Citations (14)
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Tevfik Agacayak. (2023) Investigation of co-combustion characteristics of olive bagasse, coal and their respective blends by thermogravimetric analysis (TGA). International Journal of Coal Preparation and Utilization 43:1, pages 13-26.
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Ozer Oren & Cem Sensogut. (2021) Analysis of the Oxidation Behaviors of the Coal Samples kept Under Different Storing Conditions from the Aspect of Thermogravimetry and Oxygen Deficiency. International Journal of Coal Preparation and Utilization 41:2, pages 126-143.
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Özer Ören, Cem Şensöğüt & Oktay Şahbaz. (2020) Empirical modelling of oxidation behaviours of coals stored under different conditions. International Journal of Mining, Reclamation and Environment 34:3, pages 159-178.
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Ayhan Demirbas, Nurettin Cek & Sukru Acar. (2018) Chemical analyses of shale gas and conventional natural gas. Petroleum Science and Technology 36:20, pages 1690-1695.
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Ayhan Demirbas, Sukru Acar, Bilgehan Yabgu Horasan & Walid M. Alalayah. (2018) Analysis of petroleum coke from low grade oily sludge of refinery. Petroleum Science and Technology 36:12, pages 904-909.
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J.-H. Wang, L.-P. Chang, F. Li & K.-C. Xie. (2010) A Study on the Combustion Properties of Western Chinese Coals. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 32:11, pages 1040-1051.
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A. Demirbas. (2008) Relationships Proximate Analysis Results and Higher Heating Values of Lignites. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 30:20, pages 1876-1883.
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A. Demirbas, K. Dincer & N. Topaloglu. (2008) Determination and Calculation of Combustion Heats of 20 Lignite Samples. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 30:10, pages 917-923.
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Articles from other publishers (6)
Figen Gündüz, Mikail Olam & Hüseyin Karaca. (2023) Direct liquefaction of low rank lignite with peach seed kernel and waste polypropylene for alternative fuel production. Process Safety and Environmental Protection 170, pages 1208-1216.
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T. Agacayak. (2023) Investigation of Combustion Kinetic with Coats–Redfern Method by Using Thermogravimetric Data of Different Lignite Samples. Journal of Mining Science 58:5, pages 776-782.
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Selma Duzyol & Cem Sensogut. (2018) Investigation of the Thermal Improvement and the Kinetic Analysis of the Enriched Coal. Journal of Combustion 2018, pages 1-10.
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Yaying Zhao, Guangbo Zhao, Rui Sun, Hui Liu, Zhuozhi Wang, Lee Sihyun & Ming Kong. (2017) Effect of the COMBDry Dewatering Process on Combustion Reactivity and Oxygen-Containing Functional Groups of Dried Lignite. Energy & Fuels 31:4, pages 4488-4498.
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S. Duzyol & C. Sensogut. (2015) The relation between hydrophobic flocculation and combustion characteristics of coal. Fuel Processing Technology 137, pages 333-338.
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S. L. Niu, C. M. Lu, K. H. Han & J. L. Zhao. (2009) Thermogravimetric analysis of combustion characteristics and kinetic parameters of pulverized coals in oxy-fuel atmosphere. Journal of Thermal Analysis and Calorimetry 98:1, pages 267-274.
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