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Journal of Material Cycles and Waste Management

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04-05-2016 | ORIGINAL ARTICLE

Potentially toxic elements in bottom ash from hazardous waste incinerators: an integrated approach to assess the potential release in relation to solid-phase characteristics

Authors: Tran Thi Thu Dung, Elvira Vassilieva, Asefeh Golreihan, Nguyen Ky Phung, Rudy Swennen, Valérie Cappuyns

Published in: Journal of Material Cycles and Waste Management | Issue 3/2017

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Abstract

Understanding the chemical and mineralogical characteristics of bottom ash (BA) containing Potentially Toxic Elements (PTEs, e.g., As, Cd, Co, Cu, Cr, Mo, Ni, Pb and Zn) is necessary because it provides information to the potential environmental impacts and possible management options. In this study, we used an integrated approach, combining solid phase characterization [by X-ray diffraction (XRD) and Field Emission Gun Electron Probe Micro Analysis (FEG-EPMA)] and leaching tests. XRD analysis for mineralogical characterization was used but turned out not always to allow detecting discrete mineral phases containing PTEs. Therefore, FEG-EPMA, which is less often used for waste characterization, was used to provide information on the elemental associations focusing on some PTE retaining phases. This allowed direct solid phase characterization and investigation of the relationship between discrete and bulk solid-phase characteristics and PTE leaching behavior from BA. Some environmental scenarios related to PTE release were also assessed. Liming can reduce the PTE concentrations in the leachates to a desirable level, but the release of Mo from one of the BA samples would still be of concern. Our results indicated that attention should be paid to the safe disposal of this BA to avoid leaching of Mo and contamination to environment.

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Shih H, Ma H (2011) Assessing the health risk of reuse of bottom ash in road paving. Chemosphere 82:1556–1562CrossRef

Forteza R, Far M, Seguí C, Cerdá V (2004) Characterization of bottom ash in municipal solid waste incinerators for its use in road base. Waste Manage 24:899–909CrossRef

Zhang H, He PJ, Shao LM, Li XJ (2008) Leaching behavior of heavy metals from municipal solid waste incineration bottom ash and its geochemical modeling. J Mater Cycles Waste Manage 10:7–13CrossRef

Bayuseno AP, Schmahl WW (2010) Understanding the chemical and mineralogical properties of the inorganic portion of MSWI bottom ash. Waste Manage 30:1509–1520CrossRef

Huang K, Inoue K, Harada H, Kawakita H, Ohto K (2011) Leaching of heavy metals by citric acid from fly ash generated in municipal waste incineration plants. J Mater Cycles Waste Manage 13:118–126CrossRef

Yao J, Kong Q, Li W, Zhu H, Shen D (2013) Effect of leachate recirculation on the migration of copper and zinc in municipal solid waste and municipal solid waste incineration bottom ash co-disposed landfill. J Mater Cycles Waste Manage 16:775–783CrossRef

Gidarakos E, Petrantonaki M, Anastasiadou K, Schramm KW (2009) Characterization and hazard evaluation of bottom ash produced from incinerated hospital waste. J Hazard Mater 172:935–942CrossRef

Iwata S, Chiba K, Haraguchi H, Fujimori E, Minamoto K (2004) Enrichment of elements in industrial waste incineration bottom ashes obtained from three different types of incinerators, as studied by ICP-AES and ICP-MS. J Mater Cycles Waste Manage 6:73–79CrossRef

Cho JH, Eom Y, Park JM, Lee SB, Hong JH, Lee TG (2013) Mercury leaching characteristics of waste treatment residues generated from various sources in Korea. Waste Manage 33:1675–1681CrossRef

10.

Feng S, Wang X, Wei G, Peng P, Yang Y, Cao Z (2007) Leachates of municipal solid waste incineration bottom ash from Macao: heavy metal concentrations and genotoxicity. Chemosphere 67:1133–1137CrossRef

11.

Nugteren H (2008) Limitations of combustion ashes: ‘From threat to profit’. In: Cox M, Nugteren H, Janssen-Jurkovičvá M (eds), Combustion residues: current, novel and renewable applications. Wiley, England, p 137–198

12.

