Research on production capacity planning method of open-pit coal mine

Liu, Guangwei; Shou-xi, Chai; Li, Jiaming

doi:10.1038/s41598-023-35967-y

Cited by 5 publications

(3 citation statements)

References 17 publications

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“…The vast majority of minerals are mined by open-pit mining method. Open-pit mining is considered to be the most efficient and cost-effective method due to its high level of productivity and lower initial capital operating costs [4][5][6]. Along with large iron-ore deposits, Ukraine has a powerful mining of fireclays, which are widely used for the production of refractory products used in construction, metallurgy, mechanical engineering and other industries [7,8].…”

Section: Introductionmentioning

confidence: 99%

Substantiating the rational parameters for a complicated non-transport system when mining low-thickness fireclay deposits

Chebanov,

Sobko,

Petlovanyi

2024

IOP Conf. Ser.: Earth Environ. Sci.

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The paper examines a complicated non-transport system for mining a gently sloping fireclay deposit using ESH-10/70 dragline excavators. The research purpose is to substantiate the technological scheme of stripping operations and determine their parameters to reduce the strip-mining costs. Theoretical research is performed using the following methods: methods of scientific analysis of theoretical research, as well as practices of project and production organizations; mining-geometric calculations; variant method for comparing and selecting a mining system. As a result, the dependence of the excavator block mining velocity on the entry way width has been determined, which makes it possible to study the relationship between mining and stripping equipment in time. The change in the re-excavation coefficient depending on the width of the dragline excavator entry way has been studied and its rational value has been determined. The practical value of the research results is in the substantiation of an effective system for mining a gently sloping fireclay deposit.

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Section: Introductionmentioning

confidence: 99%

Substantiating the rational parameters for a complicated non-transport system when mining low-thickness fireclay deposits

Chebanov,

Sobko,

Petlovanyi

2024

IOP Conf. Ser.: Earth Environ. Sci.

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“…Mining generates significant foreign exchange earnings for the economies of many countries, but at the same time causes severe damage to the natural environment. The open-pit mining method is currently considered the most efficient and economical method due to its high level of productivity and lower primary capital costs for operation [7], [8].…”

Section: Introductionmentioning

confidence: 99%

Analytical research of the parameters and characteristics of new “quarry cavities – backfill material” systems: Case study of Ukraine

Petlovanyi,

Sai,

Khalymendyk

et al. 2023

Min. miner. depos.

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Purpose. The research is aimed to identify, investigate and study the parameters and characteristics of the “quarry cavities – backfill material” systems on the territory of Ukraine using new comprehensive methodological tools that form the basis for the development of effective methods for restoring the earth’s surface with an emphasis on industrial and construction use. Methods. An integrated approach is used, which includes: analysis of the spatial location of industrial waste heaps on the territory of Ukraine as potential backfill materials and resulting quarry cavities that are not subject to complete earth’s surface restoration, as well as determination of the volumes of resulting cavities and backfill materials. Based on a set of factors, the “quarry cavities – backfill material” systems have been ranked according to priority. Tools used are: information data from the State Informational Geological Fund of Ukraine, registers of industrial waste accumulation sites in region, the Google Earth satellite program, an online topographic map (OpenStreetMap) and Blender program for constructing 3D models. Findings. A new concept and theoretical representation of “quarry cavities – backfill material” has been formulated. The characteristics of a number of important conditions for the harmonious existence and effective implementation of promising “quarry cavities – backfill material” systems are provided. A new information-analytical map of the spatial location of potential backfill materials and resulting quarry cavities has been created. Thirteen promising systems and their parameters have been identified, within which it is appropriate to consider backfill technologies for the complete earth’s surface restoration. The existing balance of cavities and backfill materials for the identified systems has been determined, followed by grading of quarries according to the predicted lifespan. Originality. The “quarry cavities – backfill material” systems, which have the greatest advantages, are specified by ranking them according to a complex of technological, environmental, economic and social factors. Practical implications. The results obtained provide valuable information for the development of a government strategy and environmental programs for the restoration of land areas disturbed by mining operations based on backfill technologies and their subsequent use for industrial purposes.

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“…Li Zhijun et al 22 propose a novel prediction method of fault based on Dynamic Inner Principal Component Analysis (DIPCA), which predicts three different types of faults. For the problems of fault time, Liu Wei et al 23 propose a prediction method with the Metropolis–Hastings (MCMC) algorithm. Zhang Qingliang et al 24 use the isometric mapping algorithm to perform feature reduction, and use LSTM to predict the remaining life of automobile gears.…”

Section: Introductionmentioning

confidence: 99%

Prediction method for the truck's fault time in open-pit mines based on exponential smoothing neural network

Liu,

Sun,

Huang

et al. 2023

Sci Rep

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The transport truck is one of the important equipment for open-pit mines, and predicting the truck's fault time is of great significance in improving the economic benefits of open-pit mines. In this paper, we discuss the reason for the large prediction error of the exponential smoothing method. Then, we propose a novel nonlinear exponential smoothing method (ESNN) for predicting the truck's fault time, and demonstrate the equivalence between our approach and the neural network structure. Finally, based on the augmented Lagrange function, the solving method of ESNN is proposed. We conduct experiments on real-world datasets and our results demonstrate the effectiveness of ESNN in comparison to existing state-of-the-art methods. Our approach makes it easier for maintenance personnel to predict fault situations in advance and provides a basis for enterprises to develop preventive maintenance plans.

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Research on production capacity planning method of open-pit coal mine

Cited by 5 publications

References 17 publications

Substantiating the rational parameters for a complicated non-transport system when mining low-thickness fireclay deposits

Substantiating the rational parameters for a complicated non-transport system when mining low-thickness fireclay deposits

Analytical research of the parameters and characteristics of new “quarry cavities – backfill material” systems: Case study of Ukraine

Prediction method for the truck's fault time in open-pit mines based on exponential smoothing neural network

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