从热电工程灰渣废料中提取环境安全吸附剂

S. A. Bushumov, T. G. Korotkova
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The optimal ratio was 1:5 at a sorption capacity with respect to hexane of 0.86 g/g. The modification temperature was optimized in the temperature range of 110–200 °C. The optimal approach it to dry samples at 160 °C to constant weight. At a temperature of 200 °C, sintering of the material was observed. The analysis of HSL modifiers was carried out in terms of the price/sorption properties ratio. The following were considered as HSL: Silor, HSL-11BSP, HSL 136-157M, PROFILUX, Tiprom K, Tiprom U. The optimal modifier Tiprom K was selected. The physicochemical properties of the modified sorbent obtained at a ratio of 1:5 (by weight) and dried at 160 °C were experimentally determined. The sorption properties were studied on the water surface with respect to various oil products: fuel oil, kerosene, AI-92 gasoline, nefras, oil sludge, and n-hexane. The smallest sorption capacity was obtained with respect to n-hexane, amounting to 0.86 g/g. During the experiment, it was found that half of the sorption capacity was filled with oil in the first minutes of contact. Complete sorption time was 30–40 min for relatively light hydrocarbons (n-hexane, AI-92 gasoline, kerosene, nefras), 40–60 min for oil sludge, and more than 60 min for fuel oil. Experiments established that the sorption process does not depend on the matrix (salinity) of water. A visual assessment of the color intensity of the residual spot of oil sludge allowed a conclusion to be made about a significant content of oil products in the case of sorption of oil sludge by quartz sand based on the residual yellow layer of oil sludge. In the case of sorption of oil sludge by calcined and modified sorbents, the residual oil products were insignificant. A comparative analysis of data on the effectiveness of the developed sorbent and currently available analogues based on sludge and slag is presented.Conclusions. 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引用次数: 0

