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101 0 $aeng
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181   $2rdacontent
182   $2rdamedia
183   $2rdacarrier
200 00$aEnvironmental carbon footprints $eindustrial case studies /$fedited by Subramanian Senthilkannan Muthu
210  1$aKidlington, Oxford, United Kingdom :$cButterworth-Heinemann, an imprint of Elsevier,$d[2018]
210  4$d?2018
215   $a1 online resource (xvi, 453 pages) $cillustrations (some color), maps
225 0 $aGale eBooks
320   $aIncludes bibliographical references at the end of each chapters and index.
327   $aMachine generated contents note:$g1.$tThe Need for Greenhouse Gas Analyses in Industrial Sectors /$rCharles Mbohwa --$g1.1.$tIntroduction --$g1.2.$tDecomposition Method --$g1.3.$tApplications of Logarithmic Mean Divisia Index --$g1.4.$tConclusion --$tReferences --$g2.$tBooming and Stagnation of Spanish Construction Sector Through the Extended Carbon Footprint Concept /$rLuis A. Lopez --$g2.1.$tIntroduction --$g2.2.$tMethodology and Database --$g2.3.$tMain Results --$g2.4.$tConclusions --$tAcknowledgment --$tReferences --$g3.$tThe Environmental Impact of Magnetic Nanoparticles Under the Perspective of Carbon Footprint /$rMaria T. Moreira --$g3.1.$tIntroduction --$g3.2.$tMaterials and Methods --$g3.3.$tEnvironmental Results --$g3.4.$tConclusions --$tAcknowledgments --$tReferences --$g4.$tCarbon Footprint of Municipal Solid Waste Considering Selective Collection of Recyclable Waste /$rGlaydston M. Ribeiro --$g4.1.$tIntroduction --$g4.2.$tLogistic Chain of Recyclable Waste --$g4.3.$tBrazilian Waste Management Outlook --$g4.4.$tCase Study --$g4.5.$tApplied Carbon Footprint Methodology --$g4.6.$tResults and Discussion --$g4.7.$tConclusions --$tAnnex I --$tAnnex II --$tReferences --$g5.$tCarbon Footprint Analysis of Personal Electronic Product -- Induction Cooker /$rKarpagam Subramanian --$g5.1.$tIntroduction --$g5.2.$tMethodology --$g5.3.$tCarbon Footprint Analysis --$g5.4.$tLife Cycle Inventory for Product Carbon Footprint --$g5.5.$tLife Cycle Impact Assessment of Product Carbon Footprint Analysis --$g5.6.$tLife Cycle Interpretation --$g5.7.$tConclusion --$tAppendix --$tAcknowledgments --$tReferences --$tFurther Reading --$g6.$tCarbon Footprint Analysis of a Selected Indian Power Plant /$rDebrupa Chakraborty --$g6.1.$tIntroduction --$g6.2.$tReview of Literature --$g6.3.$tGoals and Objectives --$g6.4.$tResearch Methodology and Data Sources --$g6.5.$tResults and Analysis --$g6.6.$tConclusions --$tAcknowledgments --$tReferences --$tFurther Reading --$g7.$tCarbon Footprint in the Wine Industry /$rSara Rinaldi --$g7.1.$tIntroduction --$g7.2.$tThe Wine Sector Worldwide --$g7.3.$tAvailable Literature and Existing Experiences Regarding Carbon Footprint Calculation --$g7.4.$tCarbon Footprint Methodology in the Wine Industry --$g7.5.$tCase Studies and Results --$g7.6.$tConclusions --$tReferences --$g8.$tCarbon Footprint of Aluminum Production: Emissions and Mitigation /$rMadhoolika Agrawal --$g8.1.$tIntroduction --$g8.2.$tAluminum Production --$g8.3.$tCarbon Footprints --$g8.4.$tSocioeconomic and Ecological Threats --$g8.5.$tMitigation Strategies in Carbon Emissions Reduction --$g8.6.$tConclusions --$tAcknowledgments --$tReferences --$g9.$tCarbon Footprint of Utility Consumption and Cleaning Tasks in Buildings /$rMadelyn Marrero --$g9.1.$tIntroduction --$g9.2.$tSystem Boundaries --$g9.3.$tMethodology --$g9.4.$tCase Study --$g9.5.$tResults --$g9.6.$tConclusions --$tReferences --$g10.$tGreenhouse Gas Emissions From Coal Mining Activities and Their Possible Mitigation Strategies /$rMadhoolika Agrawal --$g10.1.$tIntroduction --$g10.2.$tTypes of Air Pollutants Due to Coal Mining --$g10.3.$tCoal Mining Contribution to Global Warming --$g10.4.$tCarbon Footprint for Coal Mining --$g10.5.$tImportant Greenhouse Gas Inventory Calculations for Coal Mining --$g10.6.$tCase Studies --$g10.7.$tStrategies in Mitigating Carbon Emissions Reduction From Coal Mining --$g10.8.$tConclusion --$tAcknowledgments --$tReferences --$g11.$tLife Cycle Assessment of an Academic Building: A Case Study /$rVarun Goel --$g11.1.$tIntroduction --$g11.2.$tLife Cycle Analysis --$g11.3.$tMethodology --$g11.4.$tCase Study --$g11.5.$tDiscussions --$g11.6.$tConclusions --$tAcknowledgments --$tReferences --$tFurther Reading --$g12.$tThe Role of Demand-Side Management in Carbon Footprint Reduction in Modern Energy Services for Rural Health Clinics /$rTolulope J. Akin-Adeniyi --$g12.1.$tDemand-Side Management --$tAppendices --$tReferences --$g13.$tCarbon Footprint Analysis of Printed Circuit Board /$rKarpagam Subramanian --$g13.1.$tIntroduction --$g13.2.$tMethodology --$g13.3.$tCarbon Footprint Analysis --$g13.4.$tLife Cycle Inventory for Product Carbon Footprint --$g13.5.$tProduct Carbon Footprint Analysis --$g13.6.$tLife Cycle Interpretation --$tAppendix 1 --$tAppendix 2 --$tAppendix 3 --$tAcknowledgments --$tReferences --$tFurther Reading.
330   $aThis book provides industrial carbon footprint case-studies, and includes background information, scientific consensus, methodology, assessment, calculation tools, applications, challenges and limitations.
606   $aGreenhouse gas mitigation
606   $aIndustries$xEnvironmental aspects
606   $aGreenhouse gases$xMeasurement
615  0$aGreenhouse gas mitigation.
615  0$aIndustries$xEnvironmental aspects.
615  0$aGreenhouse gases$xMeasurement.
676   $a551.511
702   $aMuthu$b Subramanian Senthilkannan
801  0$bMiFhGG
801  1$bMiFhGG
906   $aBOOK
912   $a9910583468903321
996   $aEnvironmental carbon footprints$92123159
997   $aUNINA