What is the thermal insulation principle of aerogel thermal insulation materials
- Categories:Industry News
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- Time of issue:2021-07-30
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(Summary description)Aerogels, also known as xerogels, have a density of only 2.75 times the density of air, making it the densest solid in the world. Aerogels can be divided into carbon series, silicon series, sulfur series, metal oxide series, metal series, etc. according to their composition. However, nowadays, silicon aerogels-silica aerogels are more developed and used.
Aerogel is a new type of lightweight nanoporous product. It has a nanostructure (typical pore size is less than 50nm, framework particles are 1-20nm), large specific surface area (up to 800-1000㎡/g), and high porosity ( It can be as high as 80%-99.8%) and other characteristics. Generally, the structure and function of aerogels do not change significantly at 800°C. Therefore, aerogels have unparalleled advantages as high-temperature insulation products.
Insulation principle of aerogel insulation products
(1) Convection: When the diameter of the pores in the aerogel is less than 70nm, the air molecules in the pores lose their ability to move freely and are relatively attached to the pore walls. At this time, the product is in an approximate vacuum state.
(2) Radiation: Because the pores in the aerogel are all nano-sized pores and the product itself has a very low volume density, the number of pore walls inside the product tends to be "infinitely large", and each pore wall is covered. The effect of the hot plate is therefore close to the "infinite number of heat shields" effect, which reduces the radiant heat transfer to almost the lowest limit.
(3) Heat conduction: Because of the nearly infinite number of nanopores, the heat flow in the solid can only be transferred along the pore walls. The nearly infinite number of pore walls constitutes a nearly "infinite path" effect, which makes the solid heat conduction In order to drop to the lowest limit.
Compared with traditional thermal insulation products, nanoporous aerogel thermal insulation products can achieve equivalent thermal insulation effects with lighter weight and smaller volume. It has good thermal stability, thermal shock resistance and thermal insulation, which can replace traditional mineral wool, so that the house can be insulated and warm. If it is used in high-rise buildings, it can replace general curtain wall glass, greatly reduce the weight of the building, and can play a fire prevention effect. In addition, replacing traditional thermal insulation products with aerogel thermal insulation composite products on the top of pipelines, furnaces and other thermal equipment can greatly reduce heat loss. Applying nanoporous super insulation product aerogel to the storage tanks, pipes and collectors of solar water heaters, the heat collection efficiency can be increased by more than one time, and the heat loss will be reduced to less than 30% of the current level. In addition, before and after use, it can insist on not powdering, not brittle, not aging, and not supporting the growth of mold, and the induction function will remain unchanged for a long time; the service life is long, and the life span of the building can be maintained.
What is the thermal insulation principle of aerogel thermal insulation materials
(Summary description)Aerogels, also known as xerogels, have a density of only 2.75 times the density of air, making it the densest solid in the world. Aerogels can be divided into carbon series, silicon series, sulfur series, metal oxide series, metal series, etc. according to their composition. However, nowadays, silicon aerogels-silica aerogels are more developed and used.
Aerogel is a new type of lightweight nanoporous product. It has a nanostructure (typical pore size is less than 50nm, framework particles are 1-20nm), large specific surface area (up to 800-1000㎡/g), and high porosity ( It can be as high as 80%-99.8%) and other characteristics. Generally, the structure and function of aerogels do not change significantly at 800°C. Therefore, aerogels have unparalleled advantages as high-temperature insulation products.
Insulation principle of aerogel insulation products
(1) Convection: When the diameter of the pores in the aerogel is less than 70nm, the air molecules in the pores lose their ability to move freely and are relatively attached to the pore walls. At this time, the product is in an approximate vacuum state.
(2) Radiation: Because the pores in the aerogel are all nano-sized pores and the product itself has a very low volume density, the number of pore walls inside the product tends to be "infinitely large", and each pore wall is covered. The effect of the hot plate is therefore close to the "infinite number of heat shields" effect, which reduces the radiant heat transfer to almost the lowest limit.
