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Good '''thermal mass''' is an important part of [[passive solar]] and [[energy efficient building]] design, and contributes to an [[energy efficient]] building.
==Basic definition==
==Basic definition==
'''Thermal mass''' is a heat storage material, such as [[water as thermal mass|water]], [[concrete]], [[masonry]], or [[earthen construction]], used in [[solar thermal energy]] systems also known as [[passive solar heating]] systems. With passive solar heating, the house itself acts as the solar collector and the storage facility. The essential elements of a passive solar system are:
'''Thermal mass''' is a heat storage material, such as [[water as thermal mass|water]], [[concrete]], [[masonry]], or [[earthen construction]], used in [[solar thermal energy]] systems also known as [[passive solar heating]] systems. With passive solar heating, the house itself acts as the solar collector and the storage facility. The essential elements of a passive solar system are:
* excellent [[insulation]],  
* excellent [[insulation]],  
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==Types of passive systems==
==Types of passive systems==
There are three categories that passive systems can fall into.
 
There are three categories that passive systems can fall into:


===Direct gain===
===Direct gain===
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Finally, the third category of these passive solar heating systems is an attached greenhouse on the south side of the house. The greenhouse acts as an expanded thermal storage wall. It will share some of its heat with the adjoining house.
Finally, the third category of these passive solar heating systems is an attached greenhouse on the south side of the house. The greenhouse acts as an expanded thermal storage wall. It will share some of its heat with the adjoining house.


== Interwiki links ==
==Thermal mass and R-value==
In very limited and specific situations, uncommon during the heating season, thermal mass can marginally increase the apparent [[R-value]] of a building assembly such as a wall.  Generally speaking [[thermal mass]] and [[R-value]] are distinct thermodynamic properties and should not be equated.  Thermal performance problems apparently seen in some earthship designs may have occurred because of thermal mass being erroneously equated to [[R-value]].
 
According to the [http://www.engext.ksu.edu/ees/henergy/envelope/basement.html Kansas State University Extension Service] the R-value of soil is about 1 per foot.


==See also==
* [[Earth sheltering]]
== External links ==
* [[Wikipedia:Thermal mass]]
* [[Wikipedia:Thermal mass]]


[[Category:Solar]]
{{Solar navbox}}
 
[[Category:Passive solar]]
[[Category:PH261]]
[[Category:PH261]]
[[Category:Thermal insulation]]

Revision as of 09:49, 7 October 2012

Good thermal mass is an important part of passive solar and energy efficient building design, and contributes to an energy efficient building.

Basic definition

Thermal mass is a heat storage material, such as water, concrete, masonry, or earthen construction, used in solar thermal energy systems also known as passive solar heating systems. With passive solar heating, the house itself acts as the solar collector and the storage facility. The essential elements of a passive solar system are:

Thermal mass and insulation

Where thermal mass is used in walls, e.g. stone, strawbale or earth construction, these thick walls also provide significant insulation. See insulating walls.

Types of passive systems

There are three categories that passive systems can fall into:

Direct gain

One of which is a direct gain system. In this system, large south-facing windows are used to admit the sunlight. and thermal mass is placed in the house to absorb the solar radiation. Another system is indirect-gain.

Indirect gain

Indirect gain collects and stores the solar energy in one part of the building and uses natural heat transfer to distribute the heat throughout the building, such as the Trombe wall.

Greenhouse

Finally, the third category of these passive solar heating systems is an attached greenhouse on the south side of the house. The greenhouse acts as an expanded thermal storage wall. It will share some of its heat with the adjoining house.

Thermal mass and R-value

In very limited and specific situations, uncommon during the heating season, thermal mass can marginally increase the apparent R-value of a building assembly such as a wall. Generally speaking thermal mass and R-value are distinct thermodynamic properties and should not be equated. Thermal performance problems apparently seen in some earthship designs may have occurred because of thermal mass being erroneously equated to R-value.

According to the Kansas State University Extension Service the R-value of soil is about 1 per foot.

See also

External links

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