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76-degree phase change energy storage material and preparation method thereof

A technology of phase change energy storage material and host material, applied in the field of 76-degree phase change energy storage material and its preparation, can solve the problems of easy phase separation, low cost, limited application site and scale, etc., to overcome toxicity, The effect of improving the service life

Inactive Publication Date: 2018-12-28
北京华厚能源科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Recently, for low-temperature phase change energy storage in the temperature range of 60-90°C, there is a lack of an energy storage material with high energy storage density, non-toxicity, no impact on the environment, and relatively low cost.
[0003] The currently used inorganic molten salt phase change energy storage materials have the following defects: first, the inorganic phase change energy storage materials have a large degree of supercooling and are prone to phase separation; second, the phase change energy storage materials are easy to condense on the surface of the heat pipe, which affects The heat conduction from the heat pipe to the energy storage tank; the third is that the phase change energy storage material is highly corrosive to the heat conduction pipe, and it needs to add a nucleating agent containing chloride ions, which is easy to corrode the stainless steel material used as the heat pipe; in addition, the phase change energy storage material still exists Easy to leak, there is a certain temperature difference between the phase change temperature and the ideal temperature required for heating, and these problems need to be solved and improved urgently
[0004] Taking barium hydroxide octahydrate energy storage materials in the field of low temperature as an example, according to the relevant literature (DOI: 10.13224 / j.cnki.jasp.2013.09.002; DOI: 10.13700 / j.bh.1001~5965.2013.0385) Research on the corrosion and heat transfer performance of barium hydroxide phase change materials. In the temperature range of 60~80°C, the phase change latent heat of this material can reach 265.7kJ / kg, the energy storage density is high, the material cost is low, and it is easy to obtain. It is economical, but because of its high toxicity and corrosion to heat-exchanging metal structures, the application site and scale are limited. Once a leak occurs, it will cause harm to personnel and the environment

Method used

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  • 76-degree phase change energy storage material and preparation method thereof
  • 76-degree phase change energy storage material and preparation method thereof
  • 76-degree phase change energy storage material and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0039] High-purity urea and ammonium bromide blend crystal 360g, nitrogen-rich porous carbon material 8g, carboxymethyl cellulose 8g, hydrophilic nano titanium dioxide 2g, expanded graphite 40g.

[0040] Weigh 360g of high-purity urea and ammonium bromide blended crystals at a ratio of 9:1, mix and melt under heating at 90 degrees; add 8g of nitrogen-rich porous carbon material, 8g of carboxymethyl cellulose, and hydrophilic nano-titanium dioxide in sequence 2g, 40g of expanded graphite, fully stirred.

[0041] After testing, the phase transition temperature of the material is 76~77°C, and the phase transition enthalpy is 293.4~295.6KJ / kg; the thermal performance decays by 4.7% after 10000 cycles.

Embodiment 2

[0043] High-purity urea and ammonium bromide blend crystal 320g, nitrogen-rich porous carbon material 4g, carboxymethyl cellulose 8g, hydrophilic nano titanium dioxide 2g, expanded graphite 40g.

[0044] Weigh 320g of high-purity urea and ammonium bromide blended crystals in a ratio of 5:1, mix and melt under heating at 90 degrees; add 4g of nitrogen-rich porous carbon material, 8g of carboxymethyl cellulose, and hydrophilic nano-titanium dioxide in sequence 2g, 40g of expanded graphite, fully stirred.

[0045] After testing, the phase transition temperature point of the material is 76~77℃, and the phase transition enthalpy value is 277.8~278.2KJ / kg; the thermal performance decays by 5.2% after 10000 cycles.

Embodiment 3

[0047] High-purity urea and ammonium bromide blend crystal 320g, nitrogen-rich porous carbon material 4g, carboxymethyl cellulose 8g, hydrophilic nano titanium dioxide 2g, expanded graphite 20g.

[0048] Weigh 320g of high-purity urea and ammonium bromide blended crystals in a ratio of 5:1, mix and melt under heating at 90 degrees; add 4g of nitrogen-rich porous carbon material, 8g of carboxymethyl cellulose, and hydrophilic nano-titanium dioxide in sequence 2g, expanded graphite 20g, fully stirred.

[0049] After testing, the phase transition temperature point of the material is 76~77°C, and the phase transition enthalpy value is 278.0~278.4KJ / kg.

[0050] It can be seen from the test results that the thermal stability of the material can be greatly improved and the enthalpy value of the material can be significantly improved by adding additives into the mixture of the main material.

[0051] It can be seen from Example 2 and Example 3 that after using a specific proportion ...

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Abstract

The invention discloses a 76-degree phase change energy storage material and a preparation method thereof. The 76-degree phase change energy storage material is prepared from a main body material andaids, wherein the main body material is an eutectic composition formed by mixing high-purity urea with ammonium bromide according to the weight ratio of (9 to 1) to (6 to 4); and the aids contain 1 to4 percent of porous material, 1 to 2 percent of modified cellulose suspending agent, 0.2 to 0.8 percent of special hydrophilic nano-oxide and 5 to 10 percent of expanded graphite. The main body material and the aids form a solid-non-Newtonian Fluid transformed phase change material; the problems of low energy storage density, great environmental influence and attenuated thermal property of a conventional energy storage material are solved; an enthalpy is improved to 295KJ / kg; after the 76-degree phase change energy storage material is configured in a heat exchanger, heat storage density for heating can reach 700MJ / m<3>; meanwhile, thermal stability is improved to 5 percent of thermal decay / 10,000 times; and the 76-degree phase change energy storage material can be used as an energy storage material in a centralized and distributed heating system on a large scale.

Description

technical field [0001] The invention relates to the field of phase change energy storage materials, more specifically a 76-degree phase change energy storage material and a preparation method thereof. Background technique [0002] The development of energy storage technology in the fields of clean energy, distributed renewable energy, and building energy conservation and consumption reduction is inseparable from the research, development and production of related energy storage materials. Recently, for low-temperature phase change energy storage in the temperature range of 60-90°C, there is a lack of an energy storage material with high energy storage density, non-toxicity, no impact on the environment, and relatively low cost. [0003] The currently used inorganic molten salt phase change energy storage materials have the following defects: first, the inorganic phase change energy storage materials have a large degree of supercooling and are prone to phase separation; secon...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C09K5/06
CPCC09K5/063
Inventor 孟帅杜海兵贾维
Owner 北京华厚能源科技有限公司
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