See How He Build Log House Underground From Start to Finish 15 Days in the Forest

Written by: Arron J. Staff writer @ Hyggehous.com

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If building your log cabin underground is something you've considered, this amazing video takes you from start to finish in all the stages of building a new dugout.

The video includes 3 hours of live sounds which make for the best relaxation for sleep. You will also learn how to build a house underground in 15 days in the forest. The video begins with finding the perfect location for the log cabin building in the forest. Shop Tiny Homes The video doesn't waste any time with the cutting and organizing of logs for the log house construction. A good tip is to wear some gloves when you are building your log cabin to avoid getting any slivers. You'll want to determine the size of the log cabin building so you can dig out the base of your log cabin accordingly.

The partially buried surface of the log house structures protects the cabin from snow, ice, and frosty nights along with the scorching heat, by benefiting from the constant temperature (the thermal mass) of the subsoil, and also helps with stored food (which is better preserved), planted crops (if the building is a greenhouse).

Whether in log homes or greenhouses, partially buried buildings also known as pit houses, and dugout shelters benefit from thermal stability and the heating and cooling of the earth, thus facilitating the lives of people and plants in areas with high-temperature variation, and unexpected weather events.

Dugout shelters can also be used as greenhouses, benefiting from internal microclimates close to thermal comfort levels, equally appropriate both for hosting crops and for sheltering people and animals, the dugout greenhouse achieves a sense of warmth in winter and coolness in summer without using energy sources beyond those already present in the surrounding subsoil.

A dugout log cabin shelter takes advantage of the constant temperature of the earth.

In partially buried buildings, the interior temperature remains constant and equal to the local average annual temperature of the air. This is possible thanks to the thermal inertia of the part of the building that is situated below the level of the ground, whose temperature lags several months behind the external air temperature, thus avoiding the effects of large changes such as snow, ice, heat waves, and more. There is a way to prevent the interior of a cabin building from registering abrupt changes in the temperature of the external atmosphere, and this is well-known to many distinct cultures to avoid abrupt temperature changes, it is sufficient to locate the floor of the building at greater depth in the soil (and therefore at a greater distance from the surface).

Partially buried buildings use simple construction methods but yield immediate returns.

Their age-old benefits have become relevant again, now that both environmental considerations and protection from extreme climatic phenomena have become a priority, as a result of events such as Hurricane Sandy. The partially buried surface of these structures protects as much from snow, ice, and frosty nights as from scorching heat, by benefiting from the constant temperature (the thermal mass) of the subsoil, and of which stored food (which is better preserved), planted crops (if the building is a greenhouse), and human inhabitants of regions with inhospitable climates can all take advantage.