在含难评级金刚石材料的稠密介质分离过程中改变硅铁和水系统特性的方法的技术效率

Galina Dvoichenkova, Alexander Timofeev, Alexey Masanov, Elena Chernisheva
{"title":"在含难评级金刚石材料的稠密介质分离过程中改变硅铁和水系统特性的方法的技术效率","authors":"Galina Dvoichenkova, Alexander Timofeev, Alexey Masanov, Elena Chernisheva","doi":"10.21177/1998-4502-2023-15-3-590-605","DOIUrl":null,"url":null,"abstract":"Introduction. Taking into account the results of experimental bench studies previously carried out at ICEMR RAS on the effectiveness of the use of physical, physico-chemical and electrochemical influences to increase the corrosion resistance of ferrosilicon in the technology of DMS of diamond-containing raw materials of weakly altered kimberlites of the primary deposits of the Mirny ore field, at this stage, their pilot industrial testing was carried out under processing conditions intensively altered ores of deep horizons with the involvement of alluvial and technogenic deposits in the processing of diamond-containing raw materials. Research methods. In accordance with the testing methodology, the tests were carried out in two directions, the ultimate task of which was to create process conditions that ensure the protection of ferrosilicon granules from corrosion destruction caused by their oxidation upon contact with corrosive aqueous systems: 1. Modification of the properties of the liquid phase of the ferrosilicon suspension to values that reduce its corrosiveness towards the surface of ferrosilicon granules (variable factor – properties of the aqueous process medium). 2. Modification of the surface properties of ferrosilicon granules by creating a protective shell on it, preventing their oxidation during contact with corrosive aqueous systems (the variable factor is the surface of the ferrosilicon used: original and coated). Research results. The article presents the results of pilot industrial tests of technical solutions, the implementation of which made it possible to reduce the consumption of ferrosilicon in the dense medium separation cycle of diamondcontaining material using the above methods for modifying the properties of the aqueous medium and ferrosilicon used for the preparation of the ferrosilicon suspension, by increasing the corrosion resistance of the components of the ferrosilicon suspension. Discussion of research results. A comparative assessment of the technological efficiency of the applied methods for modifying the properties of the aqueous phase and ferrosilicon under experimental test conditions was carried out with the determination of ferrosilicon losses in the regeneration cycle of the ferrosilicon suspension and its content in the volume of the ferrosilicon suspension. The use of electrochemically treated water as a reagent for modifying the properties of the components of a ferrosilicon suspension provides a reduction in ferrosilicon consumption by 1.9 times, but is limited by the fairly high power consumption required for processing large volumes of water in the DMS process. The use of inert nitrogen gas as a bubbling agent instead of oxygen-containing air in the ferrosilicon suspension preparation cycle reduces ferrosilicon consumption by 2.5 times while increasing its service life by 1.5 times. However, the use of this method is limited to use only in part of the DMS process – the cycle for preparing a ferrosilicon suspension. The use of the method of nitriding ferrosilicon granules ensures a reduction in ferrosilicon losses by 2.7 times while increasing its service life by 2.2 times. At the same time, the entire volume of ferrosilicon in the process retains its anticorrosion properties in relation to the corrosive components of the surrounding water system. Conclusion on the article. A comparative analysis of the results obtained using mathematical processing methods has established the maximum technological efficiency of using the method of nitriding the surface of ferrosilicon, which causes the creation of a protective nitride layer on it, ensuring high corrosion resistance of ferrosilicon granules under the conditions of active processes of dense medium separation of diamond-containing raw materials of the material composition under consideration. Nitrided ferrosilicon has parameters that make it possible to increase its service life by no less than 2.2 times while reducing losses in the regeneration cycle by 2.7 times. Suggestions for practical applications and directions for future research. The experimentally established advantages of the technological efficiency of using nitrided ferrosilicon in DMS processes of diamond-containing raw materials are recommended for industrial implementation in the conditions of ALROSA’s processing plants and can be used in similar schemes for dense medium separation of mineral raw materials of various compositions. Tests