44 research outputs found
Assessment of Different Technologies for Improving Visibility during Foggy Weather in Mining and Transportation Sectors
Generally during foggy weather in winter season, mining operation remains suspended for hours due to problem of visibility. Foggy weather also leads to accidents, loss of life and infrastructure damages in mining and transportation sectors. This paper discusses about the existing technologies for improving visibility in transportation sector and suitability assessment of these technologies in mines for uninterrupted mining operations in foggy weathe
Performance Analysis of IoT-based underground miner’s tracking and wireless voice communication system
This paper addresses an integrated wireless-fidelity (Wi-Fi)
and radio frequency identification (RFID) based wireless
system which has been developed for tracking of miners,
wireless communication between miners and officials on
surface. The system provides a walk through model in mine
display and can predict mine-hazards. The system has been
developed for providing emergency response using Internet
of Things (IoT) enabled devices for tracking of trapped
miners in a particular underground mine located using
monitoring system and thereby sends real-time location to
the concerned management and rescue team. The network
performance has been analysed to assess the maximum
operating distance, packet delivery ratio (PDR) and data
communication capabilities. PDR was 6-7% more in normal
surface conditions than mine environment for same
transmission distance. This network analysis shows that
with increase in distance between miner and the end device,
the PDR decreases. Also increases in the number of hops in
between end device and mine coordinator reduces the PD
Prediction of Strata Monitoring System in Underground Coal Mines Using IoT
Underground coal mines are known for being one of the most hazardous sectors due to its working environment. The mine workers are usually prone to many risk factors leading to heavy casualties. As per the statistical records of Directorate General of Mines Safety, roof fall is one of the major causes of accident in Indian underground coal mines. One of the critical contributing factors of such accidents is lack of roof fall prediction system, thereby leading to failure to withdraw or removal of working persons before the actual failure. Real-time monitoring of strata movement and analysing the acquired data for predicting possible roof fall well in advance through an effective intelligent system can certainly pave way in reducing the accidents due to roof fall.
The paper presents an integrated strata management system for continuous monitoring of strata behaviour and analysing the data using artificial intelligence for prediction of failure of strata ahead of time.
This web-based monitoring system initially sets the customizable threshold values according to the mine conditions followed by continuously monitoring of the strata conditions including triggering an alarm system when the retrieved data crosses the set threshold limit
Cloud Computing : A New Era in IT industry
Cloud computing evolves itself as a key technology for handling and sharing massive data on demand service. It constitutes basic computing paradigm that illustrates more elastic and low cost infrastructure to it, which access large number of data as compare to other paradigm in computing. Cloud computing gains to new heights in recent years as it developed generic models like new revenue streams and business models, which makes it more flexible in information technology applications. The paper enumerates details of cloud computing technology, deployment models, and its characteristics and implementation status
Modernization of Indian coal mining industry: Vision 2025
28-35In view of vision 2025, CIMFR, Dhanbad has developed a web-based information and decision support system for coal
mining industry. Paper summaries scope of proposed IT based system by highlighting existing problems and proposed
solutions under different modules, and briefly enumerates the methodology to develop the proposed system
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Revegetation as a tool for mine spoil carbon recovery and dump stability
Studies on radio frequency propagation characteristics for underground coalmine communications
418-422A basic understanding of the behaviour of electromagnetic wave propagation through strata is the fundamental requirement to design a suitable wireless communication system for underground mines. Background information on radio propagation and its limitations, in a particular confined space can be known only after the measurement. Both electromagnetic propagation studies and modelling of propagation coverage, ultimately help in selecting the best suitable frequency and designing appropriate wireless communication system for underground mine. The paper discusses different aspects for propagation modelling and the experiment conducted in the laboratory to understand the propagation characteristics through coal. It is found that 6 MHz frequency is the best suitable frequency for propagation of electromagnetic wave through coal
Intelligent dry fog dust suppression system: an efficient technique for controlling air pollution in the mineral processing plant
Dust suppression system plays a significant role in mining and allied industries. It has become an integral part of the environmental management system. Dust emission from mining and mineral processing industries poses environmental and health problems to workers and surrounding people. Dust creates a reliability issue in machinery and ventilation systems, causing infrastructural damage and the industry’s financial losses. This paper deals with a smart dry fog dust suppression system which has been developed for effectively controlling dust emission from mining and mineral processing activities. The system has been implemented in an iron ore crushing and screening plant in India, and its efficacy has been evaluated for controlling dust emission. The installed dry fog system reduced dust concentration to 0.10–0.17 mg m−3 from the prevailing dust concentration of 0.62–1.73 mg m−3 in work zone areas, which was much below the permissible limit below 1 mg m−3 where silica content in the dust was less than 5%. Percentage of free silica in the work zone dust reduced to traces from 3.61 to 4.80%. Similarly, PM10 and PM2.5 concentrations in the ambient air were decreased to 90–99 μg m−3 and 49–58 μg m−3 from 185 to 250 μg m−3 and 148–200 μg m−3, respectively. Further, concentrations of PM10 and PM2.5 were drastically reduced by 51.35–60.4% and 69.69–71.0%, respectively. The reduced dust concentrations in the ambient air were within the prescribed limit of PM10 (100 μg m−3) and PM2.5 (60 μg m−3). The system significantly reduces dust and free silica concentration in the work zone areas below the permissible limit. The system controls dust emission with an increase in production as it has been found that the number of nozzles is directly correlated with a reduction in dust. Furthermore, the system does not change the raw material’s mass as water added to dust is less than 0.01% of the raw material. The system is designed to give the best results within the closed environment of the plant. The system helps in eco-friendly and clean mining. The system reduces the breakdown and maintenance cost of mining equipment, thereby decreasing overall operating costs. Further, the system minimizes mine workers’ health problems, like silicosis and severe other occupation diseases. The system is automatic, cost-effective, energy efficient, and easy to maintain. Further, the system is capable of handling dust problems in the closed environment of crushing and screening plants. These properties make the system techno-economically feasible for installation in mineral processing plants