About dome house

For people who desire their own country home but are unable to purchase a traditional cottage because to cost or other constraints, a spherical home offers a more contemporary and functional

Dome house - theory. Features of the construction of houses in which there are no corners

A house is a structure where we spend enough time . People live here, and they are connected by similar passions and circumstances. Instead of being a physical term, it is more psychological in nature. We can therefore conclude that this is a structure where a person feels safe, unbound, and free. The extraordinary aesthetic and functional qualities of other geometric forms have completely escaped our notice as we have grown accustomed to square homes and rooms. Fortunately, the days of architectural clichés are long gone, and every year the world offers architects, engineers, and designers a wider range of fresh creative opportunities. It does so by abstracting from norms and patterns.


The geodesic dome has long been recognised as a building type that uses the least amount of materials while still being incredibly robust per gramme of material utilised.

The network of geodesic lines provides the geometry of the strongest and most economical structural system, and the geodesic grid distributes stress and tension in the most efficient way possible, so the larger the dome, the lighter and stronger its structure (in proportion to the change in its size).

Dome-style residential buildings are stunning and practical structures with amazing qualities and extraordinary attributes that may offer optimum comfort in all climatic zones, and they have weathered the most ferocious weather on Earth.

The most beneficial, aesthetically pleasing, and conducive to proper Qi flow is the circular shape. Similar structures, such as yurts, igloos, wigwams, or tips, were constructed by numerous nations in the past. You experience freedom and lightness inside the geodesic dome. Anomalies and stress zones cannot occur because of the sphere's homogenous energy field. This is supported by the ancient inhabitants' homes, including wigwams, yurts, yarangas, igloos, and tents. With modern materials and appropriate design, dome homes are the most appealing and affordable option. Costs for heating (and cooling) are 40–60% lower. The domes' incredible thermal performance is a result of their favourable area-to-volume ratio.

A building's aerodynamic drag directly relates to how much heat it loses. The boundary layer of air that is adhered to the surface of every item by intermolecular microgravity is not disrupted by the wind, which slides smoothly over and around the dome without producing enough eddies and vortices. The wind encounters less resistance as it passes around the dome thanks to the aerodynamic effect of the design.

The interior of the dome's curved surface encourages effective indoor air exchange and natural air circulation. Natural "ring-shaped" air currents prevent stratification, and the air temperature is constant from the dome's floor to its apex throughout its whole volume.

The design's aerodynamic benefit reduces the cost of heating and cooling. The thermal efficiency of a dome increases by doubling its size.


Construction innovations include dome homes. These are reasonably priced, comfy designs composed of durable, eco-friendly materials. Frame domed homes are produced in factories and then given to customers in the form of kit. Such a dwelling takes a few days to assemble on a pre-prepared basis.

A dome will require 1/4 less materials because a sphere's surface is approximately 1/4 less than a cube's surface of equal volume. Moreover, the dome uses 60–70% less elements in the structure's frame, saving 40% more energy and eliminating "cold bridges" due to the consistency of the material used for protective barriers.

More than 150m3 of logs with a diameter of 22 mm, building lumber, and finishing timber are needed to produce a log home with a surface area of 250 m2.

At the same time, 10 m3 of timber and 12 m3 of slab material (LVL, OSB3, FSF) are needed for the building of one passive wooden geodesic dome with a diameter of 14 m, three levels, and a total size of 350 m2.

No crazy foundation is required because the building is sturdy, light, and stable on its own; also, there is no need to order tools or cranes because the Dome-Dome set can be transported anywhere in a single truck.

You can build the Dome House yourself in 7–12 days and experience the indescribable joy of making your own home without having to place an order or employ numerous specialists for the bricklaying and roofing.

The design's energy efficiency and sensible use of materials are primarily influenced by its form.



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