Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Anti-freezing wellhead thermal insulation material and use method thereof
The invention relates to the technical field of anti-freezing well mouth thermal insulation materials, and discloses an anti-freezing well mouth thermal insulation material and a using method thereof.The anti-freezing well mouth thermal insulation material is prepared from, by weight, 10-30 parts of cement, 10-30 parts of fly ash, 10-30 parts of slag powder, 0.5-2 parts of fiber materials, 5-20 parts of silicate gel, 0.5-5 parts of anti-freezing agent and 5-20 parts of biomass ash; the preparation method of the anti-freezing wellhead thermal insulation material comprises the following steps: S1, preparing quantitative cement, fly ash, slag powder, fiber material, silicate gel, anti-freezing agent and biomass ash. Light energy is converted into electric energy through the detachable heat preservation sleeve and the photovoltaic effect, the electric energy provides energy for the ribbon heater, the ribbon heater generates heat energy to provide heat for the water well, normal production of the water injection well in winter is guaranteed, the workload generated by pipeline replacement and field cleaning due to pipeline frost crack is reduced, and the labor intensity of workers is relieved.
本申请涉及防冻井口保温材料技术领域,公开了防冻井口保温材料及其使用方法,其中,防冻井口保温材料,包括如下重量份数的原料组成:水泥10份~30份、粉煤灰10份~30份、矿渣粉10份~30份、纤维材料0.5份~2份、硅酸盐胶凝5份~20份、防冻剂0.5份~5份、生物质灰5份~20份;所述防冻井口保温材料的制备方法,包括以下方法步骤:S1、准备定量的水泥、粉煤灰、矿渣粉、纤维材料、硅酸盐胶凝、防冻剂和生物质灰。通过可拆卸式保温套和利用光伏效应将光能转换为电能,电能给电热带提供能量,且电热带产生热能为水井提供热量,保证注水井冬季正常生产,解决因管线冻裂更换管线和现场清理产生的工作量,减轻员工的劳动强度。
Anti-freezing wellhead thermal insulation material and use method thereof
The invention relates to the technical field of anti-freezing well mouth thermal insulation materials, and discloses an anti-freezing well mouth thermal insulation material and a using method thereof.The anti-freezing well mouth thermal insulation material is prepared from, by weight, 10-30 parts of cement, 10-30 parts of fly ash, 10-30 parts of slag powder, 0.5-2 parts of fiber materials, 5-20 parts of silicate gel, 0.5-5 parts of anti-freezing agent and 5-20 parts of biomass ash; the preparation method of the anti-freezing wellhead thermal insulation material comprises the following steps: S1, preparing quantitative cement, fly ash, slag powder, fiber material, silicate gel, anti-freezing agent and biomass ash. Light energy is converted into electric energy through the detachable heat preservation sleeve and the photovoltaic effect, the electric energy provides energy for the ribbon heater, the ribbon heater generates heat energy to provide heat for the water well, normal production of the water injection well in winter is guaranteed, the workload generated by pipeline replacement and field cleaning due to pipeline frost crack is reduced, and the labor intensity of workers is relieved.
本申请涉及防冻井口保温材料技术领域,公开了防冻井口保温材料及其使用方法,其中,防冻井口保温材料,包括如下重量份数的原料组成:水泥10份~30份、粉煤灰10份~30份、矿渣粉10份~30份、纤维材料0.5份~2份、硅酸盐胶凝5份~20份、防冻剂0.5份~5份、生物质灰5份~20份;所述防冻井口保温材料的制备方法,包括以下方法步骤:S1、准备定量的水泥、粉煤灰、矿渣粉、纤维材料、硅酸盐胶凝、防冻剂和生物质灰。通过可拆卸式保温套和利用光伏效应将光能转换为电能,电能给电热带提供能量,且电热带产生热能为水井提供热量,保证注水井冬季正常生产,解决因管线冻裂更换管线和现场清理产生的工作量,减轻员工的劳动强度。
Anti-freezing wellhead thermal insulation material and use method thereof
防冻井口保温材料及其使用方法
CHEN YUJUN (Autor:in) / HUANG YUTONG (Autor:in)
08.11.2024
Patent
Elektronische Ressource
Chinesisch
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