Influence of Fabrics on Compression Mechanics of Iron Tailings

Okewale, Ismail Adeniyi; Grobler, Hendrik

doi:10.1007/978-981-16-7160-9_113

Cited by 12 publications

(5 citation statements)

References 21 publications

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“…The schematic circuit of banking is shown in Figure 17. In these areas (3,4,9,10), various methods must be applied to prevent an accident. It is possible to do by technological ways.…”

Section: Operation 421 Optimisation Of Inwash Technologymentioning

confidence: 99%

Scientific Research Support for the Construction and Operation of Inwashed Tailing Dumps at Operating Sites

Lolaev¹,

Badoev²,

Oganesyan³

et al. 2023

Preprint

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Accidents at mining enterprises, including tailing dumps, pose significant threats to human lives, structures, and the environment. This study focuses on designing, constructing, and operating tailing dumps in Siberia's northern region. To ensure safety and minimize environmental impacts, comprehensive scientific monitoring and research were conducted at all stages, including design, construction, operation, and disposal. The aim was to create a uniform mass within the dam body, requiring understanding of the tailings' structure and technological characteristics during placement. Parameters like particle size, distribution, density, and moisture content were considered to assess tailings' physical and geometric properties. Estimated monitoring was introduced as a permanent model to quickly assess the stability of hydrotechnical constructions. This involved monitoring changes in exploitation properties, structure height, beach length, and water levels. A controlled inwashing technology for subsequent dam layers was developed. Complex research facilitated the formulation of an estimated monitoring methodology and an algorithm for tailing dam formation. Practical application demonstrated high reliability and confirmed load-bearing capacity, allowing for the forecast of dam stability and safe execution. Findings led to alterations in work techniques, ensuring safe and efficient operation of tailing dams.

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“…The schematic circuit of banking is shown in Figure 17. In these areas (3,4,9,10), various methods must be applied to prevent an accident. It is possible to do by technological ways.…”

Section: Operation 421 Optimisation Of Inwash Technologymentioning

confidence: 99%

Scientific Research Support for the Construction and Operation of Inwashed Tailing Dumps at Operating Sites

Lolaev¹,

Badoev²,

Oganesyan³

et al. 2023

Preprint

View full text Add to dashboard Cite

show abstract

“…Fraction freedom coefficient-0.25-0.05 mm F 3 Fraction freedom coefficient-0.05-0.01 mm F 4 Fraction freedom coefficient-0.01-0.002 mm F 5 Fraction freedom coefficient-0.002-0.001 mm F 6 Fraction freedom coefficient-<0.001 mm…”

Section: Constructionmentioning

confidence: 99%

“…A 3 + M 3 Coarse dusty (10-50 microns) G < 20 Aggregated А 4 + М 4 Fine dusty (2-10 microns) А 5 + М 5 Coarse clay (1-2 microns)…”

Section: Constructionmentioning

confidence: 99%

“…The schematic circuit of banking is shown in Figure 17. In these areas (3,4,9,10), various methods must be applied to prevent an accident. It is possible to do by technological ways.…”

Section: Operation 421 Optimisation Of Inwash Technologymentioning

confidence: 99%

“…However, along with the process of extracting natural resources, there is a need for effective processing and disposal of the waste generated by this activity. Tailings storage facilities become a central element in addressing this issue, providing a place for the collection and storage of mining industry waste [1][2][3][4][5][6].…”

Section: Introductionmentioning

confidence: 99%

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Scientific Research Support for the Construction and Operation of Inwashed Tailing Dumps at Operating Sites

Lolaev

Badoev

Oganesyan

et al. 2023

Mining

View full text Add to dashboard Cite

Accidents at mining enterprises, including tailing dumps, pose significant threats to human lives, structures, and the environment. This study focuses on designing, constructing, and operating tailing dumps in Siberia’s northern region. To ensure safety and minimize environmental impacts, comprehensive scientific monitoring and research were conducted at all stages, including design, construction, operation, and disposal. The aim was to create a uniform mass within the dam body, requiring understanding of the tailing structure and technological characteristics during placement. Parameters like particle size, distribution, density, and moisture content were considered to assess the physical and geometric properties of the tailings. Estimated monitoring was introduced as a permanent model to quickly assess the stability of hydrotechnical constructions. This involved monitoring changes in exploitation properties, structure height, beach length, and water levels. A controlled inwashing technology for subsequent dam layers was developed. Complex research facilitated the formulation of an estimated monitoring methodology and an algorithm for tailing dam formation. Practical application demonstrated high reliability and confirmed load-bearing capacity, allowing for the forecast of dam stability and safe execution. Findings led to alterations in work techniques, ensuring safe and efficient operation of tailing dams.

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A Study of Engineering Characteristics of Columbite Tailings

Okewale,

Grobler

2024

Lecture Notes in Civil Engineering

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Influence of Fabrics on Compression Mechanics of Iron Tailings

Cited by 12 publications

References 21 publications

Scientific Research Support for the Construction and Operation of Inwashed Tailing Dumps at Operating Sites

Scientific Research Support for the Construction and Operation of Inwashed Tailing Dumps at Operating Sites

Scientific Research Support for the Construction and Operation of Inwashed Tailing Dumps at Operating Sites

A Study of Engineering Characteristics of Columbite Tailings

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