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Photocatalyst ceramic honeycomb plate production process
The invention discloses a photocatalyst ceramic honeycomb plate production process, which belongs to the technical field of ceramic honeycomb plates, comprises self-made main raw materials and other ingredients, and is prepared from the following raw materials in parts by weight: wherein the self-made main raw materials comprise 5-15 parts of waste straws, 5-20 parts of waste rice husks, 10-15 parts of waste paper, 10-20 parts of waste plastics, 5-20 parts of waste wood products, 15-30 parts of waste foam, 6-18 parts of waste bamboo products and 10-25 parts of waste nettle, and the other ingredients comprise 30-80 parts of a photocatalyst, 20-50 parts of corundum and 15-40 parts of cordierite. By arranging heat recovery equipment, a placement bin, a heat exchange water pipe and a water pump, the photocatalyst ceramic honeycomb plate obtained in the step 5 is placed in the heat recovery equipment, the placement bin is used for placing the just sintered photocatalyst ceramic honeycomb plate, the heat exchange water pipe wraps the periphery of the placement bin in a winding mode, and circulating cold water is injected into the heat exchange water pipe. In the process of cooling the photocatalyst ceramic honeycomb plate, resources are effectively utilized, and the process is more complete, environmentally friendly and capable of saving energy.
本发明公开了光触媒陶瓷蜂窝板生产工艺,属于陶瓷蜂窝板技术领域,包括自制主原料和其他配料,由以下重量份的原料制备制成:自制主原料包括废旧秸秆5‑15份、废旧稻壳5‑20份、废旧纸张10‑15份、废旧塑料10‑20份、废旧木制品5‑20份、废旧泡沫15‑30份、废旧竹制品6‑18份、废旧荨麻10‑25份,其他配料包括光触媒30‑80份、刚玉20‑50份、堇青石15‑40份。本发明通过设置热回收设备、放置仓、换热水管和水泵,由于将步骤5中得到的光触媒陶瓷蜂窝板置入热回收设备中,放置仓用于放置刚刚烧结完毕的光触媒陶瓷蜂窝板,而放置仓其四周包裹缠绕有换热水管,换热水管内注入有循环冷水,使得在对光触媒陶瓷蜂窝板冷却的过程中,有效利用资源,使得该工艺更加完善、环保、节能。
Photocatalyst ceramic honeycomb plate production process
The invention discloses a photocatalyst ceramic honeycomb plate production process, which belongs to the technical field of ceramic honeycomb plates, comprises self-made main raw materials and other ingredients, and is prepared from the following raw materials in parts by weight: wherein the self-made main raw materials comprise 5-15 parts of waste straws, 5-20 parts of waste rice husks, 10-15 parts of waste paper, 10-20 parts of waste plastics, 5-20 parts of waste wood products, 15-30 parts of waste foam, 6-18 parts of waste bamboo products and 10-25 parts of waste nettle, and the other ingredients comprise 30-80 parts of a photocatalyst, 20-50 parts of corundum and 15-40 parts of cordierite. By arranging heat recovery equipment, a placement bin, a heat exchange water pipe and a water pump, the photocatalyst ceramic honeycomb plate obtained in the step 5 is placed in the heat recovery equipment, the placement bin is used for placing the just sintered photocatalyst ceramic honeycomb plate, the heat exchange water pipe wraps the periphery of the placement bin in a winding mode, and circulating cold water is injected into the heat exchange water pipe. In the process of cooling the photocatalyst ceramic honeycomb plate, resources are effectively utilized, and the process is more complete, environmentally friendly and capable of saving energy.
本发明公开了光触媒陶瓷蜂窝板生产工艺,属于陶瓷蜂窝板技术领域,包括自制主原料和其他配料,由以下重量份的原料制备制成:自制主原料包括废旧秸秆5‑15份、废旧稻壳5‑20份、废旧纸张10‑15份、废旧塑料10‑20份、废旧木制品5‑20份、废旧泡沫15‑30份、废旧竹制品6‑18份、废旧荨麻10‑25份,其他配料包括光触媒30‑80份、刚玉20‑50份、堇青石15‑40份。本发明通过设置热回收设备、放置仓、换热水管和水泵,由于将步骤5中得到的光触媒陶瓷蜂窝板置入热回收设备中,放置仓用于放置刚刚烧结完毕的光触媒陶瓷蜂窝板,而放置仓其四周包裹缠绕有换热水管,换热水管内注入有循环冷水,使得在对光触媒陶瓷蜂窝板冷却的过程中,有效利用资源,使得该工艺更加完善、环保、节能。
Photocatalyst ceramic honeycomb plate production process
光触媒陶瓷蜂窝板生产工艺
WEN WEIXIONG (author)
2020-12-25
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
/
B28B
Formgeben von Ton oder anderen keramischen Stoffzusammensetzungen, Schlacke oder von Mischungen, die zementartiges Material enthalten, z.B. Putzmörtel
,
SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS, SLAG OR MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
/
F28D
Wärmetauscher, soweit in keiner anderen Unterklasse vorgesehen, in denen die Wärmetauschmittel nicht in direkte Berührung miteinander kommen
,
HEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
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