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Combustion Science and Technology Volume 153, 2000 - Issue 1
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Original Articles

Effect of Pile Height on Spontaneous Heating of Coal Stockpiles

AHMET ARISOY Istanbul Tecnical University, Faculty of Mech. Eng, Gum¨şuyu, Istanbul, 80191, TurkeyCorrespondence[email protected]
&
FEHMI AKGÜN Istanbul Tecnical University, Faculty of Mech. Eng, Gum¨şuyu, Istanbul, 80191, Turkey
Pages 157-168 | Received 21 Sep 1999, Published online: 17 Sep 2008

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Zhilin Xi, Ze Shan, Meitong Li & Xiaodong Wang. (2021) Analysis of Coal Spontaneous Combustion by Thermodynamic Methods. Combustion Science and Technology 193:13, pages 2305-2330.
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Zhilin Xi, Xiaodong Wang, Xiaoli Wang, Li Wang, Ding Li, Xiangyu Guo & Liwei Jin. (2019) Self-hardening thermoplastic foam for the inhibition of coal oxidation at low temperatures. Combustion Science and Technology 191:11, pages 1942-1959.
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Articles from other publishers (17)

Haiyan Wang, Xiyang Fang, Feng Du, Bo Tan, Lang Zhang, Yanchuan Li & Changfu Xu. (2021) Three-dimensional distribution and oxidation degree analysis of coal gangue dump fire area: A case study. Science of The Total Environment 772, pages 145606.
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Anna Abramowicz, Oimahmad Rahmonov, Ryszard Chybiorz & Justyna Ciesielczuk. (2021) Vegetation as an indicator of underground smoldering fire on coal-waste dumps. Fire Safety Journal 121, pages 103287.
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James G. Speight. 2021. Coal‐Fired Power Generation Handbook 2nd Edition. Coal‐Fired Power Generation Handbook 2nd Edition 113 141 .
Yulong Gao, Siyi Lin, Wenhua Hu & Shuping Yi. (2020) Improved Calculation Model for the Shortest Spontaneous Combustion Period. ACS Omega 5:37, pages 23559-23567.
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S. Muthu Kumaran, Vasudevan Raghavan & Ali. S. Rangwala. (2019) A Parametric Study of Spontaneous Ignition in Large Coal Stockpiles. Fire Technology 56:3, pages 1013-1038.
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Serkan İnal & Kerim Aydıner. (2019) KÖMÜRÜN KENDİLİĞİNDEN YANMASI VE ETKİLEYEN FAKTÖRLER. Bilimsel Madencilik Dergisi, pages 145-165.
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M. Onifade & B. Genc. (2019) Spontaneous combustion liability of coal and coal-shale: a review of prediction methods. International Journal of Coal Science & Technology 6:2, pages 151-168.
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Shao Yuan, Jianzhong Liu, Junhong Wu, Qingqing Zhou, Zhihua Wang, Junhu Zhou & Kefa Cen. (2018) Changes in the physicochemical characteristics and spontaneous combustion propensity of Ximeng lignite after hydrothermal dewatering. The Canadian Journal of Chemical Engineering 96:11, pages 2387-2394.
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Yi Lu. (2017) Laboratory Study on the Rising Temperature of Spontaneous Combustion in Coal Stockpiles and a Paste Foam Suppression Technique. Energy & Fuels 31:7, pages 7290-7298.
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Shao Yuan, Jian-Zhong Liu, Jie-Feng Zhu, Qing-Qing Zhou, Zhi-Hua Wang, Jun-Hu Zhou & Ke-Fa Cen. (2016) Effect of microwave irradiation on the propensity for spontaneous combustion of Inner Mongolia lignite. Journal of Loss Prevention in the Process Industries 44, pages 390-396.
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Jian Zhang, Ting Ren, Yuntao Liang & Zhongwei Wang. (2016) A review on numerical solutions to self-heating of coal stockpile: Mechanism, theoretical basis, and variable study. Fuel 182, pages 80-109.
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Jian Zhang, Yuntao Liang, Ting Ren, Zhongwei Wang & Gongda Wang. (2016) Transient CFD modelling of low-temperature spontaneous heating behaviour in multiple coal stockpiles with wind forced convection. Fuel Processing Technology 149, pages 55-74.
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Zeyang Song, Hongqing Zhu, Guowei Jia & Chaonan He. (2014) Comprehensive evaluation on self-ignition risks of coal stockpiles using fuzzy AHP approaches. Journal of Loss Prevention in the Process Industries 32, pages 78-94.
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James G. Speight. 2013. Coal-Fired Power Generation Handbook. Coal-Fired Power Generation Handbook 127 157 .
Hong-qing Zhu, Ze-yang Song, Bo Tan & Yu-ze Hao. (2013) Numerical investigation and theoretical prediction of self-ignition characteristics of coarse coal stockpiles. Journal of Loss Prevention in the Process Industries 26:1, pages 236-244.
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Z. Yan, U. Goransson, L. Wadso, P. Blomqvist & P. Vanhees. (2005) Validation Of CFD Model For Simulation Of Spontaneous Ignition In Bio-mass Fuel Storage. Fire Safety Science 8, pages 151-162.
Crossref
Rolf K. Eckhoff. 2003. Dust Explosions in the Process Industries. Dust Explosions in the Process Industries 580 680 .

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