are planned under industrial conditions at one of the processing plants of PJSC ALROSA.","PeriodicalId":37608,"journal":{"name":"Sustainable Development of Mountain Territories","volume":"301 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2023-09-30","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Technological efficiency of methods for modifying the properties of ferrosilicium and water systems in the processes of dense medium separation of difficult-rated diamond-containing material\",\"authors\":\"Galina Dvoichenkova, Alexander Timofeev, Alexey Masanov, Elena Chernisheva\",\"doi\":\"10.21177/1998-4502-2023-15-3-590-605\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Introduction. Taking into account the results of experimental bench studies previously carried out at ICEMR RAS on the effectiveness of the use of physical, physico-chemical and electrochemical influences to increase the corrosion resistance of ferrosilicon in the technology of DMS of diamond-containing raw materials of weakly altered kimberlites of the primary deposits of the Mirny ore field, at this stage, their pilot industrial testing was carried out under processing conditions intensively altered ores of deep horizons with the involvement of alluvial and technogenic deposits in the processing of diamond-containing raw materials. Research methods. In accordance with the testing methodology, the tests were carried out in two directions, the ultimate task of which was to create process conditions that ensure the protection of ferrosilicon granules from corrosion destruction caused by their oxidation upon contact with corrosive aqueous systems: 1. Modification of the properties of the liquid phase of the ferrosilicon suspension to values that reduce its corrosiveness towards the surface of ferrosilicon granules (variable factor – properties of the aqueous process medium). 2. Modification of the surface properties of ferrosilicon granules by creating a protective shell on it, preventing their oxidation during contact with corrosive aqueous systems (the variable factor is the surface of the ferrosilicon used: original and coated). Research results. The article presents the results of pilot industrial tests of technical solutions, the implementation of which made it possible to reduce the consumption of ferrosilicon in the dense medium separation cycle of diamondcontaining material using the above methods for modifying the properties of the aqueous medium and ferrosilicon used for the preparation of the ferrosilicon suspension, by increasing the corrosion resistance of the components of the ferrosilicon suspension. Discussion of research results. A comparative assessment of the technological efficiency of the applied methods for modifying the properties of the aqueous phase and ferrosilicon under experimental test conditions was carried out with the determination of ferrosilicon losses in the regeneration cycle of the ferrosilicon suspension and its content in the volume of the ferrosilicon suspension. The use of electrochemically treated water as a reagent for modifying the properties of the components of a ferrosilicon suspension provides a reduction in ferrosilicon consumption by 1.9 times, but is limited by the fairly high power consumption required for processing large volumes of water in the DMS process. The use of inert nitrogen gas as a bubbling agent instead of oxygen-containing air in the ferrosilicon suspension preparation cycle reduces ferrosilicon consumption by 2.5 times while increasing its service life by 1.5 times. However, the use of this method is limited to use only in part of the DMS process – the cycle for preparing a ferrosilicon suspension. The use of the method of nitriding ferrosilicon granules ensures a reduction in ferrosilicon losses by 2.7 times while increasing its service life by 2.2 times. At the same time, the entire volume of ferrosilicon in the process retains its anticorrosion properties in relation to the corrosive components of the surrounding water system. Conclusion on the article. A comparative analysis of the results obtained using mathematical processing methods has established the maximum technological efficiency of using the method of nitriding the surface of ferrosilicon, which causes the creation of a protective nitride layer on it, ensuring high corrosion resistance of ferrosilicon granules under the conditions of active processes of dense medium separation of diamond-containing raw materials of the material composition under consideration. Nitrided ferrosilicon has parameters that make it possible to increase its service life by no less than 2.2 times while reducing losses in the regeneration cycle by 2.7 times. Suggestions for practical applications and directions for future research. The experimentally established advantages of the technological efficiency of using nitrided ferrosilicon in DMS processes of diamond-containing raw materials are recommended for industrial implementation in the conditions of ALROSA’s processing plants and can be used in similar schemes for dense medium separation of mineral raw materials of various compositions. Tests are planned under industrial conditions at one of the processing plants of PJSC ALROSA.