INVESTIGATION OF SOMA REGION COALS WITH RESPECT TO SPONTANEOUS COMBUSTION SUSCEPTIBILITY

SENSOGUT, CEM; Kasap, Yaşar; Ören, Özer

INVESTIGATION OF SOMA REGION COALS WITH RESPECT TO SPONTANEOUS COMBUSTION SUSCEPTIBILITY

Hasan Hüseyin ILICA, (Kütahya Dumlupınar Üniversitesi, Maden Mühendisliği Bölümü, 43100, Kütahya, Türkiye)

Özer ÖREN, (Kütahya Dumlupınar Üniversitesi, Maden Mühendisliği Bölümü, 43100, Kütahya, Türkiye)

Cem ŞENSÖĞÜT (Kütahya Dumlupınar Üniversitesi, Maden Mühendisliği Bölümü, 43100, Kütahya, Türkiye)

Journal of scientific reports-A (Online)

1 0

Yıl: 2020 Cilt: 0 Sayı: 45 Sayfa Aralığı: 201 - 214 Metin Dili: İngilizce İndeks Tarihi: 23-02-2021

INVESTIGATION OF SOMA REGION COALS WITH RESPECT TO SPONTANEOUS COMBUSTION SUSCEPTIBILITY

Öz:

One of the factors that make coal mining difficult is the spontaneous combustion of coal. Spontaneouscombustion including various parameters is not only met in underground mining, but also in surfacemining, stockyards and long-distance transport of coal by land and sea. This event, which threatenedthe occupational safety in mines, has effects of causing loss of lives and defecting human health. Inmining enterprises, it causes production losses along with economic losses. It is a serious matter thatrequires good planning and supervision in order not to cause irreversible damages. Spontaneouscombustion of coals develops depending on internal, environmental factors and production methods.In order to eliminate the problems caused by spontaneous combustion, the spontaneous combustionconditions of coals must be determined and classified beforehand. In this study, spontaneouscombustion tendencies of Soma Region coals were generally determined with samples taken fromIşıklar Colliery, İmbat Mining and Eynez Colliery of Demir Export. Using the crossing point method,a total of 30 experiments were carried out with 10 samples taken from each colliery to find out the riskof spontaneous combustion of the Soma Region coals. Based on the values obtained, it has beendetermined that the coals of the Soma Region have a "high" tendency to spontaneous combustion.

Anahtar Kelime:

