Numerical study on heat transfer between airflow and surrounding rock with two major ventilation models in deep coal mine

Guo, Pingye; Su, Yi; Pang, Dongyang; Wang, Yanwei; Guo, Zhibiao

doi:10.1007/s12517-020-05725-9

Cited by 5 publications

(2 citation statements)

References 28 publications

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“…Dechao Deng [30] used the empirical formula of Sherbani and the Lewis relation to determine heat and mass transfer coefficients and established a mathematical model of heat and moisture exchange between the air flow and the wall of the excavation face. Pingye Guo et al [31] discovered that the roughness of the surrounding rock increases the effective heat transfer coefficient between the surrounding rock and the air flow, thereby enhancing the heat transfer between them. These studies have focused on the effects of mine ventilation and air flow temperature and humidity on each other; however, there are no studies that show how these factors affect fog formation.…”

Section: Introductionmentioning

confidence: 99%

A Study on the Conditions of Fog Generation and the Change Rule of Fog Zone Length in Air Intake Roadway

Wu,

Zhu,

Zhang

et al. 2024

Sustainability

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Fog in mine air intake roadways is a non-negligible disaster that seriously reduces the visibility of the roadway, affects vehicle transportation and the safe passage of personnel, and jeopardizes the safe production of the mine. This paper applies both field testing and numerical simulation to explore fog formation conditions and the effects of inlet air temperature and humidity on the fog zone length within the Wangjialing Mine’s air intake roadway in Shanxi, China. First, based on the consideration of the relationship between the moisture gain of surrounding rock and the temperature with humidity of the air flow, the fog generation and distribution law model of the air intake roadway was established. Based on this model, the critical inlet air temperature and the critical inlet air relative humidity for fogging in the Wangjialing Mine air intake roadway were determined. In addition, we found that the fogging point inside the roadway shifted forward continuously with the increase in inlet air temperature and inlet air relative humidity, and the length of the fog zone expands parabolically in response to these rising conditions.

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Section: Introductionmentioning

confidence: 99%

A Study on the Conditions of Fog Generation and the Change Rule of Fog Zone Length in Air Intake Roadway

Wu,

Zhu,

Zhang

et al. 2024

Sustainability

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“…At present, there are still many difficulties in the accurate perception of the mining environment of the coal mine working face. It is an urgent need to find out an effective and reliable perception means that can adapt to the special mining process in the coal mine working face. − Laser has characteristics of strong dust penetration, good unidirectionality, and strong anti-interference ability. , Therefore, we collect the point cloud of the whole coal mine working face by LiDAR to characterize the mining environment of the working face. Furthermore, the expression of point cloud is simpler.…”

Section: Introductionmentioning

confidence: 99%

Identifying Balls Feature in a Large-Scale Laser Point Cloud of a Coal Mining Environment by a Multiscale Dynamic Graph Convolution Neural Network

Zhao

Guo

et al. 2022

ACS Omega

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In the process of coal mining, a certain amount of gas will be produced. Environmental perception is very important to realize intelligent and unmanned coal mine production and operation and to reduce the accident rate of gas explosion and other disasters. The identification of geometric features of the coal mine working face is the main part of the environmental perception of the working face. In this study, we identify geometric features in a large-scale coal mine working face point cloud (we take the ball as an example) so as to provide a method for the environmental perception of the coal mine working face. On the basis of previous research, we upgrade the dynamic graph convolution neural network (DGCNN) for directly processing point clouds from two aspects: extracting local features and global features of point clouds. First, a multiscale dynamic graph convolution neural network (MS-DGCNN) is proposed, and the combination of max-pooling and average-pooling is used as the symmetry function. Second, we use MS-DGCNN to learn the features of a variety of geometric point clouds in the point cloud data set we make and then look for the ball in the large-scale point cloud of the coal mining working face. Finally, we compare the performance of MS-DGCNN with that of other deep neural networks directly processing point clouds. This study enables MS-DGCNN to obtain more powerful feature expression ability and enhance the generalization of the model. In addition, this study provides a solid foundation for the geometric feature identification of MS-DGCNN in the environmental perception of the coal mine working face and creates a precedent for the application of MS-DGCNN in the field of energy. At the same time, this study makes a beneficial exploration for the development of a transparent coal mine working face.

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Heat hazard control in excavation engineering: Numerical simulation of heat transfer characteristics of high temperature tunnel with movable thermal insulation layer

Wang

et al. 2022

Thermal Science and Engineering Progress

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Numerical study on heat transfer between airflow and surrounding rock with two major ventilation models in deep coal mine

Cited by 5 publications

References 28 publications

A Study on the Conditions of Fog Generation and the Change Rule of Fog Zone Length in Air Intake Roadway

A Study on the Conditions of Fog Generation and the Change Rule of Fog Zone Length in Air Intake Roadway

Identifying Balls Feature in a Large-Scale Laser Point Cloud of a Coal Mining Environment by a Multiscale Dynamic Graph Convolution Neural Network

Heat hazard control in excavation engineering: Numerical simulation of heat transfer characteristics of high temperature tunnel with movable thermal insulation layer

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