Controlling how sunlight enters your home and what it warms is a key passive solar strategy.
Using solar power is becoming more affordable because of improving technologies and new financing models for residential and commercial solar panel installations. However, too little attention is paid to one of the most cost-effective ways to take advantage of the sun – passive solar heating.
Think of your car on a sunny day: closing the windows traps heat and warms the car’s interior, while opening the windows allows heat to escape and cools it. That's passive heating and cooling in a nutshell. And it uses zero energy.With rising energy costs and the effects of global warming already upon us, we need to rethink the way we heat and cool our homes and approach these tasks with maximum efficiency in mind. Why waste electricity or burn fossil fuels if direct sunlight can raise the temperature of a room or house for several hours for free?On the Sunny Side of the Street
Even if the houses in a typical subdivision all look the same, you can be sure their heating bills aren't. Assuming that everything else is equal, houses with several large windows exposed to the sun will benefit from passive solar gain for a few hours each day. If the sun shines directly on a stone or brick fireplace, ceramic tile floors, or even jugs of water, you're storing heat for later use. This stored heat is released slowly, warming the air even after the sun has set. A slowly rotating ceiling fan and open interior doors can help to distribute the heat throughout the house.
These are the rudimentary principles behind effective passive solar design: taking advantage of the local climate to heat and cool buildings with less dependence on mechanical systems. Each climate region has specific variables that need to be considered whether you’re buying or building a home, so you should seek expert advice to learn what factors contribute to the overall effectiveness of a passive solar home.
The Key Design Elements
Passive solar design includes elements both inside the home and the surrounding environment. When properly managed, these elements of passive solar design will help to heat and cool your home from season to season.
Orientation. Your home should be oriented so that the most or the largest windows are facing south in the Northern Hemisphere (north in the Southern Hemisphere).
Insulation/Air sealing. Insulation should meet or exceed the recommended levels for your climate region to help to maintain both cool or warm interior temperatures.
Absorption/Reflection. Consider finishes and materials that will absorb or reflect heat as desired.
Thermal mass. Certain building materials can reduce temperature fluctuation by absorbing heat and slowly releasing it back into the house: concrete, masonry, and water all make good thermal mass materials.
Distribution. Whole house fans distribute hot and cold air as needed and thoughtfully located windows allow cross breezes for cooling.
Control. You can plan for seasonal variations by incorporating changing or changeable elements like window shading, deciduous trees, and windbreaks into your passive solar design. Roof overhangs should allow sunlight in when the sun's path is lower in the winter but help to shade the windows in the summer when the sun is higher in the sky. Well placed deciduous trees can also provide shade in summer without blocking sunlight in the winter.
Managing Passive Heating and Cooling
Managing passive systems is really pretty simple and intuitive. In the winter you let the sun warm the house during the day and keep it from escaping at night. In the summer you do the opposite – you want to exclude the sun's heat during the day and let cooler air in at night....To read more click here.