The problem of the  management of sludge resulting from the extraction and processing of ornamental stones is  currently one of the key  issues for the European Union and for Italy.

The European Community, through  Directive 2006/21/EC (Management of waste from extractive industries – Mining waste),  Directive 2008/98/EC (Waste Framework) and  Directive 1999/31/EC (Landfill Waste), has provided guidelines for its member countries on how to handle  wastes, in view of a future sustainable development of the sector, especially as far as  critical raw material (CRM) is concerned.

In this context, an analysis of the procedure applied to extract and cut  two similar Piedmont silicatic stones into slabs and to manage  their sludge  has been carried out.

The ornamental stones taken into consideration are Diorite of Traversella and  Perosa Stone (Dioritic gneiss). The following procedures  were conducted to characterise  the stones:  petrographic analysis, as well as compressive strength, flexural strength, impact resistance and water absorption tests. This characterization is important to help choose the best available technique  to extract and process the stones. The methodologies adopted in two different plants, according to their processed stones, are discussed hereafter. In addition,  UPV and Knoop analyses were performed in order to establish the workability class of the two stones, and  the classification developed in previous research works was applied.

Subsequently, an  analysis was conducted on  the sludge resulting from the extraction and  processing of  blocks used  for the production of slabs.  A chemical analysis, a particle size analysis, a magnetic separation test, to obtain two fractions (metallic and mineral), and an SEM analysis of the two separated fractions were performed on the two sludges.

This characterization was  useful to understand whether  the  produced sludge could  be recovered as by-products. The study will help  stone producers to identify the best techniques for the extraction and processing of their stones, while obtaining less waste and less pollution

Bellopede, R.

Marini, P.

ZICHELLA, LORENA

English

The problem of the management of sludge resulting from the extraction and processing of ornamental stones is currently one of the key issues for the European Union and for Italy. The European Community, through Directive 2006/21/EC (Management of waste from extractive industries - Mining waste), Directive 2008/98/EC (Waste Framework) and Directive 1999/31/EC (Landfill Waste), has provided guidelines for its member countries on how to handle wastes, in view of a future sustainable development of the sector, especially as far as critical raw material (CRM) is concerned. In this context, an analysis of the procedure applied to extract and cut two similar Piedmont silicatic stones into slabs and to manage their sludge has been carried out. The ornamental stones taken into consideration are Diorite of Traversella and Perosa Stone (Dioritic gneiss). The following procedures were conducted to characterise the stones: petrographic analysis, as well as compressive strength, flexural strength, impact resistance and water absorption tests. This characterization is important to help choose the best available technique to extract and process the stones. The methodologies adopted in two different plants, according to their processed stones, are discussed hereafter. In addition, UPV and Knoop analyses were performed in order to establish the workability class of the two stones, and the classification developed in previous research works was applied. Subsequently, an analysis was conducted on the sludge resulting from the extraction and processing of blocks used for the production of slabs. A chemical analysis, a particle size analysis, a magnetic separation test, to obtain two fractions (metallic and mineral), and an SEM analysis of the two separated fractions were performed on the two sludges. This characterization was useful to understand whether the produced sludge could be recovered as by-products. The study will help stone producers to identify the best techniques for the extraction and processing of their stones, while obtaining less waste and less pollution