Wei Y, Shimaoka T, Saffarzadeh A, Takahashi F (2011) Mineralogical characterization of municipal solid waste incineration bottom ash with an emphasis on heavy metal-bearing phases. J Hazard Mater 187:534–543CrossRef

13.

Van Gerven T, Van Keer E, Arickx S, Jaspers M, Wauters G, Vandecasteele C (2005) Carbonation of MSWI-bottom ash to decrease heavy metal leaching, in view of recycling. Waste Manage 25:291–300CrossRef

14.

Dijkstra JJ, Van der Sloot HA, Comans RNJ (2006) The leaching of major and trace elements from MSWI bottom ash as a function of pH and time. Appl Geochem 21:335–351CrossRef

15.

Dijkstra JJ, Van Zomeren A, Meeussen JCL, Comans RNJ (2006) Effect of accelerated aging of MSWI bottom ash on the leaching mechanisms of copper and molybdenum. Environ Sci Tech 40:4481–4487CrossRef

16.

Dijkstra JJ, Meeussen JCL, Van der Sloot HA, Comans RNJ (2008) A consistent geochemical modelling approach for the leaching and reactive transport of major and trace elements in MSWI bottom ash. Appl Geochem 23:1544–1562CrossRef

17.

Turrell J, Lewin K, Van Der Sloot HA (2012) An assessment of the mineralogy of UK municipal waste incinerator bottom ash using geochemical modelling. Report No: UC8564.10. Project No.: 14728–9 for Environmental Services Association, p 42

18.

Meima JA, Comans RNJ (1999) The leaching of trace elements from municipal solid waste incinerator bottom ash at different stages of weathering. Appl Geochem 14:159–171CrossRef

19.

Ministry of National Resource and Environment (MONRE) (2009) QCVN07:2009/BTNMT, Solid waste-National Technical Regulation on Hazardous Waste Thresholds (in Vietnamese)

20.

Ministry of National Resource and Environment (MONRE) (2012) TCVN 9239: 2012, Solid wastes—The toxicity characteristic leaching procedure (in Vietnamese)

21.

Ministry of National Resource and Environment (MONRE) (2007) National Decree No. 59/2007-ND-CP dated April 9, 2007, on solid waste management (in Vietnamese)

22.

Ministry of National Resource and Environment (MONRE) (2011) Circular No. 12/12011/TT-BTNMT of April 14, 2011, stipulating hazardous waste management (in Vietnamese)

23.

Thai NTK (2014) Municipal solid waste management in Vietnam challenges and solutions. In: Pariatamby A, Tanaka M (eds) Municipal solid waste management in Asia and the Pacific Islands. Springer, Singapore, p 355–377CrossRef

24.

Ministry of National Resource and Environment (2011) National report on state of environment—solid waste (in Vietnamese)

25.

Cornelis G, Gerven TV, Vandecasteele C (2012) Antimony leaching from MSWI bottom ash: modelling of the effect of pH and carbonation. Waste Manage 32:278–286CrossRef

26.

Ho HH, Swennen R, Cappuyns V, Vassilieva E, Neyens G, Rajabali M, Tran TV (2013) Geogene Versus Anthropogene Origin of Trace Metals in Sediments in Cua Luc Estuary and Ha Long Bay, Vietnam. Estuar Coasts 36:203–219CrossRef

27.

Nelson DW, Sommers LE (1982) Total carbon, organic carbon, and organic matter. In: Page AL, Miller RH, Keeney DR (eds) Methods of soil analysis. Part 2: chemical and microbiological properties, 2nd edn. American Society of Agronomy, Madison, p 538–580

28.

Barrie E, Cappuyns V, Vassilieva E, Adriaens R, Hollanders S, Garcés D, Paredes C, Pontikes Y, Elsen J, Machiels L (2015) Potential of inorganic polymers (geopolymers) made of halloysite and volcanic glass for the immobilisation of tailings from gold extraction in Ecuador. Appl Clay Sci 109–110:95–106CrossRef

29.