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık

[1] Carras, J. N., Day, S. J., Saghafi, A. and Williams, D. J. (2009). Greenhouse gas emissions from low-temperature oxidation and spontaneous combustion at open-cut coal mines in Australia. Int. J. of Coal Geology, 78(2), 161–168.
[2] Fierro, V., Miranda, J. L., Romero, C., Andrés, J. M., Arriaga, a., Schmal, D. and Visser, G. H. (1999). Prevention of spontaneous combustion in coal stockpiles: Experimental results in coal storage yard. Fuel Processing Technology, 59(1), 23–24.
[3] Qi, X., Wang, D., Zhong, X., Gu, J. and Xu, T. (2010). Characteristics of oxygen consumption of coal at programmed temperatures. Mining Science and Technology (China), 20(3), 372–377.
[4] Carras, J. N., Young, B. C. (1994). Self-heating of coal and related materials: Models, application and test methods. Progress in Energy and Combustion Science, 20(1), 1–15.
[5] Gürdal, G., Hoşgörmez, H., Özcan, D., Li, X., Liu, H. and Song, W. (2015). The properties of Çan Basin coals (Çanakkale—Turkey): Spontaneous combustion and combustion by-products. Int. J. of Coal Geology, 138, 1–15.
[6] Wang, H., Dlugogorski, B. Z. and Kennedy, E. M. (2003). Coal oxidation at low temperatures: oxygen consumption, oxidation products, reaction mechanism and kinetic modelling. Progress in Energy and Combustion Science, 29(6), 487–513.
[7] Güney, M., (1968). Certain factors affecting the oxidation and spontaneous combustion of coal. University of Nottingham, Mining Dept. Magazine, 20, 71 – 80.
[8] Ramlu, M.A., (1991). Mine disastersand mine rescue. A.A. Balkema, Rotterdam, p.397
[9] Wang, H., Dlugogorski, B. Z. and Kennedy, E. M. (2003). Analysis of the mechanism of the low-temperature oxidation of coal. Combustion and Flame, 134(1–2), 107–117.
[10] Akgün, F., Arisoy, A. (1994). Effect of particle size on the spontaneous heating of a coal stockpile. Combustion and Flame, 99(1), 137–146.
[11] Didari, V. (1986). Yeraltı ocaklarında kömürün kendiliğinden yanması ve risk indeksleri. Madencilik Dergisi, 25(4), 29-34.
[12] Arisoy, A., Beamish, B. (2015). Mutual effects of pyrite and moisture on coal self-heating rates and reaction rate data for pyrite oxidation. Fuel, 139, 107-114.
[13] Beamish, B., Lin, Z. and Beamish, R. (2012). Investigating the influence of reactive pyrite on coal self-heating. Proc. of the Twelfth Coal Operators Conference (pp.294-299), Wollongong, Australia.
[14] Stracher, G.B.,Prakash, A. and Ellina, V.S. (2010). Coal and peat fires – A global perspective. vol.I: coal, geology and combustion, p.343
[15] Gill, F., Browning, E. (1971). Spontaneous combustion in coal mines. Colliery Guardian, 219, 79-85.
[16] Banerjee, S.C. (1985). Spontaneous combustion of coal and mine fires. A.A. Balkema / Rotterdam, 167 s.
[17] Kural, O. (1988). Kömür kimyası ve teknolojisi.
[18] Erkan, H. (1964). Kömürün depolanması. Madencilik, 3, 12-13.
[19] Karpuz, C., Güyagüler, T., Bağcı, S., Bozdağ, T., Başarır, H. ve Keskin, S. (2000). Linyitlerin kendiliğinden yanmaya yatkınlık derecelerinin tespiti: Bölüm I – Risk sınıflaması derlemesi. Madencilik Dergisi, 3-13.
[20] Kural, O. (1998).Kömür özellikleri, teknolojisi ve çevre ilişkileri. Özgün Ofset Matbaacılık A.Ş.
[21] Wang, D.; Dou, G.; Zhong, X.; Xin, H.; Qin, B. (2014). An experimental approach to selecting chemical inhibitors to retard the spontaneous combustion of coal. Fuel, 117, 218-223.
[22] Li, J., Li, Z., Yang, Y., Zhang, X., Yan, D. and Liu, L. (2017). Inhibitive Effects of Antioxidants on Coal Spontaneous Combustion. Energy Fuels, 31(12), 14180-14190.
[23] Saraç, S. (1992). Yeraltı Kömür Ocaklarında Kendiliğinden Yanma. Anadolu Üniversitesi Mühendislik – Mimarlık Fakültesi Yayınları, 106-118.
[24] Soytürk, T. (1992). Tunçbilek Kömürlerinin Kendiliğinden Yanmaya Yatkınlıklarının Araştırılması. Yüksek Lisans tezi Anadolu Üniversitesi Fen Bilimleri Enstitüsü, 77.
[25] Şahin, N., Didari, V. (2002). Zonguldak Kömürlerinde Kendiliğinden Yanmanın Erken Saptanması Amacıyla Yanma Ürünü Gazların İncelenmesi. Madencilik, 41, (4) 37– 51.
[26] Ayvazoğlu, E., 1978; EKİ Kozlu bölgesi Çay ve Acılık Kömürlerinin Oksidasyonunun Erken Tespiti Yönünden İncelenmesi. Türkiye 1. Kömür Kongresi, 539 – 563.
[27] Karaçam, E., Didari, V., Atalay, T. (1988). Zonguldak Kömürlerinin Kendiliğinden Yanmaya Yatkınlıklarının Araştırılması. Türkiye 6. Kömür Kongresi, 91 – 100.
[28] Yılmaz, A.O., Atalay, T. (1990). TTK Armutçuk Müessesesinde Kendiliğinden Yanma Olayının Araştırılması. Türkiye 7. Kömür Kongresi, 399–410.
[29] Kaymakçı, E. (1998). Zonguldak Havzası Kömür Damarlarına Uygulanabilecek bir Kendiliğinden Yanmaya Doğal Yatkınlığı Değerlendirme Tekniğinin Geliştirilmesi. Doktora tezi Zonguldak Karaelmas Üniversitesi Fen Bilimleri Enstitüsü.
[30] Saraç, S., Soytürk, T. (1992). Tunçbilek Kömürlerinin Kendiliğinden Yanmaya Yatkınlıklarının araştırılması. Türkiye 8. Kömür Kongresi, 141–152.
[31] Kadioglu, Y., Varamaz, M. (2003). The Effect of Moisture Content and Air – Drying on Spontaneous Combustion Characteristics of Two Turkish Lignites. Fuel, (82) 1685-1693.
[32] Sensogut, C., Cinar, I. (2000). A Research on the Tendency of Ermenek District Coals to Spontaneous Combustion. Mineral Resources Engineering, 9(4), 421– 427.
[33] Beamish, B.B., Barakat, M.A., St.George, J.D. (2000. Adiabatic testing procedures for determining self-heating propensity of coal and sample ageing effects. Thermochimica Acta, 362, 79-87.
[34] Zubíček, V., Adamus, A. (2013). Susceptibility of coal to spontaneous combustion verified by modified adiabatic method under conditions of Ostrava-Karvina coalfield, Czech Republic. Fuel Processing Technology, 113, 63-66.
[35] Chen, X.D. (1999). On basket heating methods for obtaining exothermic reactivity of solid materials: The extent and impact of the departure of the crossing-point temperature from the oven temperature. Process Safety and Environmental Protection, 77(4), 187-192.
[36] Zubíček, V. (2008). Assessment of susceptibility of coal to spontaneous combustion in OKR. Geoscience Engineering, 4, 1-9.
[37] Avila, C., Wu, T., Lester, E. (2014). Estimating the spontaneous combustion potential of coals using thermogravimetric analysis. Energy&Fuels, 28, 1765-1773.
[38] Pis, J.J., de la Puente, G., Fuente, E., Moran, A., Rubiera, F. (1996). A study of the self-heating of fresh and oxidized coals by differantial thermal analysis. Thermochimica Acta, 279, 93-101.
[39] Oren, O., Sensogut, C. (2010). Spontaneous combustion liability of Kutahya (Turkey) region lignites. Energy Sources, Part A: Recovery, Utilization and Environmental Effects, 32, 877-885.
[40] Feng, K.K., Chakravorty, R.N. and Cochrane, T.S. (1973). Spontaneous combustion – a coal mining hazard. The Canadian Mining and Metall. Journal, 66(738), 75–84.
[41] Beamish, B. B., Blazak, D.G. (2005). Relationship Between Ash Content and R70 Self-heating Rate of Callide Coal. International Journal of Coal Geology, 64, 126-132.

APA	Kasap Y, Ören Ö, SENSOGUT C (2020). INVESTIGATION OF SOMA REGION COALS WITH RESPECT TO SPONTANEOUS COMBUSTION SUSCEPTIBILITY. , 201 - 214.
Chicago	Kasap Yaşar,Ören Özer,SENSOGUT CEM INVESTIGATION OF SOMA REGION COALS WITH RESPECT TO SPONTANEOUS COMBUSTION SUSCEPTIBILITY. (2020): 201 - 214.
MLA	Kasap Yaşar,Ören Özer,SENSOGUT CEM INVESTIGATION OF SOMA REGION COALS WITH RESPECT TO SPONTANEOUS COMBUSTION SUSCEPTIBILITY. , 2020, ss.201 - 214.
AMA	Kasap Y,Ören Ö,SENSOGUT C INVESTIGATION OF SOMA REGION COALS WITH RESPECT TO SPONTANEOUS COMBUSTION SUSCEPTIBILITY. . 2020; 201 - 214.
Vancouver	Kasap Y,Ören Ö,SENSOGUT C INVESTIGATION OF SOMA REGION COALS WITH RESPECT TO SPONTANEOUS COMBUSTION SUSCEPTIBILITY. . 2020; 201 - 214.
IEEE	Kasap Y,Ören Ö,SENSOGUT C "INVESTIGATION OF SOMA REGION COALS WITH RESPECT TO SPONTANEOUS COMBUSTION SUSCEPTIBILITY." , ss.201 - 214, 2020.
ISNAD	Kasap, Yaşar vd. "INVESTIGATION OF SOMA REGION COALS WITH RESPECT TO SPONTANEOUS COMBUSTION SUSCEPTIBILITY". (2020), 201-214.

APA	Kasap Y, Ören Ö, SENSOGUT C (2020). INVESTIGATION OF SOMA REGION COALS WITH RESPECT TO SPONTANEOUS COMBUSTION SUSCEPTIBILITY. Journal of scientific reports-A (Online), 0(45), 201 - 214.
Chicago	Kasap Yaşar,Ören Özer,SENSOGUT CEM INVESTIGATION OF SOMA REGION COALS WITH RESPECT TO SPONTANEOUS COMBUSTION SUSCEPTIBILITY. Journal of scientific reports-A (Online) 0, no.45 (2020): 201 - 214.
MLA	Kasap Yaşar,Ören Özer,SENSOGUT CEM INVESTIGATION OF SOMA REGION COALS WITH RESPECT TO SPONTANEOUS COMBUSTION SUSCEPTIBILITY. Journal of scientific reports-A (Online), vol.0, no.45, 2020, ss.201 - 214.
AMA	Kasap Y,Ören Ö,SENSOGUT C INVESTIGATION OF SOMA REGION COALS WITH RESPECT TO SPONTANEOUS COMBUSTION SUSCEPTIBILITY. Journal of scientific reports-A (Online). 2020; 0(45): 201 - 214.
Vancouver	Kasap Y,Ören Ö,SENSOGUT C INVESTIGATION OF SOMA REGION COALS WITH RESPECT TO SPONTANEOUS COMBUSTION SUSCEPTIBILITY. Journal of scientific reports-A (Online). 2020; 0(45): 201 - 214.
IEEE	Kasap Y,Ören Ö,SENSOGUT C "INVESTIGATION OF SOMA REGION COALS WITH RESPECT TO SPONTANEOUS COMBUSTION SUSCEPTIBILITY." Journal of scientific reports-A (Online), 0, ss.201 - 214, 2020.
ISNAD	Kasap, Yaşar vd. "INVESTIGATION OF SOMA REGION COALS WITH RESPECT TO SPONTANEOUS COMBUSTION SUSCEPTIBILITY". Journal of scientific reports-A (Online) 45 (2020), 201-214.