Zichella, Lorena

Marini, Paola

Bellopede, Rossana

PORTO Publications Open Repository TOrino

Politecnico di TorinoPorto Institutional Repository[Proceeding] Characterization of sludge resulting from the extraction andprocessing of natural stones. focus on a Piedmont caseOriginal Citation:Zichella, Lorena; Marini, P.; Bellopede, R. (2017). Characterization of sludge resulting from theextraction and processing of natural stones. focus on a Piedmont case. In: 5th InternationalConference on Sustainable Solid Waste Management, Athens, 21-24 June 2017 ATHENS2017,Atene, 21-24 giugno 2017.Availability:This version is available at : http://porto.polito.it/2675425/ since: June 2017Publisher:Proceedings online: Unit of Environmental Science & Technology School of Chemical EngineeringNational Technical University of AthensTerms of use:This article is made available under terms and conditions applicable to Open Access Policy Article("Public - All rights reserved") , as described at http://porto.polito.it/terms_and_conditions.htmlPorto, the institutional repository of the Politecnico di Torino, is provided by the University Libraryand the IT-Services. The aim is to enable open access to all the world. Please share with us howthis access benefits you. Your story matters.(Article begins on next page)CHARACTERIZATION OF SLUDGE RESULTING FROM THE EXTRACTION AND PROCESSING OF NATURAL STONES.  FOCUS ON A PIEDMONT CASEZichella L., Bellopede R., Marini P.ATHENS2017 ‐ 5th International Conference on Sustainable Solid Waste Management – 21‐24 June 2017 EUROPEAN LEGISLATION ON ROCKS SAWING WASTE, EUROPEAN PILLARS AND DEFINITIONSEuropean Commission strategies for Raw Material: laying the foundations for a European policy of strategic raw materials production and consequently extraction mining option creating a European Innovation Partnership and the dissemination of new technologies reduction of waste generated and recovery of critical raw material (CRM) decreasing in potential soil contamination prevention of transport of dangerous waste  reduction of energy consumption zero impact on air pollution cost reduction“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.BY‐PRODUCT: substance or object, resulting from a production process, the primary aim of which is not the production of that item. (D.Lgs. 205/2010  implementation of Directive 2008/98/EC). Requirements for the subject or substance:‐ the certainty of its further use,‐ It can be used directly without any additional treatment different from normal industrial practice‐ It is integrated in a production process and it satisfies the requirements for human health and environment protectionEuropean Directive 2006/21/EC: Measures for the management of waste arising from mining activities.These measures should be based on concept of 'best available technique' (Directive 2010/75 /UE) at moment not yet defined.Pillars: Draw up appropriate waste management plans for the prevention or minimization, treatment, recovery and disposal of extractive waste. They must be structured in such a way as to ensure appropriate planning of waste management options in order to minimize the waste generation and its harmfulness, and encouraging waste recovery. Moreover, waste should be characterized with respect to its composition to ensure human and environmental health.“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.The aim of the research is to properly identify the “best available techniques”for extraction and processing of stones in order to obtain less waste and less pollution, in accordance with the European directive. For this purpose, two Piedmont silicatic stones and their sawing sludges have been characterized.PURPOSE OF RESEARCH:MATERIALS:“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.THE PLANTSPEROSA STONEDIORITE STONE“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.ANALYSIS CARRIED OUT:STONES CHARACTERIZATION SLUDGE CHARACTERIZATION• Apparent bulk density• Absorption coefficient• Compressive strenght• Flexural strenght• Impact resistance• Knoop microhardness• UPV – Ultrasound pulsevelocity• Particle size distribution• chemical analysis • leaching test • wet magnetic separation• SEM EDS analysisAll the stones characterization analysis and particle size distribution were performed in accordance with the EN standards, chemical and leaching test on the sludge have been carried out  in accordance to European directives.“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.STONES CHARACTERIZATIONTESTS measurement unitDIORITE TRAVERSELLA PEROSA STONEApparent bulk density (EN 1936:2006)kg/m3 2814 2756Absorption coefficient (EN13755:2007)% 0.36 0.32Compressive strength (EN1926:2006)MPa 215 122Flexural strength (EN 12372:2006)MPa 21.1 29.0Impact resistance (UNI EN 14158:2005)cm 71.3 85.0Trade name of the stoneUPV //m/sUPV m/sKnoop HK25 (EN 14205:2003)Traversella Diorite 2631 2576 3295Perosa Stone 2366 2918 2482“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.STONES CHARACTERIZATIONBased on the research carried out with the European EASE R3 project, reference: ”Diamond‐wire cutting: a methodology to evaluate stone workability” Zichella et. al., 2017. SLUDGE CHARACTERIZATION“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.DIORITEPEROSA STONE020406080100% magnetic and amagnetic fractionDIORITE PEROSA STONE% Magnetic fraction 3,1 5,9% Amagnetic fraction 96,9 94,1MAGNETIC SEPARATIONThe particle size distribution was performed in wet conditions, using two sieves (0.038mm, 0.106mm), in order to obtain three classes. This analysis is necessary to understand which particle size class presents the highest  concentration of metals and to choose the best separation method.Magnetic wet separation was  performed to separate the metallic fraction with magnetic characteristics from the mineral fraction of the sludge. This type of separation allows  those metals to be separated and identified. Their recovery and re‐use is an important aspect for a  circular economy (EU pillars).“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.TRADE NAME OF THE STONECr Fe Co Zn Ni Cu Mo Sn Wmg/kg % mg/kg mg/kg mg/kg mg/kg mg/kg mg/kg mg/kgDIORITE TRAVERSELLA18,21 2,75 26,15 24,82 / 41,89 13,15 8,67 33,23PEROSA STONE 37,75 2,41 26,74 25,04 0,32 38,66 14,36 7,21 24,42TRADE NAME OF THE STONEAl (ppb)V (ppb)Cr (ppb)Mn (ppb)Fe (ppb)Co (ppb)Ni (ppb)Cu (ppb)Zn (ppb)Ga (ppb)As (ppb)Rb (ppb)Sr (ppb)Cd(ppb)Ba (ppb)Pb (ppb)DIORITE TRAVERSELLA89.27 3.12 0.12 17.44 3.28 1.41 0.00 22.47 0.44 2.90 8.28 5.23 102.7 0.00 12.87 0.00PEROSA STONE 122.6 2.51 0.00 29.40 9.33 1.01 0.00 17.96 0.73 1.05 15.47 8.82 46.58 0.00 4.41 0.00SLUDGE CHARACTERIZATIONThe chemical analysis and leaching test were conducted in accordance  with  Italian D.L. 205/2010, which provides two reference tables that show the concentration limits of metals in  sludge. Leaching tests, for the characterization of the eluate, were  carried out in accordance  with Annex 3 of  D.M. 186/2006 “Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.Element Wt% Wt% SigmaC 14.05 0.74O 11.19 0.45Ca 0.68 0.11Fe 6.32 0.28Co 2.74 0.30W 65.02 0.73Total: 100.00Element Wt% Wt% SigmaC 39.66 0.53O 22.60 0.31Al 0.28 0.03Si 1.00 0.04K 0.15 0.03Ca 0.25 0.04Fe 34.97 0.36Cu 0.00 0.00Mo 1.07 0.19Total: 100.00MAGNETIC FRACTIONPerosa Stone magnetic fractionTraversella Stone magnetic fractionOBSERVATION :“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P. Mechanical Characteristics of the stones: Workability                  Traversella Diorite  CLASS 3 Perosa Stone           CLASS 2 (// foliation planes)                                                 CLASS  3 ( foliation planes)Compressive strenght    Traversella Diorite  215 MPaPerosa Stone           122 MPaFlexural strenght            Traversella Diorite   21,1 MPaPerosa Stone           29  MPa Sludge analysis:Wet magnetic separation:     Traversella Stone   3,1 % Magnetic fractionPerosa Stone         5,9 % Magnetic fraction Plants cutting methods:        Traversella Stone       Diamond Wire       Ø = 7mm ÷ 10 mm     Cutting width=11÷12mmPerosa Stone              Diamond Blade      thikness = 10 mm  Cutting width=13mm Interaction between mechanical characteristics of a  stone and the wear of the  tools.CONCLUSIONS“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.Directive 2006/21/EC  defines treatment: "A process or combination of  mechanical, physical, biological, thermal, or chemical processes on  mineral resources, including the exploitation of quarries, the extraction of minerals,  the modification of the mineral size, classification, separation and leaching, and the reprocessing of previously discarded material. However, melting and  thermal processes (which differ according to the  calcination of a limestone) and metallurgical operations are excluded."WET MAGNETIC SEPARATION : Simple and inexpensive separation methodIn order to obtain two byproduct: Magnetic fraction:metalsAmagnetic fraction:mineralsFuture development: possible reuse of the two fractionUNIDIRECTIONAL SYSTEM                                                            CIRCULAR SYSTEMThanks for your attention !!!DIATI ‐ Department of Environment, Land and Infrastructure Engineering     Politecnico di Torino, ItalyWEB SITE.: http://areeweb.polito.it/rawmaterials/index_en.html“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.

