LEADER 13290nam  22007695  450 
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010   $a3-031-63901-4
024 7 $a10.1007/978-3-031-63901-2
035   $a(MiAaPQ)EBC31612520
035   $a(Au-PeEL)EBL31612520
035   $a(CKB)34227585800041
035   $a(DE-He213)978-3-031-63901-2
035   $a(EXLCZ)9934227585800041
100   $a20240824d2024      u|         0
101 0 $aeng
135   $aurcnu||||||||
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$a2024 the 8th International Conference on Energy and Environmental Science (ICEES 2024) $eICEES 2024 /$fedited by Yanan Liu
205   $a1st ed. 2024.
210  1$aCham :$cSpringer Nature Switzerland :$cImprint: Springer,$d2024.
215   $a1 online resource (1052 pages)
225 1 $aEnvironmental Science and Engineering,$x1863-5539
311 08$a3-031-63900-6 
327   $aIntro -- Organization -- Preface -- Contents -- Part I Environmental Pollution Analysis and Control -- 1 Model of the Trophic State of Lagoons in High Andean Zones of Peru, Applying Remote Sensing and GIS -- 1.1 Introduction -- 1.2 Methodology -- 1.2.1 Study Area -- 1.2.2 Materials -- 1.2.3 Methods -- 1.3 Results and Discussions -- 1.3.1 Modeling -- 1.3.2 Trophic State Maps -- 1.4 Conclusions -- References -- 2 Research on the Characteristics and Influencing Factors of Air Pollution in Coastal Industrial Environment -- 2.1 Introduction -- 2.2 Data and Methods -- 2.2.1 Data Collection -- 2.2.2 Research Ideas and Methods -- 2.3 Results and Discussion -- 2.3.1 Characteristics of Air Quality Changes in Coastal Industrial Environments -- 2.3.2 Performance of Pollutants in Gas Characteristics in Coastal Industrial Environments -- 2.3.3 Correlation Analysis Between Atmospheric Pollution and Meteorological Factors -- 2.3.4 Impact of Industrial Drainage Characteristic Data on Coastal Environment -- 2.3.5 Comparison of the Impact of Industrial Discharge Water-Air-Soil Data on Coastal Environment -- 2.4 Discussion -- References -- 3 A Multi-objective Optimization Method for Hazardous Waste Reverse Logistics Network Management -- 3.1 Introduction -- 3.2 Key Problem Statement -- 3.2.1 HW Categories -- 3.2.2 HW-RLN -- 3.2.3 Promotion of Incineration-Melting Technology -- 3.3 Mathematical Model -- 3.3.1 Assumption -- 3.3.2 Project Objective -- 3.3.3 Constraints -- 3.4 Model Solving -- 3.4.1 Model Solving Approach -- 3.4.2 Case Study -- 3.5 Discussion -- 3.6 Conclusion -- References -- 4 The Removal of Polypropylene Microplastics in Simulated Water Enriched with Organic Substances Through the Electrocoagulation Process -- 4.1 Introduction -- 4.2 Materials and Methods -- 4.2.1 Materials -- 4.2.2 Development of Synthetic Solution for Domestic Wastewater.
327   $a4.2.3 Preparation of Polypropylene (PP) Microplastic Samples -- 4.2.4 Experimental Process for the Removal of Organic-Enriched Polypropylene (PP) Microplastics -- 4.2.5 Determination of Initial and Final Concentrations of Organic-Enriched Polypropylene (PP) Microplastics -- 4.2.6 Assessment of Initial and Final Concentrations of Organic-Enriched Polypropylene (PP) Microplastics -- 4.2.7 Data Analysis and Processing -- 4.3 Results -- 4.3.1 Microplastics Size Analysis -- 4.3.2 Initial and Final Levels of Polypropylene (PP) Microplastics -- 4.3.3 Analysis of the Relationship with Organic Matter -- 4.3.4 Treatment Efficiency in Removal -- 4.3.5 Analysis of Factors Affecting the Efficiency of Polypropylene (PP) Microplastic Removal -- 4.4 Discussions -- 4.5 Conclusion -- References -- 5 Salt Spray Concentration Test and Analysis in Four Major Sea Areas of China -- 5.1 Introduction -- 5.2 Field Test -- 5.2.1 Test Site -- 5.2.2 Salt Spray Collection Method -- 5.2.3 Method for Measuring Ion Concentration of Sample Solution -- 5.2.4 Conversion Method of Atmospheric Salt Spray Concentration -- 5.3 Test Results and Analysis -- 5.3.1 Meteorological Survey Results -- 5.3.2 Salt Spray Concentration Measurement Results -- 5.3.3 Seasonal Differences in Salt Spray Concentration -- 5.3.4 Regional Differences in Salt Spray Concentration -- 5.3.5 The Application Significance -- 5.4 Conclusion -- References -- 6 The Relationship Between the Community Landscape Characteristics and Soil Properties in the Liangucheng National Nature Reserve in Minqin, Gansu -- 6.1 Preface -- 6.1.1 A Subsection Sample -- 6.2 Overview of the Research Area -- 6.3 Research Methods -- 6.3.1 Data Sources -- 6.3.2 Analysis Method of Community Landscape Characteristics -- 6.3.3 Determination of Soil Properties.
