Spontaneous combustion coal parameters for the Crossing-Point Temperature (CPT) method in a Temperature–Programmed System (TPS)

Xu, Yun Hua; Wang, Lanyun; Tian, Ning; Zhang, Yaobi; Yu, Minggao; Delichatsios, Michael A.

doi:10.1016/j.firesaf.2017.03.084

Cited by 54 publications

(12 citation statements)

References 34 publications

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“…With the increase in mineral content (indicated by increasing ash content), it has been shown that the crossing point of coal temperature increases (CPT), which is used to evaluate the spontaneous combustion of coal. The Crossing-point Temperature (CPT) is the temperature (temperature and corresponding time) at which the increasing coal temperature is equal to the increasing oven temperature within a Temperature-Programmed System (TPS) [ 18 ]. These results suggest that Bamboo with 6.5% ash content should be the most subject to spontaneous combustion, while Qp should be the least affected (0.5%).…”

Section: Resultsmentioning

confidence: 99%

Statistical Modelling of Temperature and Moisture Uptake of Biochars Exposed to Selected Relative Humidity of Air

et al. 2018

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New experimental techniques, as well as modern variants on known methods, have recently been employed to investigate the fundamental reactions underlying the oxidation of biochar. The purpose of this paper was to experimentally and statistically study how the relative humidity of air, mass, and particle size of four biochars influenced the adsorption of water and the increase in temperature. A random factorial design was employed using the intuitive statistical software Xlstat. A simple linear regression model and an analysis of variance with a pairwise comparison were performed. The experimental study was carried out on the wood of Quercus pubescens, Cyclobalanopsis glauca, Trigonostemon huangmosun, and Bambusa vulgaris, and involved five relative humidity conditions (22, 43, 75, 84, and 90%), two mass samples (0.1 and 1 g), and two particle sizes (powder and piece). Two response variables including water adsorption and temperature increase were analyzed and discussed. The temperature did not increase linearly with the adsorption of water. Temperature was modeled by nine explanatory variables, while water adsorption was modeled by eight. Five variables, including factors and their interactions, were found to be common to the two models. Sample mass and relative humidity influenced the two qualitative variables, while particle size and biochar type only influenced the temperature.

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Section: Resultsmentioning

confidence: 99%

Statistical Modelling of Temperature and Moisture Uptake of Biochars Exposed to Selected Relative Humidity of Air

et al. 2018

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“…They showed that under an initial temperature of 70 ℃, changing the ventilation rate has no evident effect on CO production. Xu et al 18 tested the spontaneous combustion characteristics of bituminous coal under different oxygen concentrations. As the oxygen concentration decreased, the temperature corresponding to four stages slightly increased.…”

Section: Introductionmentioning

confidence: 99%

Influence of Air Supply on Coal Spontaneous Combustion During Support Withdrawal in Fully Mechanized Coal Mining and its Prevention

Zhang

Zhou

Bai

et al. 2021

Preprint

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It is important to study the oxidation characteristics of coal samples under different air supply rates to prevent spontaneous combustion of coal, particularly when the air supply rate at the working face needs to be changed during support withdrawal. In this work a self-designed temperature-programmed experimental device was used to study the change laws of various index gases released during the spontaneous combustion of coal under various air supply conditions. The study focused on the analysis of the low-temperature (30–200 ℃) oxidation stage, the increase in air supply, and the concentration change process of four hydrocarbon gases (C2H6, C3H8, C2H4, and C2H2) generated by the coal sample. The change law of the CO generation rate under the combined effect of temperature and air supply was analyzed, and surface fitting was performed to determine the characteristics of phased changes. Based on the working face parameters of the Yangchangwan Coal Mine, this study predicted the CO concentration at the upper corner of the working face at the characteristic temperature of coal spontaneous combustion during the withdrawal period. The paper summarizes comprehensive safety measures that can help prevent spontaneous combustion during the withdrawal period.

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“…To study the mechanism of coal spontaneous combustion, . the effects of coal ash, moisture, sulfur content, particle size, volatile matter, and porosity on coal spontaneous combustion are analyzed (Arisoy and Beamish 2015;Li et al 2018), the characteristics, such as activation energy, oxygen consumption rate, and exothermic strength, of coal spontaneous combustion are tested (Xu et al 2017;Oren and Sensogut 2018;Zhang et al 2018;Zhong et al 2019), the influence of external environment on coal spontaneous combustion is revealed by changing oxygen concentration, gas concentration, nitrogen concentration, humidity, and other parameters in wind flows (Ma et al 2017;. Studies show that risks associated with coal spontaneous combustion in goafs are not only related with coal spontaneous combustion tendency but also with coal external environments (Liu and Zhou 2010;Li et al 2016;Kong et al 2017).…”

Section: Introductionmentioning

confidence: 99%

Comprehensive risk evaluation of coal spontaneous combustion in goafs based on systems-theoretic accident model and processes

Zhou

Griffiths

Qin

et al. 2020

Geomatics, Natural Hazards and Risk

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The traditional risk evaluation of coal spontaneous combustion in goafs in China is unilateral and inaccurate, which can be attributed to the fact that only the change in coal properties is considered and the external environment of coal is ignored. According to latest research, the factors affecting coal spontaneous combustion in goafs is determined by the systems-theoretic accident model and processes, from which a risk index system is established. Then, a comprehensive risk evaluation model for coal spontaneous combustion in goafs is constructed with the analytic hierarchy process, unascertained measurement theory and combination weighting method, which divides the risk of coal spontaneous combustion into four levels. The model is tested in three goafs in different coal mines. Findings show that the model is objective and valid and can be applied to the risk evaluation of coal spontaneous combustion in goafs in coal mines.

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Spontaneous combustion coal parameters for the Crossing-Point Temperature (CPT) method in a Temperature–Programmed System (TPS)

Cited by 54 publications

References 34 publications

Statistical Modelling of Temperature and Moisture Uptake of Biochars Exposed to Selected Relative Humidity of Air

Statistical Modelling of Temperature and Moisture Uptake of Biochars Exposed to Selected Relative Humidity of Air

Influence of Air Supply on Coal Spontaneous Combustion During Support Withdrawal in Fully Mechanized Coal Mining and its Prevention

Comprehensive risk evaluation of coal spontaneous combustion in goafs based on systems-theoretic accident model and processes

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