Characterization of sludge resulting from the extraction and processing of natural stones. focus on a Piedmont case

The problem of the  management of sludge resulting from the extraction and processing of ornamental stones is  currently one of the key  issues for the European Union and for Italy.
The European Community, through  Directive 2006/21/EC (Management of waste from extractive industries – Mining waste),  Directive 2008/98/EC (Waste Framework) and  Directive 1999/31/EC (Landfill Waste), has provided guidelines for its member countries on how to handle  wastes, in view of a future sustainable development of the sector, especially as far as  critical raw material (CRM) is concerned.
In this context, an analysis of the procedure applied to extract and cut  two similar Piedmont silicatic stones into slabs and to manage  their sludge  has been carried out.
The ornamental stones taken into consideration are Diorite of Traversella and  Perosa Stone (Dioritic gneiss). The following procedures  were conducted to characterise  the stones:  petrographic analysis, as well as compressive strength, flexural strength, impact resistance and water absorption tests. This characterization is important to help choose the best available technique  to extract and process the stones. The methodologies adopted in two different plants, according to their processed stones, are discussed hereafter. In addition,  UPV and Knoop analyses were performed in order to establish the workability class of the two stones, and  the classification developed in previous research works was applied.
Subsequently, an  analysis was conducted on  the sludge resulting from the extraction and  processing of  blocks used  for the production of slabs.  A chemical analysis, a particle size analysis, a magnetic separation test, to obtain two fractions (metallic and mineral), and an SEM analysis of the two separated fractions were performed on the two sludges.
This characterization was  useful to understand whether  the  produced sludge could  be recovered as by-products. The study will help  stone producers to identify the best techniques for the extraction and processing of their stones, while obtaining less waste and less pollution

MARINI, PAOLA

BELLOPEDE, ROSSANA

PORTO@iris (Publications Open Repository TOrino - Politecnico di Torino)