摘要

目的确定以热电工程产生的灰渣废料为基础、经煅烧并用 Tiprom K 有机硅防水剂改性的吸附剂的物理和化学特性(体积密度、灰分含量、总孔隙率、耐磨性、湿度、吸附能力)。改性吸附剂的理化性质是根据按规定方式验证和认证的设备规范文件方法,采用实验方法测定的。从 Novocherkasskaya GRES 发电站灰渣堆中提取的灰渣和炉渣经干燥后,在 600 °C 温度下煅烧 30 分钟,并用 Silor 疏水性含硅液体 (HSL) 进行改性。改性剂/灰的比例(按重量计)分别为 1:20、1:10、1:5、1:3 和 1:2。最佳比例为 1:5,对正己烷的吸附能力为 0.86 克/克。改性温度在 110-200 °C 的温度范围内进行了优化。最佳方法是在 160 °C 下将样品干燥至恒重。在 200 ℃ 的温度下,观察到材料烧结。根据价格/吸附性能比对 HSL 改性剂进行了分析。下列改性剂被视为 HSL:Silor、HSL-11BSP、HSL 136-157M、PROFILUX、Tiprom K、Tiprom U。实验测定了以 1:5 的比例(重量比)获得并在 160 °C 下干燥的改性吸附剂的物理化学特性。研究了各种油品在水面上的吸附特性:燃油、煤油、AI-92 汽油、nefras、油泥和正己烷。正己烷的吸附容量最小,为 0.86 克/克。在实验过程中发现,吸附容量的一半在接触的最初几分钟内就被油吸满了。相对较轻的碳氢化合物(正己烷、AI-92 汽油、煤油、nefras)的完全吸附时间为 30-40 分钟,油泥的完全吸附时间为 40-60 分钟,燃料油的完全吸附时间超过 60 分钟。实验证明,吸附过程与水的基质(盐度)无关。通过目测油泥残留斑点的颜色强度,可以根据油泥残留的黄色层得出结论,在石英砂吸附油泥的情况下,油产品的含量很大。在用煅烧吸附剂和改性吸附剂吸附油污泥的情况下,残余油产品的含量并不高。本文对所开发的吸油剂与目前可用的基于污泥和矿渣的类似物的有效性数据进行了比较分析。用 HSL Tiprom K 改性的吸油剂的物理化学特性如下:体积密度为 0.621 g/mL,灰分含量为 97.1%,总孔隙体积(以水计)小于 0.吸附容量(克/克):正己烷,0.86;AI-92 汽油,0.89;nefras,0.93;煤油,0.99;油泥,1.18;燃料油,1.46。使用煅烧吸油剂从油泥中清除固体表面的效率为 97%,使用改良吸油剂的效率为 95%。改性吸油剂在吸附饱和油品后浮力很大,并能长期吸附油品。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Environmentally safe sorbent from ash-and-slag waste of heat power engineering
Objectives. To determine the physical and chemical properties (bulk density, ash content, total pore volume, abrasion, humidity, sorption capacity) of sorbent based on ash-and-slag waste from heat power engineering, calcined and modified with a Tiprom K organosilicon water repellent.Methods. The physicochemical properties of the modified sorbent were determined using an experimental method according to the methods of regulatory documents on equipment verified and certified in the prescribed manner.Results. Ash and slag taken from the ash dump of the Novocherkasskaya GRES power station were dried, then calcined at a temperature of 600 °C for 30 min and modified with a Silor hydrophobizing silicon-containing liquid (HSL). The modifier/ash ratios (by weight) were 1:20, 1:10, 1:5, 1:3, and 1:2. The optimal ratio was 1:5 at a sorption capacity with respect to hexane of 0.86 g/g. The modification temperature was optimized in the temperature range of 110–200 °C. The optimal approach it to dry samples at 160 °C to constant weight. At a temperature of 200 °C, sintering of the material was observed. The analysis of HSL modifiers was carried out in terms of the price/sorption properties ratio. The following were considered as HSL: Silor, HSL-11BSP, HSL 136-157M, PROFILUX, Tiprom K, Tiprom U. The optimal modifier Tiprom K was selected. The physicochemical properties of the modified sorbent obtained at a ratio of 1:5 (by weight) and dried at 160 °C were experimentally determined. The sorption properties were studied on the water surface with respect to various oil products: fuel oil, kerosene, AI-92 gasoline, nefras, oil sludge, and n-hexane. The smallest sorption capacity was obtained with respect to n-hexane, amounting to 0.86 g/g. During the experiment, it was found that half of the sorption capacity was filled with oil in the first minutes of contact. Complete sorption time was 30–40 min for relatively light hydrocarbons (n-hexane, AI-92 gasoline, kerosene, nefras), 40–60 min for oil sludge, and more than 60 min for fuel oil. Experiments established that the sorption process does not depend on the matrix (salinity) of water. A visual assessment of the color intensity of the residual spot of oil sludge allowed a conclusion to be made about a significant content of oil products in the case of sorption of oil sludge by quartz sand based on the residual yellow layer of oil sludge. In the case of sorption of oil sludge by calcined and modified sorbents, the residual oil products were insignificant. A comparative analysis of data on the effectiveness of the developed sorbent and currently available analogues based on sludge and slag is presented.Conclusions. The next physicochemical properties of the sorbent modified with HSL Tiprom K were determined: bulk density was 0.621 g/mL, ash content was 97.1%, total pore volume by water was less than 0.05 mL/g, attrition was 8.8%, humidity was less than 0.5%; sorption capacity, in g/g: for n-hexane, 0.86; for AI-92 gasoline, 0.89; for nefras, 0.93; for kerosene, 0.99; for oil sludge, 1.18; for fuel oil, 1.46. The efficiency of cleaning a solid surface from oil sludge with a calcined sorbent was 97%, and with a modified sorbent 95%. The modified sorbent has high buoyancy when saturated with oil products and the ability to retain them for a long time.
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