Characterization of a mine fire using atmospheric monitoring system sensor data

Yuan, Liming; Thomas, R.A.; Zhou, Lihong

doi:10.19150/me.7567

Cited by 13 publications

(2 citation statements)

References 6 publications

(6 reference statements)

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“…The timing of the reduction of CO gas is important to consider during blasting in the development tunnel because if CO gas does not dissipate when workers re-enter for work, it can cause poisoning [9]. To meet the needs of air and heat flow and to dilute toxic gases in underground mines, careful calculations are required for the placement of ventilation ducts, fan speed, and good air circulation conditions, ensuring that fresh air and heat can circulate properly, thereby creating a safe and comfortable working environment [10]. The purpose of this research is to study how quickly CO gas dissipates at the observation distance used.…”

Section: Introductionmentioning

confidence: 99%

Study of CO Gas Dilution in Forcing Ventilation System at Ramp Down KKRB 4 Utama, Pongkor, West Java

Yulianti,

Hartami,

Aryanto

et al. 2024

IOP Conf. Ser.: Earth Environ. Sci.

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CO is a hazardous gas formed from the reaction of explosives that lack oxygen balance. These explosives have the potential to generate toxic gases, including CO. It is crucial to minimize CO concentration at the work site by ensuring proper air circulation. This study aims to examine the impact of varying ducting distances on CO gas dilution, using the gas diffusion coefficient value as a basis. The research method employed is observational, involving the assessment of CO gas dilution in the tested tunnel at varying distances from the working front to the sensor. The research was conducted on the Ramp Down KKRB 4 Utama. Result of the research is the most ideal carbon monoxide reduction time at RD KKRB 4 Utama is shown at sensor placement distance 1 using the blow system, where A Sensor takes 2.21 hours and B Sensor takes 1.06 hours to reach a concentration level below the TLV (Threshold Limit Value) 50 ppm.

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Section: Introductionmentioning

confidence: 99%

Study of CO Gas Dilution in Forcing Ventilation System at Ramp Down KKRB 4 Utama, Pongkor, West Java

Yulianti,

Hartami,

Aryanto

et al. 2024

IOP Conf. Ser.: Earth Environ. Sci.

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“…He combined various sensitivity and correlation evaluation indicators to monitor and analyze transportation carbon emissions. Yuan et al (2017) research showed that AMS monitors airflow velocity and methane concentration among other ventilation-related parameters at specific mine locations. Based on the theory of heat and mass transfer in ventilation airflow, it uses CO, CO, and airflow velocity from AMS sensor data.…”

Section: Introductionmentioning

confidence: 99%

Integrated energy carbon emission monitoring and digital management system for smart cities

Liu

Zhang

2023

Front. Energy Res.

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In recent years, although China’s economy has continued to grow, the environmental impact is greatly affected by the use of primary energy, such as global warming, which has become more and more serious. Under the background of energy conservation and emission reduction, China’s emission reduction pressure is very great. In this paper, an online monitoring system for carbon emissions is developed for real-time monitoring of carbon emissions, and the ant colony algorithm is used to perform multi-objective optimization based on “construction period-cost-carbon emissions.” Through the organic integration of wireless sensors, communication networks, cloud servers, and mobile devices, a real-time monitoring system for carbon emissions has been developed, which can monitor and visualize the carbon emissions generated by major machinery on site in real time. At the same time, the resource consumption of each process in different modes is sorted out, and the multi-objective optimization problem of “construction period-cost-carbon emission” is designed to seek the optimal solution by combining the multi-objective optimization theory. In this paper, the developed real-time monitoring system is applied in the actual field, the stability and practicability of the system are verified, and the process-related data is obtained by combining the monitoring system and field investigation. The experimental results show that the relative deviations of the two units are consistent, fluctuating between 0.54% and 6.14%, and the overall deviations are 3.61% and 3.63%, respectively. Therefore, the online carbon emission monitoring system has stable data and high accuracy. By comparing the data trends of the online monitoring method and the emission factor method, it is found that the two trends are consistent, which verifies the applicability of the online monitoring method in the field of carbon emission monitoring.

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Data Stream Clustering Algorithm in Data Mining

Shu

2020

Advances in Intelligent Systems and Computing

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Characterization of a mine fire using atmospheric monitoring system sensor data

Cited by 13 publications

References 6 publications

Study of CO Gas Dilution in Forcing Ventilation System at Ramp Down KKRB 4 Utama, Pongkor, West Java

Study of CO Gas Dilution in Forcing Ventilation System at Ramp Down KKRB 4 Utama, Pongkor, West Java

Integrated energy carbon emission monitoring and digital management system for smart cities

Data Stream Clustering Algorithm in Data Mining

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