THERMAL INSULATION

by | Dec 1, 2022 | Thermal Insulation

What is Thermal Insulation:

  • Any material that retards or Resistance to the flow of heat through it is known as Thermal Insulation
  • Insulating material that has Extremely low thermal conductivity.
  • Insulation maintains the lower temperature inside the duct by insulating it from the warmer ambient air temperature and vice versa.

The function of Thermal Insulator:

  • To resist the flow of heat from the surrounding
  • To make possible better control of temperature in the refrigerated space.
  • To minimize temperature fluctuation
  • To prevent water vapor condensation.
  • To minimize water vapor transmission
  • To give a better surface finish.
  • To absorb vibration and noise.
  • To reduce the spreading of the fire and flames in case of fire hazard.
The function of Thermal Insulator

Properties of heat-insulating material

  1. The properties of materials can be divided into the following four categories:
  • Physical properties
  • Chemical Properties
  • Mechanical Properties
  • Thermal properties
Properties of heat-insulating material

1. Physical properties:

  • These properties include density, porosity, moisture, resistance, coefficient of thermal expansion, low odor level, inflammability, compactness, and surface tension.
  • An insulating material should have the following physical properties
  • It should have low density (to decrease its weight).
  • Not process its own odor nor should it pick up odor particles placed in the refrigerated space.
  • It resists moisture penetration.
  • It should repel vermin and insects.
  • Not be flammable otherwise it may prove dangerous in presence of electric wiring etc.
Physical properties

2. Chemical properties:

  • These properties enable insulation to retain its own structure in a hostile environment and also prevent it from being corrosive to substances.
  • An insulation material that is to be used in industry must possess adequate resistance to acidic and corrosive gases.

3. Mechanical properties:

  • It requires generally high abrasion resistance and hardness, and good compressive strength. 
  • The properties depend on the type of insulating material used.
Mechanical properties

4. Thermal properties:

These properties of insulating material are the most important properties. 

1. Thermal conductivity

  • The ability of a material to retard the flow of heat is given by its thermal conductivity. 
  • It should be low in the case of a thermal insulator.

2. Heat capacity

  • It is essentially a measure of heat absorbed for a certain temperature rise and should be concordant with the use. 

3. Thermal diffusivity

  • It is a measure of the rate of progression of temperature raise in an insulating material when specific heat energy is available at one of its surfaces. 

4. Combustibility

  • It is characterized by flash point,  smoke index, fire point, etc. To reduce fire hazards a low combustibility is necessary.
Combustibility

Requirements of thermally insulating material:

  • Thermal stability
  • Chemical stability
  • Physical stability
  • Low thermal conductivity
  • Resistance to moisture
  • Low specific heat
  • Low specific gravity
  • Odorless
  • Resistance to vibration and shock
  • Noninflammability
  • The porous and fibrous texture
  • Economical to its initial cost 
Requirements of thermally insulating material:

Classification of thermal insulating materials:

  1. Organic heat insulator                                                      
  • Cork 
  • Cotton wool
  • Rubber foam sawdust
  • Rice husk 
  • Polystrene
  • Urethane 
  • Phenotherm etc.
  • Inorganic heat insulator

2. Inorganic heat insulator

  • Glass wool
  • Slag wool
  • Ceramic products
  • Asbestos etc.
Classification of thermal insulating materials: