Geopolymerization as Effective Measure for Reducing Risks during Coal Ashes Handling, Storage and Disposal

Geopolymerization as Effective Measure for Reducing Risks during Coal Ashes Handling, Storage and Disposal

In this paper a research on the synthesis of geopolymers based on coal ashes, with consequent reduction to a consolidated form, was reported with the aim of proposing a procedure to transform potentially dangerous wastes into safe and possibly useful secondary materials (e.g. bricks and boards). Ash...

Full description

Bibliographic Details
Main Authors: F. Miccio, V. Medri, E. Papa, A. Natali Murri, E. Landi
Format: Article
Language:English
Published: AIDIC Servizi S.r.l. 2014-04-01
Series:Chemical Engineering Transactions
Online Access:https://www.cetjournal.it/index.php/cet/article/view/5866
id doaj-87dc4cbcca2840fabd343a968a91f80d
record_format Article
spelling doaj-87dc4cbcca2840fabd343a968a91f80d2021-02-21T21:02:20ZengAIDIC Servizi S.r.l.Chemical Engineering Transactions2283-92162014-04-013610.3303/CET1436023Geopolymerization as Effective Measure for Reducing Risks during Coal Ashes Handling, Storage and DisposalF. MiccioV. MedriE. PapaA. Natali MurriE. LandiIn this paper a research on the synthesis of geopolymers based on coal ashes, with consequent reduction to a consolidated form, was reported with the aim of proposing a procedure to transform potentially dangerous wastes into safe and possibly useful secondary materials (e.g. bricks and boards). Ash from pulverized coal (PC) combustion plant was used in tests of geopolymerization, performed with different ash/alkali compositions. The produced samples were characterized with particular focus on stability in water and leaching behaviour in comparison with raw ashes. The results of the research prove that coal ash can be converted into geopolymers in a rather simple way. The leaching of elements is not dramatically affected by the basic attack, but some controversial findings need further investigation. In general, the geopolymerization increases the safety of ash handling and disposal, thank to higher particle size and lower exposed surface.https://www.cetjournal.it/index.php/cet/article/view/5866
collection DOAJ
language English
format Article
sources DOAJ
author F. Miccio
V. Medri
E. Papa
A. Natali Murri
E. Landi
spellingShingle F. Miccio
V. Medri
E. Papa
A. Natali Murri
E. Landi
Geopolymerization as Effective Measure for Reducing Risks during Coal Ashes Handling, Storage and Disposal
Chemical Engineering Transactions
author_facet F. Miccio
V. Medri
E. Papa
A. Natali Murri
E. Landi
author_sort F. Miccio
title Geopolymerization as Effective Measure for Reducing Risks during Coal Ashes Handling, Storage and Disposal
title_short Geopolymerization as Effective Measure for Reducing Risks during Coal Ashes Handling, Storage and Disposal
title_full Geopolymerization as Effective Measure for Reducing Risks during Coal Ashes Handling, Storage and Disposal
title_fullStr Geopolymerization as Effective Measure for Reducing Risks during Coal Ashes Handling, Storage and Disposal
title_full_unstemmed Geopolymerization as Effective Measure for Reducing Risks during Coal Ashes Handling, Storage and Disposal
title_sort geopolymerization as effective measure for reducing risks during coal ashes handling, storage and disposal
publisher AIDIC Servizi S.r.l.
series Chemical Engineering Transactions
issn 2283-9216
publishDate 2014-04-01
description In this paper a research on the synthesis of geopolymers based on coal ashes, with consequent reduction to a consolidated form, was reported with the aim of proposing a procedure to transform potentially dangerous wastes into safe and possibly useful secondary materials (e.g. bricks and boards). Ash from pulverized coal (PC) combustion plant was used in tests of geopolymerization, performed with different ash/alkali compositions. The produced samples were characterized with particular focus on stability in water and leaching behaviour in comparison with raw ashes. The results of the research prove that coal ash can be converted into geopolymers in a rather simple way. The leaching of elements is not dramatically affected by the basic attack, but some controversial findings need further investigation. In general, the geopolymerization increases the safety of ash handling and disposal, thank to higher particle size and lower exposed surface.
url https://www.cetjournal.it/index.php/cet/article/view/5866
work_keys_str_mv AT fmiccio geopolymerizationaseffectivemeasureforreducingrisksduringcoalasheshandlingstorageanddisposal
AT vmedri geopolymerizationaseffectivemeasureforreducingrisksduringcoalasheshandlingstorageanddisposal
AT epapa geopolymerizationaseffectivemeasureforreducingrisksduringcoalasheshandlingstorageanddisposal
AT anatalimurri geopolymerizationaseffectivemeasureforreducingrisksduringcoalasheshandlingstorageanddisposal
AT elandi geopolymerizationaseffectivemeasureforreducingrisksduringcoalasheshandlingstorageanddisposal
_version_ 1724257486263812096

Similar Items