\",\"PeriodicalId\":37608,\"journal\":{\"name\":\"Sustainable Development of Mountain Territories\",\"volume\":\"301 1\",\"pages\":\"\"},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2023-09-30\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"0\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"Sustainable Development of Mountain Territories\",\"FirstCategoryId\":\"1085\",\"ListUrlMain\":\"https://doi.org/10.21177/1998-4502-2023-15-3-590-605\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"Q2\",\"JCRName\":\"Social Sciences\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"Sustainable Development of Mountain Territories","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.21177/1998-4502-2023-15-3-590-605","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"Social Sciences","Score":null,"Total":0}
引用次数: 0

摘要

导言。考虑到米尔尼矿区原生矿床弱蚀变金伯利岩含金刚石原料 DMS 技术中使用物理、物理化学和电化学影响来提高硅铁耐腐蚀性的有效性之前在国际采矿和金属研究中心(ICEMR RAS)进行的实验台研究结果,现阶段在冲积矿床和技术矿床参与加工含金刚石原料的深地层强化蚀变矿石的加工条件下进行了试验性工业测试。研究方法。根据试验方法,试验分两个方向进行,其最终任务是创造工艺条件,确保硅铁颗粒在与腐蚀性水体系接触时不会因氧化而被腐蚀破坏:1.1. 改变硅铁悬浮液的液相性质,使其达到降低对硅铁颗粒表面腐蚀性的数值(可变因素 - 水工艺介质的性质)。2.通过在硅铁颗粒表面形成一层保护壳来改变硅铁颗粒的表面特性,防止其在与腐蚀性水溶液系统接触时被氧化(可变因素是所用硅铁的表面:原始表面和涂层表面)。研究成果。文章介绍了技术解决方案的试验性工业测试结果,这些技术解决方案的实施可以通过提高硅铁悬浮液成分的耐腐蚀性,使用上述方法改变水介质和用于制备硅铁悬浮液的硅铁的性质,从而减少含金刚石材料的稠密介质分离循环中的硅铁消耗量。研究成果讨论。通过测定硅铁悬浮液再生周期中的硅铁损耗量及其在硅铁悬浮液体积中的含量,对实验测试条件下改变水相和硅铁性质的应用方法的技术效率进行了比较评估。使用经电化学处理的水作为试剂来改变硅铁悬浮液各组分的性质,可将硅铁消耗量减少 1.9 倍,但受限于在 DMS 工艺中处理大量水所需的相当高的能耗。在硅铁悬浮液制备循环中使用惰性氮气代替含氧空气作为鼓泡剂,可将硅铁消耗量降低 2.5 倍,同时将其使用寿命延长 1.5 倍。不过,这种方法的使用仅限于 DMS 工艺的一部分,即硅铁悬浮液的制备循环。使用氮化硅铁颗粒的方法可确保将硅铁损耗减少 2.7 倍,同时将其使用寿命延长 2.2 倍。同时,在这一过程中,整个硅铁体积与周围水系统中的腐蚀性成分相比,仍能保持其防腐特性。文章结论通过对使用数学处理方法获得的结果进行比较分析,确定了使用硅铁表面氮化方法的最大技术效率,该方法可在硅铁表面形成氮化保护层,确保硅铁颗粒在所考虑的材料成分中含金刚石原材料的致密介质分离活性工艺条件下具有高耐腐蚀性。氮化硅铁的参数可使其使用寿命延长不少于 2.2 倍,同时将再生周期中的损耗减少 2.7 倍。实际应用建议和未来研究方向。在含金刚石原料的 DMS 工艺中使用氮化硅铁的技术效率优势已在实验中得到证实,建议在阿尔罗萨公司加工厂的条件下进行工业应用,并可用于不同成分矿物原料的类似浓介质分离方案。计划在 PJSC ALROSA 公司的一家加工厂进行工业条件下的测试。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
查看原文
分享 分享
微信好友 朋友圈 QQ好友 复制链接
本刊更多论文
Technological efficiency of methods for modifying the properties of ferrosilicium and water systems in the processes of dense medium separation of difficult-rated diamond-containing material
Introduction. Taking into account the results of experimental bench studies previously carried out at ICEMR RAS on the effectiveness of the use of physical, physico-chemical and electrochemical influences to increase the corrosion resistance of ferrosilicon in the technology of DMS of diamond-containing raw materials of weakly altered kimberlites of the primary deposits of the Mirny ore field, at this stage, their pilot industrial testing was carried out under processing conditions intensively altered ores of deep horizons with the involvement of alluvial and technogenic deposits in the processing of diamond-containing raw materials. Research methods. In accordance with the testing methodology, the tests were carried out in two directions, the ultimate task of which was to create process conditions that ensure the protection of ferrosilicon granules from corrosion destruction caused by their oxidation upon contact with corrosive aqueous systems: 1. Modification of the properties of the liquid phase of the ferrosilicon suspension to values that reduce its corrosiveness towards the surface of ferrosilicon granules (variable factor – properties of the aqueous process medium). 2. Modification of the surface properties of ferrosilicon granules by creating a protective shell on it, preventing their oxidation during contact with corrosive aqueous systems (the variable factor is the surface of the ferrosilicon used: original and coated). Research results. The article presents the results of pilot industrial tests of technical solutions, the implementation of which made it possible to reduce the consumption of ferrosilicon in the dense medium separation cycle of diamondcontaining material using the above methods for modifying the properties of the aqueous medium and ferrosilicon used for the preparation of the ferrosilicon suspension, by increasing the corrosion resistance of the components of the ferrosilicon suspension. Discussion of research results. A comparative assessment of the technological efficiency of the applied methods for modifying the properties of the aqueous phase and ferrosilicon