A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Encouraging Sustainable Transport Choices in American Households: Results from an Empirically Grounded Agent-Based Model
This study was concerned with solidification/stabilisation (S/S) process of municipal solid waste incineration (MSWI) fly-ashes produced in the plant located in Koice (Slovakia) by cementation with a special interest in binding leachable heavy metals. Waste incineration is a commonly used technique for waste processing and disposal connected to production of MSWI fly-ash. Fly-ash is classified as hazardous waste due to high heavy metals content, and very fine particles. Two types of MSWI fly-ashes, collected from the cyclones (assigned as C) and from the filters (assigned as F) of the flue gas cleaning plant, were studied. By the S/S process using Portland cement both the fly-ashes were stabilised and the highest fly-ash:cement ratio to prepare firm stabilised samples were found to be 1:1.45 and 6:1 for the fly-ashes F and C, respectively. These differences were caused by different composition of the fly-ashes that significantly influence the S/S process, especially low chlorides content, and presence of sulphates and quartzin the fly-ash C and highchlorides and sulphides and low quartz content, absence of sulphates, and higher contents of lead and zinc in the fly-ash F. Special interest was paid on Ni, Cr, Cd, Cu, Zn, and Pb leaching from both the non-stabilised and the stabilised MSWI fly-ashes. Ni showed the highest and Zn the lowest leaching ratios for both the non-stabilised MSWI fly-ashes. All the monitored heavy metals leached from both the stabilised MSWI fly-ashes in concentrations below 0.03 mg.l-1. The leachates of both the solidified MSWI fly-ashes showed a significant immobilisation of the heavy metals in the stabilised product with a decrease of the leaching ability by more than 99 %. The stabilised MSWI fly-ashes can bedeposited in landfills for inert waste.
Encouraging Sustainable Transport Choices in American Households: Results from an Empirically Grounded Agent-Based Model
This study was concerned with solidification/stabilisation (S/S) process of municipal solid waste incineration (MSWI) fly-ashes produced in the plant located in Koice (Slovakia) by cementation with a special interest in binding leachable heavy metals. Waste incineration is a commonly used technique for waste processing and disposal connected to production of MSWI fly-ash. Fly-ash is classified as hazardous waste due to high heavy metals content, and very fine particles. Two types of MSWI fly-ashes, collected from the cyclones (assigned as C) and from the filters (assigned as F) of the flue gas cleaning plant, were studied. By the S/S process using Portland cement both the fly-ashes were stabilised and the highest fly-ash:cement ratio to prepare firm stabilised samples were found to be 1:1.45 and 6:1 for the fly-ashes F and C, respectively. These differences were caused by different composition of the fly-ashes that significantly influence the S/S process, especially low chlorides content, and presence of sulphates and quartzin the fly-ash C and highchlorides and sulphides and low quartz content, absence of sulphates, and higher contents of lead and zinc in the fly-ash F. Special interest was paid on Ni, Cr, Cd, Cu, Zn, and Pb leaching from both the non-stabilised and the stabilised MSWI fly-ashes. Ni showed the highest and Zn the lowest leaching ratios for both the non-stabilised MSWI fly-ashes. All the monitored heavy metals leached from both the stabilised MSWI fly-ashes in concentrations below 0.03 mg.l-1. The leachates of both the solidified MSWI fly-ashes showed a significant immobilisation of the heavy metals in the stabilised product with a decrease of the leaching ability by more than 99 %. The stabilised MSWI fly-ashes can bedeposited in landfills for inert waste.
Encouraging Sustainable Transport Choices in American Households: Results from an Empirically Grounded Agent-Based Model
Tomá� Bakalár (author) / Miroslav Zele�ák (author) / Mária Pra�čáková (author)
2013
Article (Journal)
Electronic Resource
Unknown
Metadata by DOAJ is licensed under CC BY-SA 1.0