Advanced search
Publication Cover
Mineral Processing and Extractive Metallurgy Review
An International Journal
Volume 38, 2017 - Issue 3
Submit an article Journal homepage
399
Views
11
CrossRef citations to date
0
Altmetric
Articles

Metal Recovery from Bottom Ash of an Incineration Plant: Laboratory Reactor Tests

Ismail AgcasuluMineral-Metal Recovery and Recycling (MMR&R) Research Group, Mineral Processing Division, Department of Mining Engineering, Suleyman Demirel University, Isparta, Turkey
&
Ata AkcilMineral-Metal Recovery and Recycling (MMR&R) Research Group, Mineral Processing Division, Department of Mining Engineering, Suleyman Demirel University, Isparta, TurkeyCorrespondence[email protected]
Pages 199-206 | Published online: 13 Apr 2017

References

  • Aarabi-Karasgani, M., Rashchi, F., Mostoufi, N., and Vahidi, E., 2010, “Leaching of vanadium from LD converter slag using sulfuric acid.” Hydrometallurgy, 102(1–4), pp. 14–21.
  • Akcil, A., Vegliò, F., Ferella, F., Okudan, M. D., and Tuncuk, A., 2015, “A review of metal recovery from spent petroleum catalysts and ash.” Waste Management, 45, pp. 420–433.
  • Allegrini, E., Maresca, A., Olsson, M. E., Holtze M. S., Boldrin, A., and Astrup, T. F., 2014, ”Quantification of the resource recovery potential of municipal solid waste incineration bottom ashes.” Waste Management, 34(9), pp. 1627–1636.
  • Bakoglu, M., Karademir, A., and Ayberk, S., 2003, “Partitioning characteristics of targeted heavy metals in IZAYDAS hazardous waste incinerator.” Journal of Hazardous Materials, 99(1), pp. 89–105.
  • Barberio, G., Buttol, P., Masoni, P, Scalbi, S., Andreola, F., Barbieri, L., and Lancellotti, I., 2010, “Use of incinerator bottom ash for frit production.” Journal of Industrial Ecology, 14(2), pp. 200–216.
  • Bawkon, B., 1991, “Incineration technologies for managing solid waste.” Pollution Engineering, 23, pp. 96–102.
  • Belevi, H. and Langmeier, M., 2000, “Factors determining the element behavior in municipal solid waste incinerators. 2. Laboratory experiments.” Environmental Science and Technology, 34(12), pp. 2507–2512.
  • Belevi, H. and Moench, H., 2000, “Factors determining the element behavior in municipal solid waste incinerators. 1. Field studies.” Environmental Science and Technology, 34(12), pp. 2501–2506.
  • Brunner, P. H. and Rechberger, H., 2015, “Waste to energy key element for sustainable waste management.” Waste Management, 37, pp.3–12.
  • Chimenos, J. M., Segarra, M., Fernandez, M. A., and Espiell, F., 1999, “Characterization of the bottom ash in municipal solid waste incinerator.” Journal of Hazardous Materials, 64(3), pp. 211–222.
  • Fedje, K. K., 2010a, “Metals in MSWI Fly Ash—Problems or Opportunities?” [Dissertation], Chalmers University of Technology, Göteborg, pp. 92.
  • Fedje, K. K., Ekberg, C., Skarnemark, G., and Steenari, B. M., 2010b, “Removal of hazardous metals from MSW fly ash–an evaluation of ash leaching methods.” Journal of Hazardous Materials, 173(1–3), pp. 310–317.
  • Gharabaghi, M., Irannajad, M., and Azadmehr, A. R., 2013, “Leaching kinetics of nickel extraction from hazardous waste by sulphuric acid and optimization dissolution conditions.Chemical Engineering Research and Design, 91(2), pp. 325–331.
  • Guine, J. B., 1999, “Evaluation of risks of metal flows and accumulation in economy and environment.” Ecological Economics, 30, pp. 47–65.
  • Han, G. C., Um, N. I., You, K. S., Cho, H. C., and Ahn, J. W., 2007, “Effect of magnetic separation in heavy metals of municipal solid waste incineration bottom ash.” Materials Science Forum, 544-545(1), pp. 557–560.
  • Huang, K., Inoue, K., Harada, H., Kawakita, H., and Ohto, K., 2011, “Leaching of heavy metals by citric acid from fly ash generated in municipal waste incineration plants.” Journal of Material Cycles and Waste Management, 13(2), pp. 118–126.
  • Jha, M., Kumar, V., and Singh, R., 2001, “Review of hydrometallurgical recovery of zinc from industrial wastes.Resources, Conservation and Recycling, 33(1), pp. 1–22.
  • Jung, C. H., Matsuto, T., Tanaka, N., and Okada, T., 2004, “Metal distribution in incineration residues of municipal solid waste (MSW) in Japan.” Waste Management, 24(4), pp. 381–391.
  • Kinoshita, T., Yamaguchi, K., Akita, S., Nii, S., Kawaizumi, F., and Takahashi, K., 2005, “Hydrometallurgical recovery of zinc from ashes of automobile tire wastes.” Chemosphere, 59(8), pp. 1105–1111.
  • Kuboňová, L., Langová, Š., Nowak, B., and Winter, F., 2013, “Thermal and hydrometallurgical recovery methods of heavy metals from municipal solid waste fly ash.” Waste Management, 33(11), pp. 2322–2327.
  • Kuo, N. W., Ma, H. W., Yang, Y. M., Hsiao, T. Y., and Huang, C. M., 2007, “An investigation on the potential of metal recovery from the municipal waste incinerator in Taiwan.” Waste Management, 27(11), pp. 1673–1679.
  • Lam, C. H. K., Ip, A. W. M., Barford, J. P., and McKay, G., 2010, “Use of Incineration MSW Ash: A Review.” Sustainability, 2(7), pp. 1943–1968.
  • Li, J., Gan, J., and Li, X., 2009, “Leaching of aluminum and iron from boiler slag generated from a typical Chinese Steel Plant.” Journal of Hazardous Materials, 166(2–3), pp. 1096–1101.
  • Meawad, A. S., Bojinova, D. Y., and Pelovski, Y. G., 2010, “An overview of metals recovery from thermal power plant solid wastes.” Waste Management, 30(12), pp. 2548–2559.
  • Morf, L. S, Gloor, R., Haag, O., Haupt, M., Skutan, S., Di Lorenzo, F., and Böni, D., 2013, “Precious metals and rare earth elements in municipal solid waste sources and fate in a Swiss incineration plant.” Waste Management, 33(3), pp. 634–644.
  • Parhi, P. K., Park, K. H., and Senanayake, G., 2013, “A kinetic study on hydrochloric acid leaching of nickel from Ni–Al2O3 spent catalyst.” Journal of Industrial and Engineering Chemistry, 19(2), pp. 589–594.
  • Sabbas, T., Polettini, A., Pomi, R., Astrup, T., Hjelmar, O., Mostbauer, P., Cappai, G., Magel, G., Salhofer, S., Speiser, C., Heuss-Assbichler, S., Klein, R., and Lechner, P., 2003, “Management of municipal solid waste incineration residues.” Waste Management, 23, pp. 61–88.
  • Simon, F. G. and Andersson, K. H., 1996, “A new process for recovering materials from solid waste incineration residues.” Energia Elettrica, 73, p. 113.
  • Tang, J. and Steenari B. M., 2016, “Leaching optimization of municipal solid waste incineration ash for resource recovery: A case study of Cu, Zn, Pb and Cd.”, Waste Management, 48, pp. 315–322.
  • Van Gerven, T., Van Keer, E., Arickx, S., Jaspers, M., Wauters, G., and Vandecasteele, C., 2005, “Carbonation of MSWI-bottom ash to decrease heavy metal leaching, in view of recycling.” Waste Management, 25(3), pp. 291–300.
  • Wan, X., Wang, W., Ye, T., Guo, Y., and Gao, X., 2006, “A study on the chemical and mineralogical characterization of MSWI fly ash using a sequential extraction procedure.” Journal of Hazardous Materials, 134(1–3), pp. 197–201.
  • Wiles, C. C., 1996, “Municipal solid waste combustion ash: State of the knowledge,” Journal of Hazardous Materials, 47, pp. 325–344.
  • Yao, J., Li, W. B., Kong, Q., Wu, Y.Y., He, R., and Shen, D., 2010, “Content, mobility and transfer behavior of heavy metals in MSWI bottom ash in Zhejiang province, China.” Fuel, 89(3), pp. 616–622.
  • Zhang, H., He, P. J., Shao, L. M., and Li, X. J., 2008, “Leaching behavior of heavy metals from municipal solid waste incineration bottom ash and its geochemical modeling.” Journal of Material Cycles and Waste Management, 10(1), pp. 7–13.
  • Zhang, X., Yang, K., Tian, X., and Qin, W., 2011, “Vanadium leaching from carbonaceous shale using fluosilicic acid.” International Journal of Mineral Processing, 100(3–4), pp. 184–187.
  • Zhu, Y., Zhang, G., Feng, Q., Lu, Y., Ou, L., Huang, S., 2010, “Acid leaching of vanadium from roasted residue of stone coal.Transactions of Nonferrous Metals Society of China, 20(12), p. 107–111.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.