(3) Heat conduction: Because of the nearly infinite number of nanopores, the heat flow in the solid can only be transferred along the pore walls. The nearly infinite number of pore walls constitutes a nearly "infinite path" effect, which makes the solid heat conduction In order to drop to the lowest limit.
Compared with traditional thermal insulation products, nanoporous aerogel thermal insulation products can achieve equivalent thermal insulation effects with lighter weight and smaller volume. It has good thermal stability, thermal shock resistance and thermal insulation, which can replace traditional mineral wool, so that the house can be insulated and warm. If it is used in high-rise buildings, it can replace general curtain wall glass, greatly reduce the weight of the building, and can play a fire prevention effect. In addition, replacing traditional thermal insulation products with aerogel thermal insulation composite products on the top of pipelines, furnaces and other thermal equipment can greatly reduce heat loss. Applying nanoporous super insulation product aerogel to the storage tanks, pipes and collectors of solar water heaters, the heat collection efficiency can be increased by more than one time, and the heat loss will be reduced to less than 30% of the current level. In addition, before and after use, it can insist on not powdering, not brittle, not aging, and not supporting the growth of mold, and the induction function will remain unchanged for a long time; the service life is long, and the life span of the building can be maintained.
- Categories:Industry News
- Author:
- Origin:
- Time of issue:2021-07-30 15:32
- Views:
Aerogels, also known as xerogels, have a density of only 2.75 times the density of air, making it the densest solid in the world. Aerogels can be divided into carbon series, silicon series, sulfur series, metal oxide series, metal series, etc. according to their composition. However, nowadays, silicon aerogels-silica aerogels are more developed and used.
Aerogel is a new type of lightweight nanoporous product. It has a nanostructure (typical pore size is less than 50nm, framework particles are 1-20nm), large specific surface area (up to 800-1000㎡/g), and high porosity ( It can be as high as 80%-99.8%) and other characteristics. Generally, the structure and function of aerogels do not change significantly at 800°C. Therefore, aerogels have unparalleled advantages as high-temperature insulation products.
Insulation principle of aerogel insulation products
(1) Convection: When the diameter of the pores in the aerogel is less than 70nm, the air molecules in the pores lose their ability to move freely and are relatively attached to the pore walls. At this time, the product is in an approximate vacuum state.
(2) Radiation: Because the pores in the aerogel are all nano-sized pores and the product itself has a very low volume density, the number of pore walls inside the product tends to be "infinitely large", and each pore wall is covered. The effect of the hot plate is therefore close to the "infinite number of heat shields" effect, which reduces the radiant heat transfer to almost the lowest limit.
(3) Heat conduction: Because of the nearly infinite number of nanopores, the heat flow in the solid can only be transferred along the pore walls. The nearly infinite number of pore walls constitutes a nearly "infinite path" effect, which makes the solid heat conduction In order to drop to the lowest limit.
Compared with traditional thermal insulation products, nanoporous aerogel thermal insulation products can achieve equivalent thermal insulation effects with lighter weight and smaller volume. It has good thermal stability, thermal shock resistance and thermal insulation, which can replace traditional mineral wool, so that the house can be insulated and warm. If it is used in high-rise buildings, it can replace general curtain wall glass, greatly reduce the weight of the building, and can play a fire prevention effect. In addition, replacing traditional thermal insulation products with aerogel thermal insulation composite products on the top of pipelines, furnaces and other thermal equipment can greatly reduce heat loss. Applying nanoporous super insulation product aerogel to the storage tanks, pipes and collectors of solar water heaters, the heat collection efficiency can be increased by more than one time, and the heat loss will be reduced to less than 30% of the current level. In addition, before and after use, it can insist on not powdering, not brittle, not aging, and not supporting the growth of mold, and the induction function will remain unchanged for a long time; the service life is long, and the life span of the building can be maintained.
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