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200 10$aRecycling of building materials $egeneration, processing, utilization /$fAnette Mu?ller and Isabel Martins
210  1$aWiesbaden, Germany :$cSpringer Vieweg,$d[2022]
210  4$dİ2022
215   $a1 online resource (377 pages)
300   $aIncludes index.
311 08$aPrint version: Müller, Anette Recycling of Building Materials Wiesbaden : Springer Fachmedien Wiesbaden GmbH,c2022 9783658346089 
327   $aIntro -- Preface -- Contents -- About the authors -- List of Figures -- List of Tables -- 1 Material Cycles -- 1.1 Examples from the Natural Environment -- 1.2 Developments and Drivers of Recycling -- 1.3 Typification of Material Cycles in the Construction Industry -- 1.4 Material Balance and Anthropogenic Building Material Stock -- References -- 2 Material Flow Management -- 2.1 Basic Terms -- 2.2 Classification of Construction and Demolition Waste -- 2.3 Construction- Specific Key Figures -- 2.3.1 Quantities and Types of Waste Generated During the Construction and Renovation of Structures -- 2.3.2 Quantities and Types of Waste from Demolition and Dismantling -- 2.4 Waste Management Key Figures -- References -- 3 Regulations for the Handling of Construction and Demolition Waste -- 3.1 Legal Requirements -- 3.2 Environmental Regulations -- 3.3 Building Regulations -- References -- 4 Processing of Construction and Demolition Waste -- 4.1 Size Reduction -- 4.1.1 Basic Concepts -- 4.1.2 Performance of Crushers -- 4.1.3 Effects of Comminution -- 4.2 Screening -- 4.2.1 Basic Concepts -- 4.2.2 Types of Screening Machines -- 4.2.3 Selection of the Suitable Screening Machine -- 4.3 Sorting -- 4.3.1 Basic Concepts -- 4.3.2 Dry Sorting Methods -- 4.3.3 Wet Sorting Methods -- 4.3.4 Sorting Methods for Ferrous and Non-Ferrous Metals -- References -- 5 Plants for the Treatment of Construction and Demolition Waste -- 5.1 Overview of System Types -- 5.2 Building Rubble Treatment Plants in Germany -- 5.2.1 Stationary Systems -- 5.2.2 Mobile Systems -- References -- 6 Recycling of Reclaimed Asphalt -- 6.1 Basic Terms -- 6.2 Statistics on Consumption of Primary Material and Waste Generation -- 6.3 Properties of Reclaimed Asphalt -- 6.4 Recycling Technologies -- 6.4.1 Recycling in Place -- 6.4.2 Recycling in Plant.
327   $a6.4.3 Recycling of Materials Containing Tar Pitch -- References -- 7 Recycling of Concrete Rubble -- 7.1 Basic Terms -- 7.2 Developments, Produced Quantities and Existing Stock -- 7.3 Specific Properties of Recyclates and Recycled Concretes -- 7.3.1 Heterogeneity of Recycled Aggregates -- 7.3.2 Reaction Potential of Recycled Aggregates -- 7.3.3 Concretes from Recycled Aggregates as Composites -- 7.4 Properties of Recycled Aggregates of Concrete Rubble -- 7.5 Recovery -- 7.5.1 Utilization in Earthworks -- 7.5.2 Utilization in Road Construction -- 7.5.3 Utilization as Aggregate for the Production of Concrete -- References -- 8 Recycling of Masonry Rubble -- 8.1 Basic Terms -- 8.2 Developments, Produced Quantities and Existing Stock -- 8.3 Features of Masonry Building Materials -- 8.3.1 Typology -- 8.3.2 Properties of Unmixed Components of Masonry Rubble -- 8.4 Properties of Recycled Building Materials from Masonry Rubble -- 8.5 Utilization of the Pure Components of Masonry Rubble -- 8.5.1 Pure Clay Brick Aggregates -- 8.5.2 Pure Aggregates of Calcium Silica Bricks -- 8.5.3 Pure Aggregates of Aerated Autoclaved Concrete -- 8.5.4 Pure Aggregates of Lightweight Concrete -- 8.6 Application of Mixed Masonry Rubble -- References -- 9 Recycling of Other Types of Construction Waste -- 9.1 Track Ballast -- 9.1.1 Characteristics of Primary Material and Waste -- 9.1.2 Recycling Technologies and Products -- 9.2 Gypsum -- 9.2.1 Characteristics of Primary Material and Waste -- 9.2.2 Recycling Technologies and Products -- 9.2.3 Downcycling of Gypsum Waste -- 9.3 Fiber Cement -- 9.3.1 Characteristics of Primary Material and Waste -- 9.3.2 Recycling Technologies and Products -- 9.4 Mineral Wool -- 9.4.1 Characteristics of Primary Material and Waste -- 9.4.2 Recycling Technologies and Products -- 9.5 Glass -- 9.5.1 Characteristics of Primary Material and Waste.
327   $a9.5.2 Recycling Technologies and Products -- References -- 10 Advanced Recycling -- 10.1 Processing -- 10.1.1 Comminution -- 10.1.2 Sorting -- 10.1.3 Plant Concepts -- 10.2 Raw Material Recycling -- References -- Index.
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200 10$aOperational-condition-independent criteria dedicated to monitoring wind turbine generators $epreprint /$fW. Yang, S. Sheng, R. Court
210  1$a[Golden, Colo.] :$cNational Renewable Energy Laboratory,$d2012.
215   $a1 online resource (7 pages) $cillustrations (some color)
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300   $aTitle from title screen (viewed Nov. 8, 2012).
300   $a"August 2012."
300   $a"To be presented at the ASME 2012 International Mechanical Engineering Congress & Exposition, Houston, Texas, November 9-15, 2012."
320   $aIncludes bibliographical references (page 7).
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200 00$aOltre lo sprawl? Ambizioni, successi e problemi irrisolti$eUno studio della gestione del suolo a Portland, Denver e Minneapolis
210   $aMilan$cFrancoAngeli$d2021
215   $a1 online resource (151 p.)
225 1 $aSociologia del territorio
311 08$a88-351-3019-0 
330   $aUrban settlements are critical today, not only in demographic, economic and cultural terms, but also for their environmental impact. A sustainable land management is therefore a fundamental requirement. Urban sprawl has long been described as settlement model that is unsustainable from all the points of view, but its growth has been virtually unchallenged for decades. Many regions have recently become aware of the problem however, and they are trying to tackle this challenge. This book tries to focus on this challenge and it moves from the following research questions: which outcomes have been obtained against sprawl? Which difficulties emerged? Who and why is against these policies? Which are the "unwanted effects" of these policies? The book is focused on the US trends, where the problem emerged first. Portland, Denver and Minneapolis are considered: three metropolitan regions in different parts of the country but with similar dimensions, characteristics and policies. The conditions that made some outcomes possible are highlighted (the ability to network institutions at multiple levels and to foster the participation of local actors in the land management process), as well as some critical issues and unsolved problems (the exponential growth of real estate costs, the opposition of a part of the local community, the persistence of segregation and inequality forms).
517   $aOltre lo sprawl? Ambizioni, successi e problemi irrisolti 
517   $aOltre lo sprawl? 
606   $aHousing & homelessness$2bicssc
606   $aUrban & municipal planning$2bicssc
610   $aHousing affordability
610   $aLand use Management
610   $aUrban Conflicts
610   $aUrban sprawl
610   $aUrban sustainability
610   $aUS city
615  7$aHousing & homelessness
615  7$aUrban & municipal planning
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