References
- Alizadehdakhel, A., M. Rahimi, and A. A. Alsairafi. 2010. CFD modeling of flow and heat transfer in a thermosyphon. Int. Commun. Heat Mass Transfer 37 (3):312–18. doi:10.1016/j.icheatmasstransfer.2009.09.002.
- Brodny, J., and M. Tutak. 2018. Determination of the zone with a particularly high risk of endogenous fires in the goaves of a longwall with caving. J. Appl. Fluid Mech. 11 (3):545–53. doi:10.29252/jafm.11.03.27240.
- Chen, Q., M. Sun, and G. Su. 2018. Influence of gravity heat pipe hipe on temperature field in coal pile[J]. Saf. Coal Mines 49 (11):211–14.
- Chiasson, A. D., C. Yavuzturk, D. E. Wairath. 2007. Evaluation of electricity generation from underground coal fires and waste banks[J]. J. Energy Res. Technol. 129(2):81–89. doi:10.1115/1.2718576.
- Cotter, T. P. 1965. Theory of heat pipes. California: Los Alamos Scientific Laboratory of the University of California.
- Deng, J., Y. Xiao, Q. Li, J. Lu, and H. Wen. 2015. Experimental studies of spontaneous combustion and anaerobic cooling of coal. Fuel 157:261–69. doi:10.1016/j.fuel.2015.04.063.
- Faghri, A. 1995. Heat pipe science and technology, 341–440. Columbia: Global Digital Press.
- Fernández-Alaiz, F., A. M. Castañón, F. Gómez-Fernández, A. Bernardo-Sánchez, and M. Bascompta. 2020. Determination and fire analysis of gob characteristics using CFD. Energies 13 (20):5274. doi:10.3390/en13205274.
- Jiao, B., L. M. Qiu, and Y. Zhang. 2008. Theoretical investigation on the flooding limit in condenser of a two-phase closed thermosyphon[J]. J. Eng. Thermophys. 29 (6):1028–30.
- Jobb, M., P. Nemec, U. Kosa, and M. Malcho. 2014. Influence of working fluid amount and working position gravitational heat pipe on thermal performance. Am. Inst. Phys. 1608:88–91.
- Lenhard, R., K. Katarína, and P. Štefan 2014, Analysis of the fill amount influence on the heat performance of heat pipe. XIX the Application of Experimental & Numerical Methods in Fluid Mechanics & Energetics: International ConferenceXIX the Application of Experimental & Numerical Methods in Fluid Mechanics & Energetics: International Conference, Liptovsky Ján, Slovakia. 146–152. American Institute of Physics.
- Li, B., W. Gao, D. Jun. 2020. Thermal migration characteristics of coal fire area based on fire prevention technology with heat pipe[J]. J. Cent South Univ. (Sci. Technol.) 51 (4):1135–44.
- Li, W., J. Li, X. Liu. 2018. Prevent spontaneous combustion of coal piles in enclosed circular coal yard by using low temperature heat pipe technology[J]. Refrig. Air Conditioning 32 (3):251–55.
- Liu, Q., W. Li, and Y. Chen. 2000. Prevention and control of spontaneous combustion of open-pit coal pile by quantitative water injection with stepped cannula[J]. Saf. Coal Mines31 (6):9–11.
- Locke, G. S. H. 1992. The tubular thermosyphon: Variations on a theme, 326. Oxford, England: Oxford University Press.
- Ma, L., B. Li, J. Deng. 2014. Deep heat transfer technology usingthermal probe in high temperature region of coal storage pile (Gangue Hill) spontaneous combustion[J]. Sci. Technol. Rev. 32 (17):76–80.
- Qu, R. 2014, Experimental research of gravity heat pipe used to extract spontaneous heat storage in the coal. Doctoral dissertation, Xi’an University of Science and Technology.
- Szurgacz, D., M. Tutak, J. Brodny, L. Sobik, and O. Zhironkina. 2020. The method of combating coal spontaneous combustion hazard in goafs—A case study. Energies 13 (17):4538. doi:10.3390/en13174538.
- Tutak, M., and J. Brodny 2017, Determination of particular endogenous fires hazard zones in goaf with caving of Longwall. Lop Conference 95 (4):042026.
- Wang, J. 2018, Numerical simulation study on effect of gravity heat pipe on distribution of coal fired spontaneous combustion temperature field. Doctoral dissertation, Xi’an University of Science and Technology.
- Wang, L. 2017, Study on influence factors of heat transfer capability of heat pipe used for coal storage pile. Doctoral dissertation, Xi’an University of Science and Technology.
- Xu, L.-H. 1991. Experimental study on temperature reduction of pile heat pipe. Energy Res. Utili. 9 (2):11–15.
- Zhang, Y.-P., J.-G. Wang, J. I. Chang-fa. 2017. Cooling effect analysis of heat pipe suppressing coal spontaneous combustion. Coal Eng. 49 (2):100–02.