{"title":"用含粘土废物作为添加剂","authors":"A. Gerasimov, Ivan Ustinov, O. Zyryanova","doi":"10.31897/pmi.2023.33","DOIUrl":null,"url":null,"abstract":"Growing productivity of mining and processing enterprises entails an increase in the volumes of liquid tailings impoundments and upstream impoundments of ore processing waste. Enterprises face the challenge of minimizing the environmental impact of waste and guaranteeing the sanitary and epidemiological safety of population. The article presents a possibility of recycling one type of such waste (clay-containing concentration tailings of apatite-nepheline and sylvinite ores, coal beneficiation tailings) by using them after preliminary thermochemical treatment as pozzolanic additives to cements and concretes, including concrete mixtures used for soil stabilization, development of territories, reclamation of mine workings, as a component of the insulating layer of landfills for the disposal of municipal solid waste. An analysis of the phase changes of kaolinite, one of the main minerals that make up clay-containing waste, in the temperature range of 200-1,000 °С showed that a change in its mineral form during heat treatment is the main factor in changing its pozzolanic activity. The effect of heat treatment of clay minerals at temperature of 700-800 °C on their pozzolanic activity, estimated by the ability to absorb calcium hydroxide (0.7 g Ca(OH)2 per 1 g of modified kaolinite), is considered. It is shown that the addition of heat-treated samples (20 % by weight) improves the quality of cement increasing its activity by 15 %, in comparison with the use of unmodified clay minerals. It was proved experimentally that partial replacement of Portland cement with thermally modified kaolinite increases the strength of consolidating stowing mixture by up to 15 %. This approach to processing of ores containing layered silicates, which provides for thermochemical modification of run-of-mine ore, intensifies the processes of tailings thickening and filtering.","PeriodicalId":16398,"journal":{"name":"Journal of Mining Institute","volume":"75 1","pages":""},"PeriodicalIF":2.4000,"publicationDate":"2023-04-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"Использование глиносодержащих отходов в качестве пуццолановых добавок\",\"authors\":\"A. Gerasimov, Ivan Ustinov, O. Zyryanova\",\"doi\":\"10.31897/pmi.2023.33\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Growing productivity of mining and processing enterprises entails an increase in the volumes of liquid tailings impoundments and upstream impoundments of ore processing waste. Enterprises face the challenge of minimizing the environmental impact of waste and guaranteeing the sanitary and epidemiological safety of population. The article presents a possibility of recycling one type of such waste (clay-containing concentration tailings of apatite-nepheline and sylvinite ores, coal beneficiation tailings) by using them after preliminary thermochemical treatment as pozzolanic additives to cements and concretes, including concrete mixtures used for soil stabilization, development of territories, reclamation of mine workings, as a component of the insulating layer of landfills for the disposal of municipal solid waste. An analysis of the phase changes of kaolinite, one of the main minerals that make up clay-containing waste, in the temperature range of 200-1,000 °С showed that a change in its mineral form during heat treatment is the main factor in changing its pozzolanic activity. The effect of heat treatment of clay minerals at temperature of 700-800 °C on their pozzolanic activity, estimated by the ability to absorb calcium hydroxide (0.7 g Ca(OH)2 per 1 g of modified kaolinite), is considered. It is shown that the addition of heat-treated samples (20 % by weight) improves the quality of cement increasing its activity by 15 %, in comparison with the use of unmodified clay minerals. It was proved experimentally that partial replacement of Portland cement with thermally modified kaolinite increases the strength of consolidating stowing mixture by up to 15 %. 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引用次数: 1
摘要
采矿和加工企业生产力的提高意味着液体尾矿蓄水池和矿石加工废料上游蓄水池的数量增加。企业面临的挑战是尽量减少废物对环境的影响,保证人口的卫生和流行病安全。本文提出了一种回收利用这种废物(含粘土的磷灰石-斜石和钾铁矿的浓缩尾矿,煤炭选矿尾矿)的可能性,通过将它们在初步热化学处理后作为火山灰添加剂使用到水泥和混凝土中,包括用于土壤稳定的混凝土混合物,开发领土,矿山作业的回收,作为垃圾填埋场的保温层的组成部分,用于处理城市固体废物。对构成含泥废物的主要矿物之一高岭石在200 ~ 1000°С温度范围内的物相变化分析表明,热处理过程中其矿物形态的变化是改变其火山灰活性的主要因素。考虑了粘土矿物在700-800°C温度下热处理对其火山灰活性的影响,通过吸收氢氧化钙(每1 g改性高岭石0.7 g Ca(OH)2)的能力来估计。结果表明,与使用未改性的粘土矿物相比,加入热处理样品(重量比为20%)可改善水泥质量,使其活性提高15%。实验证明,用热改性高岭石部分替代波特兰水泥,可使固结充填料的强度提高15%。这种处理含有层状硅酸盐的矿石的方法,为原矿提供了热化学改性,加强了尾矿的浓缩和过滤过程。
Использование глиносодержащих отходов в качестве пуццолановых добавок
Growing productivity of mining and processing enterprises entails an increase in the volumes of liquid tailings impoundments and upstream impoundments of ore processing waste. Enterprises face the challenge of minimizing the environmental impact of waste and guaranteeing the sanitary and epidemiological safety of population. The article presents a possibility of recycling one type of such waste (clay-containing concentration tailings of apatite-nepheline and sylvinite ores, coal beneficiation tailings) by using them after preliminary thermochemical treatment as pozzolanic additives to cements and concretes, including concrete mixtures used for soil stabilization, development of territories, reclamation of mine workings, as a component of the insulating layer of landfills for the disposal of municipal solid waste. An analysis of the phase changes of kaolinite, one of the main minerals that make up clay-containing waste, in the temperature range of 200-1,000 °С showed that a change in its mineral form during heat treatment is the main factor in changing its pozzolanic activity. The effect of heat treatment of clay minerals at temperature of 700-800 °C on their pozzolanic activity, estimated by the ability to absorb calcium hydroxide (0.7 g Ca(OH)2 per 1 g of modified kaolinite), is considered. It is shown that the addition of heat-treated samples (20 % by weight) improves the quality of cement increasing its activity by 15 %, in comparison with the use of unmodified clay minerals. It was proved experimentally that partial replacement of Portland cement with thermally modified kaolinite increases the strength of consolidating stowing mixture by up to 15 %. This approach to processing of ores containing layered silicates, which provides for thermochemical modification of run-of-mine ore, intensifies the processes of tailings thickening and filtering.