04 August 2020POLITECNICO DI TORINORepository ISTITUZIONALECharacterization of sludge resulting from the extraction and processing of natural stones. focus on a Piedmont case /ZICHELLA, LORENA; Marini, P.; Bellopede, R.. - ELETTRONICO. - SESSION XVI - Waste Valorization & MaterialRecovery III(2017). ((Intervento presentato al convegno 5th International Conference on Sustainable Solid WasteManagement, Athens, 21–24 June 2017 ATHENS2017 tenutosi a Atene nel 21-24 giugno 2017.OriginalCharacterization of sludge resulting from the extraction and processing of natural stones.  focus on aPiedmont casePublisher:PublishedDOI:Terms of use:openAccessPublisher copyright(Article begins on next page)This article is made available under terms and conditions as specified in the  corresponding bibliographic description inthe repositoryAvailability:This version is available at: 11583/2675425 since: 2017-09-27T14:54:16ZProceedings online: Unit of Environmental Science & Technology School of Chemical Engineering NationalCHARACTERIZATION OF SLUDGE RESULTING FROM THE EXTRACTION AND PROCESSING OF NATURAL STONES.  FOCUS ON A PIEDMONT CASEZichella L., Bellopede R., Marini P.ATHENS2017 ‐ 5th International Conference on Sustainable Solid Waste Management – 21‐24 June 2017 EUROPEAN LEGISLATION ON ROCKS SAWING WASTE, EUROPEAN PILLARS AND DEFINITIONSEuropean Commission strategies for Raw Material: laying the foundations for a European policy of strategic raw materials production and consequently extraction mining option creating a European Innovation Partnership and the dissemination of new technologies reduction of waste generated and recovery of critical raw material (CRM) decreasing in potential soil contamination prevention of transport of dangerous waste  reduction of energy consumption zero impact on air pollution cost reduction“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.BY‐PRODUCT: substance or object, resulting from a production process, the primary aim of which is not the production of that item. (D.Lgs. 205/2010  implementation of Directive 2008/98/EC). Requirements for the subject or substance:‐ the certainty of its further use,‐ It can be used directly without any additional treatment different from normal industrial practice‐ It is integrated in a production process and it satisfies the requirements for human health and environment protectionEuropean Directive 2006/21/EC: Measures for the management of waste arising from mining activities.These measures should be based on concept of 'best available technique' (Directive 2010/75 /UE) at moment not yet defined.Pillars: Draw up appropriate waste management plans for the prevention or minimization, treatment, recovery and disposal of extractive waste. They must be structured in such a way as to ensure appropriate planning of waste management options in order to minimize the waste generation and its harmfulness, and encouraging waste recovery. Moreover, waste should be characterized with respect to its composition to ensure human and environmental health.“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.The aim of the research is to properly identify the “best available techniques”for extraction and processing of stones in order to obtain less waste and less pollution, in accordance with the European directive. For this purpose, two Piedmont silicatic stones and their sawing sludges have been characterized.PURPOSE OF RESEARCH:MATERIALS:“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.THE PLANTSPEROSA STONEDIORITE STONE“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.ANALYSIS CARRIED OUT:STONES CHARACTERIZATION SLUDGE CHARACTERIZATION• Apparent bulk density• Absorption coefficient• Compressive strenght• Flexural strenght• Impact resistance• Knoop microhardness• UPV – Ultrasound pulsevelocity• Particle size distribution• chemical analysis • leaching test • wet magnetic separation• SEM EDS analysisAll the stones characterization analysis and particle size distribution were performed in accordance with the EN standards, chemical and leaching test on the sludge have been carried out  in accordance to European directives.