more space. The lower the ratio of a building’s outside perimeter to its enclosed living area, the less energy is required for building, heating and cooling.
The sphere has 25% less surface area per volume enclosed than any other shape. The dome combines the inherent stability of triangles with the advantageous volume-to-surface-area ratio of a sphere. The larger the dome, the more efficient it becomes. This is demonstrated by doubling the diameter, which encloses eight times the volume.

BASIC PACKAGE INCLUDES:
• Frame – Standard galvanized steel frame with hardware
• Cover – Shelter cover with bay window
• Ventilation – Base roll-up flaps with zippers
• Windows – Round, removable windows
• Door – Weather-tight door or pre-hung door opening
• Anchor plates to anchor frame to floor
• Dome Care Manual including Deck Plans and assembly instructions

EXTRAS:
• Floor plans to build a floor, not physical flooring)
• Sanitation (Indoor sealed unit composting toilets)
• Temperature Control (Cooling, Heating, Insulation)
• Furniture (Floating Beds and Air Chairs)

EXAMPLE: 16ft. (5m) Basic Dome: 3,200 euros
Floor Area: 195 sq.ft. (18 sq.meters)
Ceiling Height: 8 ft. 2 in. (2.5 meters)
Bay Window: 5ft. tall x 14ft. wide (1.5×4.3 meters)
Dome Weight: 185 – 200 lbs. (84 – 91 kg.)
Frame Package: 5ft. x 18in. x 18in. (1.5 x .5 x .5 meters)
Cover Package: 3ft. x 18in. x 18in. (.9 x .5 x .5 meters)
Assembly Time: 2 hours with a crew of 2 (double your first time)