Faculty Publications

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    A comprehensive assessment of increased iron ore production on the environment - A case study
    (2011) Thimmaiah, S.A.; Rao, Y.; Murthy, C.H.S.N.
    There has been a significant increase in iron ore production in the Bellary- Hospet-Sandur sector of Karnataka, India due to sudden increase in the demand of iron ore from other countries as well as by local steel plants set up in the region. An attempt has been made in this paper to study the effect of increase in the iron ore production on various environmental parameters like air, water, soil and noise. For this purpose a study area of 10 Km radius was taken and the various environmental parameters were monitored before and after increase in iron ore production in the region. Study shows that there is no significant change in the air quality in terms of SPM, RPM, SO2 and NOx in the region. In many locations, there is decrease in the concentrations of these parameters. This is mainly due to improvement of roads by asphalting, effective covering of iron ore trucks by tarpaulin, awareness among mine owners about the protection of environment by following various pollution control measures, dust suppression measures on the public road using water sprinklers and stringent monitoring of the environmental protective measures by various regulatory authorities. The concentration of SO2 and NOx was found to increase due to increase in traffic by movement of tippers in the public/village road. The deployment of heavy earth moving machinery at mine site also contributed for increase of SO2 and NOx. The surface water quality parameters were found to be within the acceptable limits in the study area. There is no possibility of disturbing/altering ground water table due to mining operations as the mining is being carried out on hill top which is above the general ground level. In agricultural soil, except that of potassium and electrical conductivity, variations in other parameters are insignificant as the agricultural lands are located 2 to 3 Kms away from the active mining area. Increase in noise level is found at most of the locations of the study area. Therefore, serious attempts should be made by mine owners as well as statutory bodies to reduce the sound level at various locations for increasing the quality of life in these locations in terms of sound level. © 2011 CAFET-INNOVA technical society. All right reserved.
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    Development of a Novel Real-Time Environmental Parameters Monitoring System Based on the Internet of Things with LoRa Modules in Underground Mines
    (Springer, 2023) Kumar Reddy, S.K.; Naik, A.S.; Raj, M.G.
    The mining industry relies on extracting valuable minerals through underground mining. Many industries have implemented automation to enhance workplace safety, optimize operations, improve responses to events, and achieve cost-effectiveness. A real-time communication and monitoring system is indispensable in underground mines to prevent significant hazards and improve safety in underground mines. However, the environmental conditions of underground mines are affected by toxic, flammable, combustible gases and dust. The harmful gases are a significant concern as they can cause gas explosions. Internet of Things (IoT) enabled real-time communication system with Long Range (LoRa) transceiver module is designed and developed to measure the underground mine environmental parameters, temperature, and humidity. The LoRa-based proof of concept (POC) system is tested and evaluated at the surface level and in two underground mines. The LoRa module radio waves range test is carried out to measure the received signal strength indicator (RSSI) value at the surface level. In addition, the developed system is tested and evaluated at different positions of underground mines to measure environmental parameters in straight and curved tunnels. The experimental results represent successful IoT with LoRa-based wireless communication between underground mine tunnels to the surface, wireless transmission of parameters at the straight tunnels, and curved tunnels of underground mines. © The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature 2024.
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    RTEPMS: Real-Time Environmental Parameters Monitoring System Using IoT-Based LoRa 868-MHz Wireless Communication Technology in Underground Mines
    (Institute of Electrical and Electronics Engineers Inc., 2024) Naik, A.S.; Kumar Reddy, S.K.; Raj, M.G.
    In underground mining, the real-time monitoring of environmental parameters plays a pivotal role in ensuring the safety of mining operations and personnel. This article explores the integration of Long Range (LoRa) wireless communication technology and the Internet of Things (IoT) to bolster safety measures and prevent potential accidents within underground mines. The environmental parameters in underground mines include Oxygen (O2), Carbon Dioxide (CO2), Carbon Monoxide (CO), Methane (CH4), Nitric Oxide (NO), Nitrogen Dioxide (NO2), Sulphur Dioxide (SO2), Hydrogen Sulfide (H2S), Ethylene Oxide (EO), Temperature and Humidity. Currently, underground mines in India use portable multi-gas detector devices to measure environmental parameters. HPD13A LoRa 868 MHz based Real Time Environmental Parameters Monitoring System (RTEPMS) is designed and developed to facilitate real-time data collection in underground mines. In addition, the developed RTEPMS system is tested and evaluated at the open surface level and in one of the underground mines in India. The experimental results represent successful LoRa-based wireless communication established in an underground mine with data acquisition and real-time processing. Major parameters exceeding threshold limits in the underground mine environment include O2, CO, CO2, NO2, and EO. The data correlation between LoRa-based RTEPMS and multi-gas detector devices is 69.47% for CO2 and 72.38% for CO, while the values for CH4 and H2S are nearly zero, indicating their presence in underground mines is almost negligible. The RTEPMS is an affordable solution for smaller and less affluent underground mines. It alerts mine workers if environmental parameters exceed threshold limits during emergencies. © 2013 IEEE.
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    Development of a Reliable Wireless Communication System to Monitor Environmental Parameters from Various Positions of Underground Mines to the Surface using ZigBee Modules
    (Springer, 2024) Kumar Reddy, S.K.; Naik, A.S.; Raj, G.R.
    The mining industry is known for its valuable minerals, and the way to get minerals is by mining below the surface. Many industries benefitted by adopting automation which has improved workplace operational management, enhanced safety, real-time monitoring, and cost-effectiveness. On the basis of challenges in underground mines, a reliable wireless communication and monitoring system is required in underground mines to enhance safety and prevent major hazards. Underground mine environments are affected by various environmental parameters such as toxic gases, flammable and inflammable gases, and dust. The variation in the presence of harmful gases is a major issue that causes gas explosions and damages the mine infrastructure. Currently, most underground mines adopted conventional multi-gas detectors to monitor mine gases manually at regular intervals or once a day. In this paper, a real-time data communication system to monitor mining parameters based on wireless ZigBee modules is established and evaluated in two different underground mines in India. A wireless message communication establishment process between two ZigBee modules is described in detail, and an investigation of radio range tests by measuring received signal strength indication (RSSI) parameters is carried out in the first underground mine site at level 3 with consideration of 10-m intervals apart at each test for the straight tunnel case. In addition, wireless communication is established to monitor the environmental parameters of underground mine levels to the surface. Further, established wireless communication to monitor the environmental parameters of the straight and curved tunnels of a second underground mine. The experimental result represents successful wireless communication between ZigBee modules with a distance of 100 m to 120 m in straight tunnels and a reduction in signal strength and data packet loss in curved tunnels of underground mines. In addition, the results show that the developed ZigBee-based system is suitable for measuring environmental parameters in open surface and underground mines. © The Institution of Engineers (India) 2023.