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Preparation method of photo-thermal power generation energy storage ceramsite
The invention discloses a preparation method of photo-thermal power generation energy storage ceramsite, and belongs to the technical field of photo-thermal power generation energy storage medium preparation, and the preparation method comprises the following steps: S1, purchasing raw materials, and preparing water; S2, crushing and screening to obtain qualified sand, and conveying the qualified sand into a corresponding raw material bin; S3, proportioning to obtain a mixed coarse material with a final proportion; S4, grinding and selecting powder to prepare qualified mixed fine powder; S5, adding water, and uniformly stirring to obtain a mixed wet material; S6, performing granulation to obtain semi-finished ceramsite; S7, screening to obtain qualified semi-finished ceramsite; and S8, calcining to obtain the finished product ceramsite. S9, cooling; S10, screening to obtain the qualified finished ceramsite; and S11, weighing and packaging. The method has the characteristics of low purchase price of production raw materials, low production cost and compact and firm surface, and compared with molten salt energy storage, the method has the advantages of uniform form and composition, stable performance, high heat storage efficiency, good heat exchange fluidity, safety, environmental protection, low operation cost and the like.
本发明公开了一种光热发电储能陶粒制备方法,属于光热发电储能介质制备技术领域,包括以下步骤:S1:采购原料,准备水;S2:破碎,筛分,制得合格砂料,并输送至相应的生料仓内;S3:配比,得出最终配比的混合粗料;S4:研磨,选粉,制得合格的混合细粉;S5:加水搅拌均匀,制得混合湿料;S6:制粒,制得半成品陶粒;S7:筛分,得到合格的半成品陶粒;S8:煅烧,制得成品陶粒;S9:冷却;S10:筛分,得到合格的成品陶粒;S11:称重包装;本发明具有生产原料购置价格低,生产成本低,表面致密坚实的特点,较熔融盐储能而言,形态、成分较均一,具有性能稳定、储热效率较高、热交换流动性好、安全环保、运营成本低等优点。
Preparation method of photo-thermal power generation energy storage ceramsite
The invention discloses a preparation method of photo-thermal power generation energy storage ceramsite, and belongs to the technical field of photo-thermal power generation energy storage medium preparation, and the preparation method comprises the following steps: S1, purchasing raw materials, and preparing water; S2, crushing and screening to obtain qualified sand, and conveying the qualified sand into a corresponding raw material bin; S3, proportioning to obtain a mixed coarse material with a final proportion; S4, grinding and selecting powder to prepare qualified mixed fine powder; S5, adding water, and uniformly stirring to obtain a mixed wet material; S6, performing granulation to obtain semi-finished ceramsite; S7, screening to obtain qualified semi-finished ceramsite; and S8, calcining to obtain the finished product ceramsite. S9, cooling; S10, screening to obtain the qualified finished ceramsite; and S11, weighing and packaging. The method has the characteristics of low purchase price of production raw materials, low production cost and compact and firm surface, and compared with molten salt energy storage, the method has the advantages of uniform form and composition, stable performance, high heat storage efficiency, good heat exchange fluidity, safety, environmental protection, low operation cost and the like.
本发明公开了一种光热发电储能陶粒制备方法,属于光热发电储能介质制备技术领域,包括以下步骤:S1:采购原料,准备水;S2:破碎,筛分,制得合格砂料,并输送至相应的生料仓内;S3:配比,得出最终配比的混合粗料;S4:研磨,选粉,制得合格的混合细粉;S5:加水搅拌均匀,制得混合湿料;S6:制粒,制得半成品陶粒;S7:筛分,得到合格的半成品陶粒;S8:煅烧,制得成品陶粒;S9:冷却;S10:筛分,得到合格的成品陶粒;S11:称重包装;本发明具有生产原料购置价格低,生产成本低,表面致密坚实的特点,较熔融盐储能而言,形态、成分较均一,具有性能稳定、储热效率较高、热交换流动性好、安全环保、运营成本低等优点。
Preparation method of photo-thermal power generation energy storage ceramsite
一种光热发电储能陶粒制备方法
CHEN YOULIANG (author) / WANG YUZHONG (author) / ZHANG XING (author)
2021-09-17
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
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