Dung TTT, Golreihan A, Vassilieva E, Phung NK, Cappuyns V, Swennen R (2015) Insights into solid phase characteristics and release of heavy metals and arsenic from industrial sludge via combined chemical, mineralogical and microanalysis. Environ Sci Pollut Res 22:2205–2218CrossRef

30.

Cappuyns V, Alian V, Vassilieva E, Swennen R (2013) pH dependent leaching behavior of Zn, Cd and Pb from slags: kinetics and mineralogical control. Waste Biomass Valori 5:355–368CrossRef

31.

VLAREMA (2012) Besluit van de Vlaamse Regering tot vaststelling van het Vlaams reglementbetreffende het duurzaam beheer van materiaalkringlopen en afvalstoffen, 17 February 2012. http://navigator.emis.vito.be/milnav-consult/. Assessed 13 June 2015

32.

IAWG (1997) Municipal solid waste incinerator residues, Studies in Environmental Science, vol 67. Elsevier, Amsterdam

33.

Liang X, Ning X, Chen G, Lin M, Liu J, Wang Y (2013) Concentrations and speciation of heavy metals in sludge from nine textile dyeing plants. Ecotox Environ Safety 98:128–134CrossRef

34.

Zevenbergeen C, Bradley JP, Van der Wood T, Brown R (1994) Natural weathering of MSWI bottom ash in a disposal environment. Microbeam Anal 3:125–135

35.

Olsson S, van Schaik JWJ, Gustafsson JP, Kleja DB, van Hees PAW (2007) Copper (II) binding to dissolved organic matter fractions in municipal solid waste incinerator bottom ash leachate. Environ Sci Technol 41:4286–4291CrossRef

36.

Arickx S, Van Gerven T, Boydens E, L’Hoëst P, Blanpain B, Vandecasteele C (2008) Speciation of Cu in MSWI bottom ash and its relation to Cu leaching. Appl Geochem 23:3642–3650CrossRef

37.

Buffle J (1988) Complexation reactions in aquatic systems. Ellis Horwood Ltd., Chichester

38.

Milne CJ, Kinniburgh DG, Van Riemsdijk WH, Tipping E (2003) Generic NICA-Donnan model parameters for metal-ion binding by humic substances. Environ Sci Technol 37:958–971CrossRef

39.

Hansen LD, Silberman D, Fisher GL (1981) Crystalline components of stack-collected, size-fractionated coal fly ash. Environ Sci Technol 15:1057–1062CrossRef

40.

Izquierdo M, Querol X (2012) Leaching behaviour of elements from coal combustion fly ash: an overview. Int J Coal Geo 94:54–66CrossRef

41.

Dung TTT (2015) Potentially Toxic Elements (PTEs) in industrial solid waste: solid-phase characterization, leaching behavior and potential contamination of soils and sediments. Dissertation, Katholieke Universiteit Leuven, Belgium

42.

2003/33/EC, Council Decision of 19 December 2002 establishing criteria and procedures for the acceptance of waste at landfills pursuant to Article 16 of and Annex II to Directive 999/31/EC. Official Journal L 011, 16/01/2003, p 27–49

43.

Karlfeldt Fedje K (2012) Metals in MSWI fly ash—problems or opportunities? In: Proceeding of Ash Utilisation 2012: Ash in a Sustainable Society, p 25–27

Title: Potentially toxic elements in bottom ash from hazardous waste incinerators: an integrated approach to assess the potential release in relation to solid-phase characteristics
Authors: Tran Thi Thu Dung
Elvira Vassilieva
Asefeh Golreihan
Nguyen Ky Phung
Rudy Swennen
Valérie Cappuyns
Publication date: 04-05-2016
Publisher: Springer Japan
Published in: Journal of Material Cycles and Waste Management / Issue 3/2017
Print ISSN: 1438-4957
Electronic ISSN: 1611-8227
DOI: https://doi.org/10.1007/s10163-016-0505-0

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