Mass, energy and material balances of SRF production process. Part 2: SRF produced from construction and demolition waste

Mass, energy and material balances of SRF production process. Part 2: SRF produced from construction and demolition waste

•Production of SRF from C&D waste through mechanical treatment.•Mass, energy and material balances of SRF production process.•Recovery of 44% material of the total unsorted C&D waste in the form of SRF.•Recovery of energy in the form of SRF was 74% from unsorted C&D waste.•Composition of...

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Veröffentlicht in:Waste management (Elmsford) 2014-11, Vol.34 (11), p.2163-2170
Hauptverfasser: Nasrullah, Muhammad, Vainikka, Pasi, Hannula, Janne, Hurme, Markku, Kärki, Janne
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Cardboard
Construction and demolition waste
Construction Industry
Construction materials
Construction Materials - analysis
Exact sciences and technology
Finland
Industrial Waste - analysis
Material balance
Mechanical treatment
Other wastes and particular components of wastes
Pollution
Recycling - methods
Sand
Solid recovered fuel
Sorting
Streams
Waste Management - methods
Wastes
Wood
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container_end_page 2170
container_issue 11
container_start_page 2163
container_title Waste management (Elmsford)
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creator Nasrullah, Muhammad
Vainikka, Pasi
Hannula, Janne
Hurme, Markku
Kärki, Janne
description •Production of SRF from C&D waste through mechanical treatment.•Mass, energy and material balances of SRF production process.•Recovery of 44% material of the total unsorted C&D waste in the form of SRF.•Recovery of energy in the form of SRF was 74% from unsorted C&D waste.•Composition of wood in SRF produced from C&D waste was 38wt%. In this work, the fraction of construction and demolition waste (C&D waste) complicated and economically not feasible to sort out for recycling purposes is used to produce solid recovered fuel (SRF) through mechanical treatment (MT). The paper presents the mass, energy and material balances of this SRF production process. All the process streams (input and output) produced in MT waste sorting plant to produce SRF from C&D waste are sampled and treated according to CEN standard methods for SRF. Proximate and ultimate analysis of these streams is performed and their composition is determined. Based on this analysis and composition of process streams their mass, energy and material balances are established for SRF production process. By mass balance means the overall mass flow of input waste material stream in the various output streams and material balances mean the mass flow of components of input waste material stream (such as paper and cardboard, wood, plastic (soft), plastic (hard), textile and rubber) in the various output streams of SRF production process. The results from mass balance of SRF production process showed that of the total input C&D waste material to MT waste sorting plant, 44% was recovered in the form of SRF, 5% as ferrous metal, 1% as non-ferrous metal, and 28% was sorted out as fine fraction, 18% as reject material and 4% as heavy fraction. The energy balance of this SRF production process showed that of the total input energy content of C&D waste material to MT waste sorting plant, 74% was recovered in the form of SRF, 16% belonged to the reject material and rest 10% belonged to the streams of fine fraction and heavy fraction. From the material balances of this process, mass fractions of plastic (soft), paper and cardboard, wood and plastic (hard) recovered in the SRF stream were 84%, 82%, 72% and 68% respectively of their input masses to MT plant. A high mass fraction of plastic (PVC) and rubber material was found in the reject material stream. Streams of heavy fraction and fine fraction mainly contained non-combustible material (such as stone/rock, sand particles and gypsum material).
doi_str_mv 10.1016/j.wasman.2014.06.009
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Part 2: SRF produced from construction and demolition waste</atitle><jtitle>Waste management (Elmsford)</jtitle><addtitle>Waste Manag</addtitle><date>2014-11-01</date><risdate>2014</risdate><volume>34</volume><issue>11</issue><spage>2163</spage><epage>2170</epage><pages>2163-2170</pages><issn>0956-053X</issn><eissn>1879-2456</eissn><abstract><![CDATA[•Production of SRF from C&D waste through mechanical treatment.•Mass, energy and material balances of SRF production process.•Recovery of 44% material of the total unsorted C&D waste in the form of SRF.•Recovery of energy in the form of SRF was 74% from unsorted C&D waste.•Composition of wood in SRF produced from C&D waste was 38wt%. In this work, the fraction of construction and demolition waste (C&D waste) complicated and economically not feasible to sort out for recycling purposes is used to produce solid recovered fuel (SRF) through mechanical treatment (MT). The paper presents the mass, energy and material balances of this SRF production process. All the process streams (input and output) produced in MT waste sorting plant to produce SRF from C&D waste are sampled and treated according to CEN standard methods for SRF. Proximate and ultimate analysis of these streams is performed and their composition is determined. Based on this analysis and composition of process streams their mass, energy and material balances are established for SRF production process. By mass balance means the overall mass flow of input waste material stream in the various output streams and material balances mean the mass flow of components of input waste material stream (such as paper and cardboard, wood, plastic (soft), plastic (hard), textile and rubber) in the various output streams of SRF production process. The results from mass balance of SRF production process showed that of the total input C&D waste material to MT waste sorting plant, 44% was recovered in the form of SRF, 5% as ferrous metal, 1% as non-ferrous metal, and 28% was sorted out as fine fraction, 18% as reject material and 4% as heavy fraction. The energy balance of this SRF production process showed that of the total input energy content of C&D waste material to MT waste sorting plant, 74% was recovered in the form of SRF, 16% belonged to the reject material and rest 10% belonged to the streams of fine fraction and heavy fraction. From the material balances of this process, mass fractions of plastic (soft), paper and cardboard, wood and plastic (hard) recovered in the SRF stream were 84%, 82%, 72% and 68% respectively of their input masses to MT plant. A high mass fraction of plastic (PVC) and rubber material was found in the reject material stream. Streams of heavy fraction and fine fraction mainly contained non-combustible material (such as stone/rock, sand particles and gypsum material).]]></abstract><cop>Kidlington</cop><pub>Elsevier Ltd</pub><pmid>25074716</pmid><doi>10.1016/j.wasman.2014.06.009</doi><tpages>8</tpages><orcidid>https://orcid.org/0000-0003-0449-870X</orcidid></addata></record>
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source MEDLINE; Elsevier ScienceDirect Journals
subjects Applied sciences
Cardboard
Construction and demolition waste
Construction Industry
Construction materials
Construction Materials - analysis
Exact sciences and technology
Finland
Industrial Waste - analysis
Material balance
Mechanical treatment
Other wastes and particular components of wastes
Pollution
Recycling - methods
Sand
Solid recovered fuel
Sorting
Streams
Waste Management - methods
Wastes
Wood
title Mass, energy and material balances of SRF production process. Part 2: SRF produced from construction and demolition waste
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