CN103672304B - A kind of nano-thermal-insulating insulation material - Google Patents

Abstract

The invention discloses a kind of nano-thermal-insulating insulation material, the bladder filled with fire-retardant noble gas is for intermediate base layer; The upper surface of the bladder that described fire-retardant noble gas is filled attached is knotted the first aluminum film reflecting layer, the lower surface of the bladder filled at described fire-retardant noble gas attached is knotted the adiabatic fiberglass layer filled by nanoporous aerogel, it is filled with fire-retardant noble gas inside the bladder that described fire-retardant noble gas is filled, attached on the upper surface in described first aluminum film reflecting layer is knotted SiO₂Antioxidant wear-resistant layer; Nano-thermal-insulating insulation material of the present invention takes full advantage of the first aluminum film reflecting layer, fire-retardant noble gas is filled bladder and the adiabatic fiberglass layer that nanoporous aerogel is filled have the features such as adiabatic material high temperature resistant, high so that the present invention has high reflection, high adiabatic, insulation again can antioxidation and corrosion-resistant also have high-temperature resistant result, economy and durability.

Description

A kind of nano-thermal-insulating insulation material

Technical field

The present invention relates to a kind of have high reflection, high adiabatic, insulation again can antioxidation and the corrosion-resistant nano-thermal-insulating insulation material also with high-temperature resistant result, economy and durability.

Background technology

Current domestic economy downstream pressure strengthens, in country " 12 " planning, energy-saving and emission-reduction are formulated binding target: by 2015, the ten thousand yuan of GDP energy consumptions in the whole nation drop to 0.869 ton of standard coal (by calculation of price in 2005), 1.034 tons of standard coals than 2010 decline 16%, COD and SO2 emissions decline respectively 8%, ammonia nitrogen and nitrogen oxide emission decline 10% respectively, " 12 " period, it is achieved save 6.7 hundred million tons of standard coals of the energy. Visible, energy-saving and emission-reduction are shouldered heavy responsibilities, and Thermal Power Enterprises also will face bigger energy-saving and emission-reduction pressure.

Current domestic thermoelectricity industry reduces discharging the requirement of index relative to national energy-saving, it is common to feel difficult, arduous task. No matter from the angle of the economic benefit of Thermal Power Enterprises self or the energy-saving and emission-reduction index indispensable and demanding task of country, the transfer efficiency being effectively improved enterprise's thermoelectricity pipe network is all very urgent. In conjunction with the actual state of enterprise, the major measure that current Thermal Power Enterprises is generally taked is generally following several respects:

1, strengthening internal control; It is in particular in the generation being prevented the observable wasting phenomenons of naked eyes such as internal run, drip, leak by a series of administrative aspects to greatest extent.

2, put into huge fund the capital equipments such as steam turbine are upgraded, namely replace the equipment of poor efficiency with efficient equipment, to reach the purpose saved energy and reduce the cost.

3, pipe network is carried out energy-conservation upgrading. By the application of heat preservation of novel pipeline new technologies and materials, reduce steam energy loss in pipeline transmitting procedure and droop loss, to reach the purpose saved energy and reduce the cost.

To Thermal Power Enterprises, heat supply network is exactly the life line of Thermal Power Enterprises, say, that heat supply is the central task of Thermal Power Enterprises and the foundation stone depended on for existence and development.Therefore under the premise ensured and meet user's normal demand, how energy-saving and cost-reducing to obtain the economic benefit of the best, the central task in the daily operation and management of Ye Shi enterprise to greatest extent.

In sum, for the present situation of current domestic Thermal Power Enterprises, original pipe network is incubated upgrading and is an up Business Economic Benefit, one of task most economical, most effective, the most urgent in energy-saving and cost-reducing.

The Ministry of Construction of China clear stipulaties, it is desirable to city heat supply engineering heat supply network transfer efficiency should more than 90%; Jet chimney is incubated and continues to use traditional heat preserving method for many years always by current China, and the insulation material of use mainly has: rock wool, glass cotton, silicate product etc. Due to these materials can not waterproof or be easy to make moist, therefore in use, it is easy to run into water or water vapour; And once run into water, then the effect of insulation will be substantially reduced until all hindering mistake. The insulation material that particularly material such as rock wool, glass cotton is made, constructs very inconvenient. Most importantly its plumage bits are easy to diffusion and fly upward, and human body causes huge injury. It is used alone energy-saving effect also not ideal native land environmental administration of man and does not generally encourage enterprise to use. Therefore, we have developed a kind of have high reflection, high adiabatic, insulation again can antioxidation and corrosion-resistant also have high-temperature resistant result, economy and durability nano-thermal-insulating insulation material.

Summary of the invention

The invention aims to overcome the deficiencies in the prior art and provide a kind of have high reflection, high adiabatic, insulation can antioxidation and corrosion-resistant also have high-temperature resistant result, economy and durability nano-thermal-insulating insulation material.

For reaching above-mentioned purpose, the technical solution used in the present invention is: a kind of nano-thermal-insulating insulation material, and the bladder filled with fire-retardant noble gas is for intermediate base layer; The upper surface of the bladder that described fire-retardant noble gas is filled attached is knotted the first aluminum film reflecting layer, the lower surface of the bladder filled at described fire-retardant noble gas attached is knotted the adiabatic fiberglass layer filled by nanoporous aerogel, it is filled with fire-retardant noble gas inside the bladder that described fire-retardant noble gas is filled, attached on the upper surface in described first aluminum film reflecting layer is knotted SiO₂Antioxidant wear-resistant layer.

