Tuesday 22 July 2014



"The insulation thickness calculator helps to compute the heat loss in materials such as pipes, ducts, broilers. The calculation can aid in cost reduction as well as energy saving."


It is only through a proper installation system can you prevent heat loss from happening. Insulation Thickness Calculator is used to calculate the loss of CO2 emissions and heat losses for a fixed period as well as to ensure that the insulation thickness is a cost-effective one.  Any exterior, which is hotter than its surroundings is bound to lose heat, unless insulation is put on the hot surface to reduce the heat externally. 


There are many varieties of insulation materials available; each of them has their own thermal performance features, handling properties and fire protection characteristics. When it comes to the cost factor; the insulation materials need to be selected carefully. The requirements need to be determined way in advance so as to be able to analyze the cost differentiation and make alternative choice, if available.  Insulation Thickness Calculator will help calculate the cost of insulation for different insulation thickness. It is also a valuable tool is reassuring the return on the investment when a decision needs to be finalized on insulation of pipes, tanks, ducts and boilers. It is also important when calculating the thickness to also be able to input data regarding the products that may require multiple insulation layers.
The thermal conductivity of insulation materials fluctuates according the material type, density and functioning temperature. The operating temperature is also one of the important factors to take into consideration when inputting data into the Insulation Thickness Calculator.
For instance, if pipes perform below the environment temperature, there is a potential risk of water fog to condense on the pipe surface. This may create corrosion. When you insulate the pipe properly, the condensation can be prevented. The surface heat of the insulation always differs from the surface temperate of the pipes. Followed by, pipes insulated in places where the environmental temperature is below freezing point. When water freezes it tends to expand and this may cause problems in the water flow system and may even cause the pipe to break. The insulation of the pipes cannot stop the water from freezing, but with proper calculation, it can increase the time it takes to freeze.
Some of the materials available in the choices of pipe can also facilitate in energy efficiency. The thermal insulation helps to reduce heat flow, therefore aiding to reduce the user costs. The thickness of thermal pipes establishes a thermal resistance dynamic, thus enabling the reduction of heat flow. In a building where the structural insulation has been considered as well insulated, and measures set to ensure that the heat loss would be effectively prevented, there is no need to further put in thermal pipe insulation. One of the factors affecting the performance of the pipe is the Insulation thickness.  You need to be able to calculate it by providing information such as surface coefficient of outer diameter and inner heat flow, the humidity, the environmental temperatures. You can then decide on what shape, size, and diameter of the pipe you need to install.
 


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