Tiny houses for summer have inspired significant cultural attention, spawning TV series, DIY workshops, and sometimes even entire towns, thanks to their mobility and practical simplicity. It is tempting to glamorize the concept of having a modest house that one can pack up and relocate to any location on the spur of the moment. But can you count on that home to be pleasant all year, particularly when temperatures soar into the triple figures or blizzards pelt you with snow?
Many households will need a strategy to provide you with comfortable heating systems while moderating the carbon footprint it leaves behind. This can include high-efficiency cooling systems, which utilize environmentally friendly refrigerants and require little power, as well as architectural design strategies that eliminate the need for cooling systems altogether.
We looked at several passive cooling solutions in this article that will help you to keep an innovative tiny house for summer cool throughout the season without the need for a motorized cooling system.
Small house walls can be wrapped in recycled cedar slats atop 1-inch-thick foam panels, which create a consistent protective layer and reduce heat transfer of the hardwood wall structure. Cork is generally called a carbon-negative substance since the carbon trapped in cork stems can outweigh the carbon dioxide emissions. The air gap separates the cedar paneling from the foam, allowing the wooden planks to shelter the cork and capture radiation from the sun while limiting direct heat transmission to the home.
To further restrict heat absorption in hot weather and heat lost in cold weather, the building’s walls can be coated with recovered denim. The tiny home’s main span of windows is a trap door at the front, which is covered by pulley-mounted shade curtains fashioned from wood slats that complement the paneling. The shading structure stretches far enough to stop radiation from the sun from passing through the glass doorway in the summertime, but it may let in sunshine and central heating whenever the sun is lower in the sky.
In order to have some openness in the home, the capacity to screen the window in the summertime and let sunshine in during the wintertime is essential. So, you can pick windows that are both well-insulated, low U-value, and engineered to let the excess energy in. If excessive heat is undesirable in the summertime, covering the window is the way to go.
A coating of BioPCM phase change material works as a heating material in the roof, absorbing and storing energy that is otherwise heating the interior area. Thermal mass protects the inside from being hot throughout the day in both adobe constructions and concrete buildings. However, phase change material is lighter than concrete, making it suitable for uses like the roof of a small house, and has a lower carbon impact. Cement manufacture is responsible for around 8% of worldwide carbon emissions.
At 77 degrees Fahrenheit or 25 degrees Celsius, the phase-changing material, which would be embedded in strips that can be stretched out among the horizontal beams like elevated bubble wrap, dissolves from solid-state to liquid. This involves the absorption of heat energy as it transitions phases – it keeps the temperature below 77° until it reaches its high-temperature limit, similar to a sponge that cannot absorb any more water.
When living in small house, it is important to keep in mind that the roof is intended to collect some of the thermal light while rejecting the rest. The roof should be shaded by a 2.3-kilowatt solar farm, which feeds into the main battery to store power for night usage. To reduce heat absorption from solar radiation, the “cool roof” can additionally be coated with a light-colored acrylic roofing membrane.
Living in small house relies on a few effective electronics equipment. Ventilation systems and other effective electrical equipment have gone forever hand-in-hand with passively cooling systems, even if these do not qualify as truly passive technology. The tiny home’s ventilation & airflow technologies require little power and allow the structure to be warm with or without a specialized motorized cooling system.
In warmer climates, an elevated ceiling fan uses 4–18 watts of power and keeps occupants comfortable. The use of a ceiling fan may greatly reduce the requirement for air conditioning, enabling occupants to increase the temperature by roughly 4° F without compromising comfort.
Because the well-insulated construction is supposed to be sealed off from outside throughout hot summer days, windows in the tiny houses for summer provide no air circulation throughout the day. As a result, the small house depends on a regenerative braking ventilator to provide fresh air.
The regenerative braking ventilator employs a heating element to lower the heat energy of any outside air before something enters the home, allowing ventilation without introducing heated air. In wintertime, it works in the other direction, warming the arriving fresh air with the temperature of the exiting stale air.
Because of the designs seen in a typical tiny house for summer and low energy demands for ventilation, it can run completely off the network, especially during the summer months when sunlight is plentiful.
If you are not really willing to commit to residing in a 170-square-foot house on tires, just consider the amount of freedom, access to nature, and the overall escape you’d have from the daily turmoil of life with such a living arrangement. Besides, with intelligent design, one can achieve a lot with little expenses. So, the answer to the overarching question is “yes.”
If you are fed up with your little home transforming into a toaster in the summertime, consider these simple solutions. On days when it is too hot to manage, you can try out a solution that suits your needs and get by just fine. Living in a tiny house doesn’t have to be that much of a hassle!
You can also read: Tiny House Movement: All You Should Know