under experimental test conditions was carried out with the determination of ferrosilicon losses in the regeneration cycle of the ferrosilicon suspension and its content in the volume of the ferrosilicon suspension. The use of electrochemically treated water as a reagent for modifying the properties of the components of a ferrosilicon suspension provides a reduction in ferrosilicon consumption by 1.9 times, but is limited by the fairly high power consumption required for processing large volumes of water in the DMS process. The use of inert nitrogen gas as a bubbling agent instead of oxygen-containing air in the ferrosilicon suspension preparation cycle reduces ferrosilicon consumption by 2.5 times while increasing its service life by 1.5 times. However, the use of this method is limited to use only in part of the DMS process – the cycle for preparing a ferrosilicon suspension. The use of the method of nitriding ferrosilicon granules ensures a reduction in ferrosilicon losses by 2.7 times while increasing its service life by 2.2 times. At the same time, the entire volume of ferrosilicon in the process retains its anticorrosion properties in relation to the corrosive components of the surrounding water system. Conclusion on the article. A comparative analysis of the results obtained using mathematical processing methods has established the maximum technological efficiency of using the method of nitriding the surface of ferrosilicon, which causes the creation of a protective nitride layer on it, ensuring high corrosion resistance of ferrosilicon granules under the conditions of active processes of dense medium separation of diamond-containing raw materials of the material composition under consideration. Nitrided ferrosilicon has parameters that make it possible to increase its service life by no less than 2.2 times while reducing losses in the regeneration cycle by 2.7 times. Suggestions for practical applications and directions for future research. The experimentally established advantages of the technological efficiency of using nitrided ferrosilicon in DMS processes of diamond-containing raw materials are recommended for industrial implementation in the conditions of ALROSA’s processing plants and can be used in similar schemes for dense medium separation of mineral raw materials of various compositions. Tests are planned under industrial conditions at one of the processing plants of PJSC ALROSA.
求助全文
通过发布文献求助,成功后即可免费获取论文全文。 去求助
来源期刊
Sustainable Development of Mountain Territories
Sustainable Development of Mountain Territories Social Sciences-Sociology and Political Science
CiteScore
2.40
自引率
0.00%
发文量
36
期刊介绍: International scientific journal "Sustainable development of mountain territories" covers fundamental and applied regional, national and international research and provides a platform to publish original full papers and related reviews in the following areas: engineering science and Earth science in the field of sustainable development of mountain territories. Main objectives of international scientific journal "Sustainable development of mountain territories" are: raising the level of professional scientific workers, teachers of higher educational institutions and scientific organizations; presentation of research results in the field of sustainable development of mountain areas on the technical aspects and Earth sciences, informing readers about the results of Russian and international scientific forums; improved review and editing of the articles submitted for publication; ensuring wide dissemination for the published articles in the international academic environment; encouraging dissemination and indexing of scientific works in various foreign key citation databases.
期刊最新文献
Socio-economic initiative in the sustainable development of Ural Cities Determination of parameters of elastic damping devices in mining shovel mechanisms Modeling and control of parameters of flow technologies with local hydraulic transport and coal dewatering based on analysis of the structure of the tunneling cycle Analysis of the nanoparticles formation mechanisms in the rock mass Assessment of the current state of the hydrochemical regime and water-environmental problems of the basin of the Gavaraget River flowing into Lake Sevan
×
引用
GB/T 7714-2015
复制
MLA
复制
APA
复制
导出至
BibTeX EndNote RefMan NoteFirst NoteExpress
×
×
提示
您的信息不完整,为了账户安全,请先补充。
现在去补充
×
提示
您因"违规操作"
具体请查看互助需知
我知道了
×
提示
现在去查看 取消
×
提示
确定
0
微信
客服QQ
Book学术公众号 扫码关注我们
反馈
×
意见反馈
请填写您的意见或建议
请填写您的手机或邮箱
已复制链接
已复制链接
快去分享给好友吧!
我知道了
×
扫码分享
扫码分享
Book学术官方微信
Book学术文献互助
Book学术文献互助群
群 号:481959085
Book学术
文献互助 智能选刊 最新文献 互助须知 联系我们:info@booksci.cn
Book学术提供免费学术资源搜索服务,方便国内外学者检索中英文文献。致力于提供最便捷和优质的服务体验。
Copyright © 2023 Book学术 All rights reserved.
ghs 京公网安备 11010802042870号 京ICP备2023020795号-1