PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Study on the cleanliness of super clean coal prepared by water-only cyclone

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Maintaining clean and pristine nature is the key to the use of super clean coal (SCC) for coal-based materials or energy combustion. Herein, SCC is prepared by a new water-only cyclone method, and compared the surface characteristics with the SCC products obtained by conventional chemical deashing method. The results indicate that: FTIR analysis revealed that the chemical method changed the original functional group of coal; BET analysis revealed that the SCC products prepared by the water-only method maintained the micropore volume of the raw coal and yielded a uniform and concentrated distribution of pore sizes, however, the chemical method destroying the original pore structure in the coal; SEM-EDS analysis indicated that the surface of SCC particles that were deashed using the water-only cyclone method was smooth and neat, whereas those obtained using the chemical method were seriously corroded, had a rough surface, and the SCC particles were prone to acid residues and precipitates. This study opens an innovative, simple, and clean method for the preparation of SCC, which further expands and enhances the potential application value of SCC.
Rocznik
Strony
art. no. 168129
Opis fizyczny
Bibliogr. 32 poz., rys., tab., wykr.
Twórcy
autor
  • College of Mechanical & Electronic Engineering, Shandong University of Science and Technology, Qingdao 266590, China
autor
  • College of Mechanical & Electronic Engineering, Shandong University of Science and Technology, Qingdao 266590, China
autor
  • College of Mechanical & Electronic Engineering, Shandong University of Science and Technology, Qingdao 266590, China
autor
  • College of Mechanical & Electronic Engineering, Shandong University of Science and Technology, Qingdao 266590, China
autor
  • College of Mechanical & Electronic Engineering, Shandong University of Science and Technology, Qingdao 266590, China
autor
  • College of Mechanical & Electronic Engineering, Shandong University of Science and Technology, Qingdao 266590, China
autor
  • College of Mechanical & Electronic Engineering, Shandong University of Science and Technology, Qingdao 266590, China
Bibliografia
  • AMINI, S.H., HONAKER, R., NOBLE, A., 2016. Performance evaluation of a dense-medium cyclone using alternative silica-based media. Powder. Technol. 297, 392-400.
  • BEHERA, S.K., CHAKRABORTY, S. MEIKAP, B., 2018. Demineralization mechanism and influence of parameters on high ash Indian coal by chemical leaching of acid and alkali solution. Int. J. Coal. Sci. Technol. 5(2), 142-155.
  • DASH, P.S., KUMAR, S.S., BANERJEE, P., GANGULY, S., 2013. Chemical leaching of high-ash Indian coals for production of low-ash clean coal. Min. Proc. Ex.t Met. Rev. 34(4), 223-239.
  • DIKICI, A., HACIFAZLIOGLU, H., 2022. Production of super clean coal (SCC) from coal fines with organic reagents. Int. J. Coal. Prep. Util. 42(4), 1033-1039.
  • FAN, P.P., FAN, M.Q., LIU, A., 2015. Using an axial electromagnetic field to improve the separation density of a dense medium cyclone. Miner. Eng. 72, 87-93.
  • GULEN, J., DOYMAZ, I., PISKIN, S., ONGEN, S., 2013. The effects of temperature and mineral acids on the demineralization degree of Nallihan lignite. Energ. Source. Part A. 35(3), 202-208.
  • HACIFAZLIOGLU, H., 2016. The production of ultra-clean coal from Zonguldak bituminous coal by chemical leaching. Energ. Source. Part A. 38(24), 3586-3592.
  • HAO, C., CHU, M., WANG, L., ZHOU, L., 2020. The Effect of Preparation Conditions on Microbubble Flotation Process of Ultra Clean Coal Using Box Behnken Design Model. Chemistry Select. 5(5), 1767-1775.
  • HAO, P., ZHAO, Z., LENG, Y., TIAN, J., SANG, Y., BOUGHTON, R.I., WONG, C., LIU, H., YANG, B., 2015. Graphene-based nitrogen self-doped hierarchical porous carbon aerogels derived from chitosan for high performance supercapacitors. Nano. Energy. 15, 9-23.
  • HE, J., TAN, M., ZHU, R., ZHAO, Y., HONG, P., JIANG, Y., 2016. Density-based separation performance of a secondary air-distribution fluidized bed separator (SADFBS) for producing ultra-low-ash clean coal. Fuel. 172, 178-186.
  • HONG, J., XIAOMIN, W., ZHENGRONG, G., 2013. Hierarchical carbon materials from high ash bio-char of distiller's dried grain with solubles for supercapacitor. Mater. Focus. 2(2), 105-112.