Preferably, the bladder that described fire-retardant noble gas is filled is formed by molecular modification mixing extruded blown by polyethylene; The height of the bladder that described fire-retardant noble gas is filled is 4-15 millimeter; The width of the bladder that described fire-retardant noble gas is filled is 3-50 millimeter.

Preferably, the adiabatic fiberglass layer that described nanoporous aerogel is filled is filled to be implanted in glass cotton by nanoporous aerogel and is formed; The average diameter of described nanoporous aerogel is 60-90nm, and the thickness of described glass cotton is 5-100mm.

Preferably, the preparing of bladder that described fire-retardant noble gas is filled has incorporated flame retardant nano-materials in material: nano imvite efficient flame-retarding agent.

Due to the utilization of technique scheme, the present invention compared with prior art has the advantage that

Nano-thermal-insulating insulation material of the present invention takes full advantage of the first aluminum film reflecting layer, fire-retardant noble gas is filled bladder and the adiabatic fiberglass layer that nanoporous aerogel is filled have the features such as adiabatic material high temperature resistant, high so that the present invention has high reflection, high adiabatic, insulation again can antioxidation and corrosion-resistant also have high-temperature resistant result, economy and durability.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, technical solution of the present invention is described further:

Accompanying drawing 1 is the structural representation of nano-thermal-insulating insulation material of the present invention;

Wherein: 1, SiO₂Antioxidant wear-resistant layer; 2, the first aluminum film reflecting layer; 3, the bladder that fire-retardant noble gas is filled; 4, adiabatic fiberglass layer; 5, fire-retardant noble gas; 6, nanoporous aerogel.

Detailed description of the invention

Below in conjunction with drawings and the specific embodiments, the present invention is described in further detail.

Accompanying drawing 1 is a kind of nano-thermal-insulating insulation material of the present invention, with the bladder 3 of fire-retardant noble gas 5 filling for intermediate base layer; The upper surface of the bladder 3 that described fire-retardant noble gas 5 is filled attached is knotted the first aluminum film reflecting layer 2, the attached adiabatic fiberglass layer 4 filled by nanoporous aerogel 6 that is knotted on the lower surface of the bladder 3 of described fire-retardant noble gas 5 filling, bladder 3 that described fire-retardant noble gas 5 is filled is internal is filled with fire-retardant noble gas 5, attached on the upper surface in described first aluminum film reflecting layer 2 is knotted SiO₂Antioxidant wear-resistant layer 1; The bladder 3 that described fire-retardant noble gas 5 is filled is formed by molecular modification mixing extruded blown by polyethylene; The height of the bladder 3 that described fire-retardant noble gas 5 is filled is 4-15 millimeter; The width of the bladder 3 that described fire-retardant noble gas 5 is filled is 3-50 millimeter; The adiabatic fiberglass layer 4 that described nanoporous aerogel 6 is filled is filled to be implanted in glass cotton by nanoporous aerogel 6 and is formed; The average diameter of described nanoporous aerogel 6 is 60-90nm, and the thickness of described glass cotton is 5-100mm; The preparing of bladder 6 that described fire-retardant noble gas 5 is filled has incorporated flame retardant nano-materials in material: nano imvite efficient flame-retarding agent, such as Al₂O₉Si₃。

Bladder 3 that described fire-retardant noble gas 5 is filled is internal is filled to the noble gas mixtures noble gas with extremely strong fire-retardant, heat-insulating property, such as the mixture of neon Yu argon.

Nano-thermal-insulating insulation material of the present invention takes full advantage of the first aluminum film reflecting layer, fire-retardant noble gas is filled bladder and the adiabatic fiberglass layer that nanoporous aerogel is filled have the features such as adiabatic material high temperature resistant, high so that the present invention has high reflection, high adiabatic, insulation again can antioxidation and corrosion-resistant also have high-temperature resistant result, economy and durability.

Above-described embodiment is only for illustrating technology design and the feature of the present invention; its object is to allow person skilled in the art will appreciate that present disclosure and to be carried out; can not limit the scope of the invention with this; all equivalences made according to spirit of the invention change or modify, and all should be encompassed in protection scope of the present invention.

Claims (3)

1. a nano-thermal-insulating insulation material, it is characterised in that: the bladder filled with fire-retardant noble gas is for intermediate base layer; The upper surface of the bladder that described fire-retardant noble gas is filled attached is knotted the first aluminum film reflecting layer, attached on the lower surface of the bladder filled at described fire-retardant noble gas it is knotted the adiabatic fiberglass layer filled by nanoporous aerogel, it is filled with fire-retardant noble gas inside the bladder that described fire-retardant noble gas is filled, attached on the upper surface in described first aluminum film reflecting layer is knotted SiO2 antioxidant wear-resistant layer; The adiabatic fiberglass layer that described nanoporous aerogel is filled is filled to be implanted in glass cotton by nanoporous aerogel and is formed; The bladder that described fire-retardant noble gas is filled is formed by molecular modification mixing extruded blown by polyethylene; Described fire-retardant noble gas is the mixture of neon and argon; The average diameter of described nanoporous aerogel is 60-90nm, and the thickness of described glass cotton is 5-100mm.

2. nano-thermal-insulating insulation material according to claim 1, it is characterised in that: the height of the bladder that described fire-retardant noble gas is filled is 4-15 millimeter;The width of the bladder that described fire-retardant noble gas is filled is 3-50 millimeter.

3. nano-thermal-insulating insulation material according to claim 2, it is characterised in that: the preparing of bladder that described fire-retardant noble gas is filled has incorporated flame retardant nano-materials in material: nano imvite efficient flame-retarding agent.