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A platform for research: civil engineering, architecture and urbanism
Phase change energy storage geopolymer concrete and preparation method thereof
The invention relates to phase change energy storage geopolymer concrete and a preparation method thereof. The concrete comprises the following raw materials: 210-220 parts of fly ash, 20-30 parts of rice hull ash, 20-30 parts of desalted sea sand, 20-30 parts of phase-change geopolymer stone, 20-30 parts of an alkaline activator, 20-30 parts of phase-change material capsules, 20-30 parts of bagasse ash and 20-30 parts of waste glass powder according to a single-square dosage ratio (kg/m < 3 >). 125 to 140 parts of rice hull ash; 750 to 950 parts of desalted sea sand; 800 to 900 parts of phase change geopolymer stone; 140 to 180 parts of an alkali activator; 5 to 100 parts of phase change material capsules; 25 to 30 parts of bagasse ash; and 20-30 parts of waste glass powder. The prepared phase change energy storage geopolymer concrete has high mechanical properties and excellent thermal insulation performance, can be used in the fields of structural systems of buildings, external wall thermal insulation materials and the like, and can realize adjustment of indoor temperature, thereby achieving the purposes of energy conservation and environmental protection.
本发明涉及一种相变储能地质聚合物混凝土及制备方法。该混凝土包括如下原料:粉煤灰、稻壳灰、淡化海砂、相变地聚物石、碱性激发剂、相变材料胶囊、甘蔗渣灰以及废玻璃粉,各成分的单方用量配比(kg/m3)如下:粉煤灰:210~220份;稻壳灰:125~140份;淡化海砂:750~950份;相变地聚物石:800~900份;碱性激发剂:140~180份;相变材料胶囊:5~100份;甘蔗渣灰:25~30份;废玻璃粉:20~30份。本发明制备的相变储能地质聚合物混凝土,具有较高的力学性能和优异的保温隔热性能,可以用于建筑物的结构体系和外墙保温材料等领域,能够实现对室内温度的调节,从而达到节能环保的目的。
Phase change energy storage geopolymer concrete and preparation method thereof
The invention relates to phase change energy storage geopolymer concrete and a preparation method thereof. The concrete comprises the following raw materials: 210-220 parts of fly ash, 20-30 parts of rice hull ash, 20-30 parts of desalted sea sand, 20-30 parts of phase-change geopolymer stone, 20-30 parts of an alkaline activator, 20-30 parts of phase-change material capsules, 20-30 parts of bagasse ash and 20-30 parts of waste glass powder according to a single-square dosage ratio (kg/m < 3 >). 125 to 140 parts of rice hull ash; 750 to 950 parts of desalted sea sand; 800 to 900 parts of phase change geopolymer stone; 140 to 180 parts of an alkali activator; 5 to 100 parts of phase change material capsules; 25 to 30 parts of bagasse ash; and 20-30 parts of waste glass powder. The prepared phase change energy storage geopolymer concrete has high mechanical properties and excellent thermal insulation performance, can be used in the fields of structural systems of buildings, external wall thermal insulation materials and the like, and can realize adjustment of indoor temperature, thereby achieving the purposes of energy conservation and environmental protection.
本发明涉及一种相变储能地质聚合物混凝土及制备方法。该混凝土包括如下原料:粉煤灰、稻壳灰、淡化海砂、相变地聚物石、碱性激发剂、相变材料胶囊、甘蔗渣灰以及废玻璃粉,各成分的单方用量配比(kg/m3)如下:粉煤灰:210~220份;稻壳灰:125~140份;淡化海砂:750~950份;相变地聚物石:800~900份;碱性激发剂:140~180份;相变材料胶囊:5~100份;甘蔗渣灰:25~30份;废玻璃粉:20~30份。本发明制备的相变储能地质聚合物混凝土,具有较高的力学性能和优异的保温隔热性能,可以用于建筑物的结构体系和外墙保温材料等领域,能够实现对室内温度的调节,从而达到节能环保的目的。
Phase change energy storage geopolymer concrete and preparation method thereof
一种相变储能地质聚合物混凝土及制备方法
ZHU RAN (author) / HU LICHENG (author) / ZHAN YIJIAN (author) / ZHOU YUCHENG (author)
2024-04-09
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
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Energy storage phase change concrete and preparation method thereof
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