R value: Difference between revisions

Revision as of 17:26, 2 May 2015

R value

Definitions

The materials ability to resist the heat transfer by conduction is known as thermal resistance or R-Value. Materials with high R-values have greater insulating capabilities than materials with low R-value numbers. Most construction materials have easy to find R-values, such as insulation you may find at a local hardware store may have R-values ranging from R-19 to R-32. As it would be expected the R-32 insulation has better insulation capabilities than the R-19, but the R-32 is usually more expensive.

R-values can be expressed using basic thermodynamic properties of heat transfer, conductivity and amount of material in question:

Sine R-values are "A measure of the resistance of the material to heat flow is the thermal resistance R, often called its R-value given by R=delta/k. The higher the R-value is, the better are the insulating properties of the material. Using this notation, the rate of heat flow is given by

 Qc/t = 1/R*A*change in T

where;

R is a function of both the type of material and its thickness.
T=Time
Qc=Heat transfer
AL/k = R-value of insulation

R-value according to Physics by Cutnell and Johnson:

The R value expresses in a single number the combined effects of thermal conductivity and thickness.
Larger R values reduce the heat per unit time flowing through the material and therefore mean better insulation. It also convenient to use R values to describe layered slabs formed by sandwiching together a number of materials with different thermal ratings and different thicknesses. The R-values for the individual layers can be added to give a single R-value for the entire slab. It should be noted, however, that R-values are expressed using units of feet, hours, F and BTU for thickness, time, temperature, and heat, respectively.

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

External links

Wikipedia:R value

@@ Line 1: / Line 1: @@
-R value
+'''R value'''
-[[Category:Home Energy Conservation and Heat-Tranfer Control]]
-- Definition - the "resistance" of a substance to heat transfer by conduction (according to Energy, Its Use and the Environment)
-The following information is obtained from Energy, Its Use and the Environment:
+==Definitions==
-    "A measure of the [[resistance]] of the material to heat flow is the
-[[thermal resistance]] R, often called its [["R-Value"]] given by R=delta
-over k.  The higher the R-value is, the bettwer are the insulating
-properties of the material. Using this notation, the rate of heat flow is
-given by
-            Qc/t = 1/R x A x change in T
-      R is a funciton of both the type of material and its thickness.
-L/k = R vlaue of insulation
+The materials ability to resist the [[heat transfer]] by [[conduction]] is known as thermal resistance or R-Value. Materials with high R-values have greater insulating capabilities than  materials with low R-value numbers. Most construction materials have easy to find R-values, such as insulation you may find at a local hardware store may have R-values ranging from R-19 to R-32. As it would be expected the R-32 insulation has better insulation capabilities than the R-19, but the R-32 is usually more expensive.
-R-value according to Physics by Cutnell and Johnson
+R-values can be expressed using basic thermodynamic properties of heat transfer, [[conductivity]] and amount of material in question:
-R value
+Sine R-values are "A measure of the [[resistance]] of the material to heat flow is the [[thermal resistance]] R, often called its R-value given by R=delta/k.  The higher the R-value is, the better are the insulating properties of the material. Using this notation, the rate of heat flow is given by
-- it expresses in a single number the combined effects of thermal conductivity and thickness.
+  Qc/t = 1/R*A*change in T
-- Larger R values reduce the heat perunit time flowing through the material and therefore mean better insulation.  It also convenient to use R values to describe layered slabs formed by sandwiching toget a number of materials with differen tthermal conductivities and idferenet thicknesses.  The  R values for the indicidual layeers can be added to give a single R value for the entire slabe.  It should be noted, however, that R values are expressed using units of feet, hours, F and BTU for thickness, time, temperature, and heat, respectively.
+where;
+*R is a function of both the type of material and its thickness.
+*T=Time
+*Qc=Heat transfer
+*AL/k = R-value of [[insulation]]
+R-value according to Physics by Cutnell and Johnson:
+* The R value expresses in a single number the combined effects of thermal conductivity and thickness.
+* Larger R values reduce the heat per unit time flowing through the material and therefore mean better insulation.  It also convenient to use R values to describe layered slabs formed by sandwiching together a number of materials with different thermal ratings and different thicknesses.  The  R-values for the individual layers can be added to give a single R-value for the entire slab.  It should be noted, however, that R-values are expressed using units of feet, hours, F and BTU for thickness, time, temperature, and heat, respectively.
+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==
+* [[Thermal mass]]
+* [[Earth sheltering]]
+== External links ==
+* [[Wikipedia:R value]]
+[[Category:PH261]]
+[[Category:Heating and cooling]]
+[[Category:Thermal insulation]]