Top

Clean Technologies and Environmental Policy

Published in:

01-10-2014 | Original Paper

Environmental management of bottom ash from municipal solid waste incineration based on a life cycle assessment approach

Authors: María Margallo, Rubén Aldaco, Ángel Irabien

Published in: Clean Technologies and Environmental Policy | Issue 7/2014

Activate our intelligent search to find suitable subject content or patents.

search-config

AI-assisted search

Off

Abstract

Conventional bottom ash (BA) management consists of a solidification process using inorganic binder reagents, such as cement. However, despite the heavy metal content, the use of BA as a natural aggregate has become increasingly more common. In particular, bottom ash is used as a raw material for clinker, cement mortar or frit production, as a drainage layer in landfills or as a sub-base material in road construction. In this study, the life cycle assessment approach was used to evaluate and compare ash solidification with ash recycling in Portland cement production as a clinker and gypsum substitute. The findings showed that the substitution of ash for clinker resulted in the lowest natural resources (NR) consumption and the lowest environmental burdens (EB). The decrease in the clinker substitution percentage generated a higher NR consumption and an increased EB. In ash recycling, the distance between the incinerator and the cement facility is an important parameter in the decision-making process. Specifically, ash solidification presented less favourable results than ash recycling (with a clinker substitution of 25 %), despite the increasing distance between the incinerator and the cement facility. However, when the clinker substitution decreased to 2.5 % or when ash was substituted for gypsum, the distance played an important role in the water impact.

previous article Process development and catalyst testing under industrial conditions

next article Effective abatement of VOC and CO from acrylic acid and related production waste gas by catalytic oxidation

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

inform now

Abbà A, Collivignarelli MC, Sorlini S, Bruggi M (2014) On the reliability of reusing bottom ash from municipal solid waste incineration as aggregate in concrete. Compos B 58:502–509CrossRef

AEVERSU (2011) Spanish association of MSW valorisation. http://aeversu.org/. Accessed 11 March 2011

Barbeiro G, Buttol P, Masoni P, Scalbi S, Andreola F, Barbieri L, Lancelloti I (2010) Use of incinerator bottom ash for frit production. J Ind Ecol 14(2):200–216CrossRef

Bare JC (2010) Life cycle impact assessment research and developments and needs. Clean Technol Environ Policy 12:341–351CrossRef

BAT (2004) Best available technique (BAT) document on cement manufacturing in Spain. Spanish Environmental Ministry, Madrid

Bertolini L, Carsan M, Cassago D, Curzio A, Collepardi M (2004) MSWI ashes as mineral additions in concrete. Cem Concr Res 34:1899–1906CrossRef

Birgisdóttir H, Pihl KA, Bhander G, Hauschild MZ, Christensen TH (2006) Environmental assessment of roads constructed with and without bottom ash from municipal solid waste incineration. Transp Res D 11:358–368CrossRef

Birgisdóttir H, Bhander G, Hauschild MZ, Christensen TH (2007) Life cycle assessment of disposal of residues from municipal solid waste incineration: recycling of bottom ash in road construction or landfilling in Denmark evaluated in the ROAD-RES model. Waste Manag 27:S75–S84CrossRef

BREF (2010) Reference document on the best available techniques for cement, lime and magnesium oxide manufacturing industries. European Commission, European IPPC Bureau, Seville

De Wind L, Dabo D, Lidelöw S, Badreddine R, Lagerkvist A (2011) MSWI bottom ash used as basement at two pilot-scale roads: comparison of leachate chemistry and reactive transport modeling. Waste Manag 31:267–280CrossRef

Del Valle-Zermeño R, Formosa J, Prieto M, Nadal M, Niubó M, Chimenos JM (2014) Pilot-scale road subbase made with granular material formulated with MSWI bottom ash and stabilized APC fly ash: environmental impact assessment. J Hazard Mater 266:132–140CrossRef

Doka G (2003) Life cycle inventories of waste treatment services. Ecoinvent report no 13. Swiss Centre for Life Cycle Inventories

ECOEMBES (2011) Eco-packaging Spain. http://www.ecoembes.com/ Accessed 11 March 2011

E-PRTR Regulation (2006) Regulation (EC) no. 166/2006 of the European Parliament and of the Council concerning the establishment of a European pollutant release and transfer register and amending Council Directives 91/689/EEC and 96/61/EC

EUROSTAT (2014) Environmental Data Centre on Waste. http://epp.eurostat.ec.europa.eu/ Accessed 13 March 2014

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 Manag 24:899–909CrossRef

Garcia V, Margallo M, Aldaco R, Urtiaga A, Irabien A (2013) Environmental sustainability assessment of an innovative Cr(III) passivation process. ACS Sustain Chem Eng 1:481–487CrossRef

Geng C, Chen D, Sun W, Liu P (2010) Life cycle assessment for roadbase construction using bottom ash from municipal solid waste incineration in Shanghai. In: International conference on E-product E-service and E-entertainment, ICEEE 2010