  • LI, B., TAO, D., OU, Z., LIU, J., 2003. Cyclo-microbubble column flotation of fine coal. Sep. Sci. Technol. 38(5), 1125-1140.
  • LI, Y., XIA, W., PENG, Y., XIE, G., 2020. A novel coal tar-based collector for effective flotation cleaning of low rank coal. J. Clean. Prod. 273, 123172.
  • LIU, P., WANG, H., ZHANG, Y., YANG, X., LI, X., JIANG, L., LI, F., 2022. Separation of super clean coal with two-stage cyclones and related characteristics. Int. J. Coal. Prep. Util. 42(12), 3682-3697.
  • LIU, W., ZHANG, J., YANG, T., 2022. Will China's household coal replacement policies payoff: A cost-benefit analysis from an environmental and health perspective. J. Clean. Prod. 357, 131904.
  • MELIKOGLU, M., 2018. Clean coal technologies: A global to local review for Turkey. Energy. Strateg. Rev. 22, 313-319.
  • ONEL, O., TANRIVERDI, M., 2020. Flotation and leaching of hard coals for production of low-ash clean coal. Physicochem. Probl. Mi. 56(3), 528-537.
  • ÖZBAYOǦLU, G., MAMUREKLI, M., 1994. Super-clean coal production from Turkish bituminous coal. Fuel. 73(7), 1221-1223.
  • PYKA, I., WIERZCHOWSKI, K., 2022. Influence of equal settling particles on fine coal separation in water-only cyclones. Int. J. Coal. Prep. Util. 42(3), 410-420.
  • QIN, L., KIRIKKALELI, D., HOU, Y., MIAO, X., TUFAIL, M., 2021. Carbon neutrality target for G7 economies: Examining the role of environmental policy, green innovation and composite risk index. J. Environ. Manage. 295, 113119.
  • RAHMAN, M., PUDASAINEE, D., GUPTA, R., 2017. Review on chemical upgrading of coal: Production processes, potential applications and recent developments. Fuel. Process. Technol. 158, 35-56.
  • RUBIERA, F., ARENILLAS, A., PEVIDA, C., GARCIA, R., PIS, J., STEEL, K., PATRICK, J., 2002. Coal structure and reactivity changes induced by chemical demineralisation. Fuel. Process. Technol. 79(3), 273-279.
  • SRIRAMOJU, S.K., DASH, P.S., SURESH, A., RAY, T., 2021. Integrated process for coal chemical demineralization and spent caustic regeneration-A pilot scale study. J. Clean. Prod. 327, 129497.
  • STEEL, K.M., PATRICK, J.W., 2003. The production of ultra clean coal by sequential leaching with HF followed by HNO3. Fuel. 82(15-17), 1917-1920.
  • STRIZHAK, P.A., VERSHININA, K.Y., 2017. Maximum combustion temperature for coal-water slurry containing petrochemicals. Energy. 120, 34-46.
  • THOMMES, M., KANEKO, K., NEIMARK, A.V., OLIVIER, J.P., RODRIGUEZ-REINOSO, F., ROUQUEROL, J., SING, K.S., 2015. Physisorption of gases, with special reference to the evaluation of surface area and pore size distribution (IUPAC Technical Report). Pure. Appl. Chem. 87(9-10), 1051-1069.
  • WANG, H., LIU, P., YANG, X., ZHANG, Y., LI, X., JIANG, L., 2022. Characterization and numerical simulation on preparation of super-low ash clean coal by two-stage cyclones. Int. J. Coal. Prep. Util. 42(7), 2099-2113.
  • WANG, Y., MEI, F., XUE, S., 2021. Comparative analysis of microstructure evolution and oxidation performance of acid-treated lignite. Fuel. Process. Technol. 215, 106750.
  • WU, P., GUO, F., CAI, B., WANG, C., LV, C., LIU, H., HUANG, J., HUANG, Y., CAO, L., PANG, L., 2021. Co-benefits of peaking carbon dioxide emissions on air quality and health, a case of Guangzhou, China. J. Environ. Manage. 282, 111796.
  • WU, Z., STEEL, K.M., 2007. Demineralization of a UK bituminous coal using HF and ferric ions. Fuel. 86(14), 2194-2200.
  • XIE, L., SUN, G., SU, F., GUO, X., KONG, Q., LI, X., HUANG, X., WAN, L., LI, K., LV, C., 2016. Hierarchical porous carbon microtubes derived from willow catkins for supercapacitor applications. J. Mater. Chem A. 4(5), 1637-1646.
  • XU, Q., LIU, R., YANG, H., 2021. Effect of acid and alkali solutions on micro-components of coal. J. Mol. Liq. 329, 115518.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-89e9a724-0834-468c-9283-0ed777a792f6
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.