“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.STONES CHARACTERIZATIONTESTS measurement unitDIORITE TRAVERSELLA PEROSA STONEApparent bulk density (EN 1936:2006)kg/m3 2814 2756Absorption coefficient (EN13755:2007)% 0.36 0.32Compressive strength (EN1926:2006)MPa 215 122Flexural strength (EN 12372:2006)MPa 21.1 29.0Impact resistance (UNI EN 14158:2005)cm 71.3 85.0Trade name of the stoneUPV //m/sUPV m/sKnoop HK25 (EN 14205:2003)Traversella Diorite 2631 2576 3295Perosa Stone 2366 2918 2482“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.STONES CHARACTERIZATIONBased on the research carried out with the European EASE R3 project, reference: ”Diamond‐wire cutting: a methodology to evaluate stone workability” Zichella et. al., 2017. SLUDGE CHARACTERIZATION“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.DIORITEPEROSA STONE020406080100% magnetic and amagnetic fractionDIORITE PEROSA STONE% Magnetic fraction 3,1 5,9% Amagnetic fraction 96,9 94,1MAGNETIC SEPARATIONThe particle size distribution was performed in wet conditions, using two sieves (0.038mm, 0.106mm), in order to obtain three classes. This analysis is necessary to understand which particle size class presents the highest  concentration of metals and to choose the best separation method.Magnetic wet separation was  performed to separate the metallic fraction with magnetic characteristics from the mineral fraction of the sludge. This type of separation allows  those metals to be separated and identified. Their recovery and re‐use is an important aspect for a  circular economy (EU pillars).“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.TRADE NAME OF THE STONECr Fe Co Zn Ni Cu Mo Sn Wmg/kg % mg/kg mg/kg mg/kg mg/kg mg/kg mg/kg mg/kgDIORITE TRAVERSELLA18,21 2,75 26,15 24,82 / 41,89 13,15 8,67 33,23PEROSA STONE 37,75 2,41 26,74 25,04 0,32 38,66 14,36 7,21 24,42TRADE NAME OF THE STONEAl (ppb)V (ppb)Cr (ppb)Mn (ppb)Fe (ppb)Co (ppb)Ni (ppb)Cu (ppb)Zn (ppb)Ga (ppb)As (ppb)Rb (ppb)Sr (ppb)Cd(ppb)Ba (ppb)Pb (ppb)DIORITE TRAVERSELLA89.27 3.12 0.12 17.44 3.28 1.41 0.00 22.47 0.44 2.90 8.28 5.23 102.7 0.00 12.87 0.00PEROSA STONE 122.6 2.51 0.00 29.40 9.33 1.01 0.00 17.96 0.73 1.05 15.47 8.82 46.58 0.00 4.41 0.00SLUDGE CHARACTERIZATIONThe chemical analysis and leaching test were conducted in accordance  with  Italian D.L. 205/2010, which provides two reference tables that show the concentration limits of metals in  sludge. Leaching tests, for the characterization of the eluate, were  carried out in accordance  with Annex 3 of  D.M. 186/2006 “Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.Element Wt% Wt% SigmaC 14.05 0.74O 11.19 0.45Ca 0.68 0.11Fe 6.32 0.28Co 2.74 0.30W 65.02 0.73Total: 100.00Element Wt% Wt% SigmaC 39.66 0.53O 22.60 0.31Al 0.28 0.03Si 1.00 0.04K 0.15 0.03Ca 0.25 0.04Fe 34.97 0.36Cu 0.00 0.00Mo 1.07 0.19Total: 100.00MAGNETIC FRACTIONPerosa Stone magnetic fractionTraversella Stone magnetic fractionOBSERVATION :“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P. Mechanical Characteristics of the stones: Workability                  Traversella Diorite  CLASS 3 Perosa Stone           CLASS 2 (// foliation planes)                                                 CLASS  3 ( foliation planes)Compressive strenght    Traversella Diorite  215 MPaPerosa Stone           122 MPaFlexural strenght            Traversella Diorite   21,1 MPaPerosa Stone           29  MPa Sludge analysis:Wet magnetic separation:     Traversella Stone   3,1 % Magnetic fractionPerosa Stone         5,9 % Magnetic fraction Plants cutting methods:        Traversella Stone       Diamond Wire       Ø = 7mm ÷ 10 mm     Cutting width=11÷12mmPerosa Stone              Diamond Blade      thikness = 10 mm  Cutting width=13mm Interaction between mechanical characteristics of a  stone and the wear of the  tools.CONCLUSIONS“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.Directive 2006/21/EC  defines treatment: "A process or combination of  mechanical, physical, biological, thermal, or chemical processes on  mineral resources, including the exploitation of quarries, the extraction of minerals,  the modification of the mineral size, classification, separation and leaching, and the reprocessing of previously discarded material. However, melting and  thermal processes (which differ according to the  calcination of a limestone) and metallurgical operations are excluded."WET MAGNETIC SEPARATION : Simple and inexpensive separation methodIn order to obtain two byproduct: Magnetic fraction:metalsAmagnetic fraction:mineralsFuture development: possible reuse of the two fractionUNIDIRECTIONAL SYSTEM                                                            CIRCULAR SYSTEMThanks for your attention !!!DIATI ‐ Department of Environment, Land and Infrastructure Engineering     Politecnico di Torino, ItalyWEB SITE.: http://areeweb.polito.it/rawmaterials/index_en.html“Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case.“ Zichella L., Bellopede R., Marini P.

Characterization of sludge resulting from the extraction and processing of natural stones.  focus on a Piedmont case

https://iris.polito.it/retrieve/handle/11583/2675425/164414/15_30_Athens_2017_PRESENTAZIONE_Zichella.pdf

Characterization of sludge resulting from the extraction and processing of natural stones. focus on a Piedmont case

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