Huntzinger DN, Eatmon TD (2009) A life-cycle assessment of Portland cement manufacturing: comparing the traditional process with alternative technologies. J Clean Prod 17:668–675CrossRef

IChemE (2002) The sustainability metrics. Institution of Chemical Engineers, Rugby

ISO (2006a) ISO 14040: environmental management: life cycle assessment: principles and framework. ISO, Geneva

ISO (2006b) ISO 14044: environmental management: life cycle assessment: requirements and guidelines. ISO, Geneva

Kuo W-T, Liu C-C, Su D-S (2013) Use of washed municipal solid waste incinerator bottom ash in previous concrete. Cem Concr Res 37:328–335CrossRef

Lam CHK, Barfirf JP, McKay G (2011) Utilization of municipal solid waste incineration ash in Portland cement clinker. Clean Technol Environ Policy 13:607–615CrossRef

Li X-G, Lv Y, Ma B-G, Chen Q-B, Yin X-B, Jian S-W (2012) Utilization of municipal solid waste incineration bottom ash in blended cement. J Clean Prod 32:96–100CrossRef

Margallo M, Aldaco R, Bala A, Fullana P, Irabien A (2012) Best available techniques in municipal solid waste incineration: state of the art in Spain and Portugal. Chem Eng Trans 29:1345–1350

Margallo M, Aldaco R, Irabien A (2013) Life cycle assessment of bottom ash management from municipal solid waste incinerator (MSWI). Chem Eng Trans 35:871–876

Meyer DE, Upadhyayula VKK (2014) The use of life cycle tools to support decision making for sustainable nanotechnologies. Clean Technol Environ Policy 16:757–772

Olsson S, Kärrman E, Gustafsson JP (2006) Environmental systems analysis of the use of bottom ash from incineration of municipal waste for road construction. Resour Conserv Recycl 48:26–40CrossRef

Pan JR, Huand C, Kuo JJ, Lin SH (2008) Recycling of MSWI bottom and fly ash as raw materials for Portland cement. Waste Manag 28:1113–1118CrossRef

Pavlas M, Tous M (2009) Efficiency waste-to-energy system as a contribution to clean technologies. Clean Technol Environ Policy 11:19–29CrossRef

Pavlas M, Tous M, Klimek P, Bébar L (2011) Waste incineration with production of clean and reliable energy. Clean Technol Environ Policy 13:595–605CrossRef

PE International (2011) GaBi 4.4 software and databases for life cycle assessment. Leinfelden-Echterdingen

Pera J, Coutaz L, Ambroise J, Chababbet M (1997) Use of incinerator bottom ash in concrete. Cem Concr Res 27(1):1–5CrossRef

PRTR (2011) Spanish pollutant release and transfer register. http://www.prtr-es.es. Accessed 11 March 2011

Puma S, Marchese F, Dominijanni A, Manassero M (2013) Reuse of MSWI bottom ash mixed with natural sodium bentonite as landfill cover material. Waste Manag Res 31:577–584CrossRef

Rivard-Lentz DJ, Sweeney LR, Demars KR (1997) Incinerator bottom ash as a soil substitute: physical and chemical behaviour. ASTM Spec Tech Publ 1275:246–262

Saika N, Cornelis G, Mertens G, Elsen J, Van Balen K, Van Gerven T, Vandecasteele C (2008) Assessment of Pb-slag, MSWI bottom ash and boiler and fly ash for using as a fine aggregate in cement mortar. J Hazard Mater 154:766–777CrossRef

Shih H, Ma H (2011) Life cycle risk assessment of bottom ash reuse. J Hazard Mater 190:308–316CrossRef

Toller S, Kärrman E, Gustafsson JP, Magnusson Y (2009) Environmental assessment of incinerator residue utilization. Waste Manag 29:2071–2077CrossRef

Toraldo E, Saponaro S, Careghini A, Mariani E (2013) Use of stabilized bottom ash for bound layer road pavements. J Environ Manage 121:117–123CrossRef

Title: Environmental management of bottom ash from municipal solid waste incineration based on a life cycle assessment approach
Authors: María Margallo
Rubén Aldaco
Ángel Irabien
Publication date: 01-10-2014
Publisher: Springer Berlin Heidelberg
Published in: Clean Technologies and Environmental Policy / Issue 7/2014
Print ISSN: 1618-954X
Electronic ISSN: 1618-9558
DOI: https://doi.org/10.1007/s10098-014-0761-4

Springer Professional

Abstract

Please log in to get access to your license.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Other articles of this Issue 7/2014

Energy monitoring of process systems: time-series segmentation-based targeting models

CFD models in the development of electrical waste recycling technologies

Characterisation of CO/NO/SO2 emission and ash-forming elements from the combustion and pyrolysis process

PRES’13: contribution of process integration and intensification to development of clean technologies

Graphical cogeneration analysis for site utility systems

Industrial fire simulation and uncertainty associated with the Emission Dispersion Model