327   $a6.3.4 Analysis of Community Landscape Structure and Soil Physical and Chemical Properties -- 6.4 Result Analysis and Discussion -- 6.4.1 Spatial Distribution Characteristics of Vegetation Communities -- 6.4.2 Landscape Fragmentation Analysis -- 6.5 Discussion -- 6.6 Conclusion -- 6.7 Data Availability Statement -- References -- 7 Biobutanol Feedstock Enhancement: Extract Fermentable Sugar from Sugarcane Bagasse via Alkaline Pretreatment and Steam Hydrolysis -- 7.1 Introduction -- 7.2 Materials and Methods -- 7.2.1 Culture Strains, Chemical and Raw Material -- 7.2.2 The Overview of Process -- 7.2.3 Sample Preparation -- 7.2.4 Alkaline Pretreatment -- 7.2.5 Steam Hydrolysis -- 7.2.6 Biobutanol Fermentation -- 7.2.7 Analytical Methods -- 7.3 Result and Discussion -- 7.3.1 Efficiency of Alkaline Pretreatment on SB -- 7.3.2 Efficiency of Steam Hydrolysis on SB -- 7.3.3 Efficiency of Media Types and Culture Strains to Biobutanol Production -- 7.3.4 Economic Assay -- 7.3.5 Conclusion -- References -- 8 Application of Natural Keratin Fiber for the Treatment of Synthetic Water Contaminated with Diesel B5 S-50 -- 8.1 Introduction -- 8.2 Materials and Methods -- 8.2.1 Phases and Uses of Instruments and Equipment -- 8.2.2 Preparation of the Experimental Process -- 8.2.3 Factorial Design 23 -- 8.3 Results -- 8.4 Discussion of Results -- 8.5 Conclusion -- References -- Part II Carbon Emissions, Carbon Sequestration, and Carbon Reduction -- 9 The Choice of Carbon Reduction Policy in the Post-covid-19 Era: A Case Study of Zhejiang Province -- 9.1 Introduction -- 9.2 Scientific Background -- 9.3 Model Construction -- 9.3.1 Production Module -- 9.3.2 Trade Module -- 9.3.3 Energy-Environment Module -- 9.3.4 Market Clearance and Macro Closure Module -- 9.4 Data Sources -- 9.5 Scenario Design -- 9.6 Simulation Results -- 9.6.1 Carbon Tax Rate.
327   $a9.6.2 Total Carbon Emission Structure and Sectoral Structure -- 9.6.3 Energy Mix -- 9.6.4 Real GDP -- 9.6.5 Producer Price Index -- 9.7 Conclusion -- References -- 10 Analysis of Decoupling Between Economic Development and Carbon Emissions in the Textile Industry in Zhejiang Province, China -- 10.1 Introduction -- 10.1.1 A Subsection Sample -- 10.2 Methodology -- 10.2.1 Data Sources -- 10.2.2 Accounting Carbon Emission-Related Indicators by Industry -- 10.2.3 Decomposition of Carbon Emission Factors -- 10.2.4 Decoupling Theory Model -- 10.3 Results and Discussion -- 10.3.1 Carbon Emissions and Related Indicators -- 10.3.2 Decomposition of Carbon Emission Influencing Factors -- 10.3.3 Relationship Between Carbon Emissions and Economic Development -- 10.4 Conclusion -- References -- 11 Carbon Market Transaction Matching Study Based on Carbon Emission Flow Theory -- 11.1 Introduction -- 11.2 Methods -- 11.2.1 Carbon Accounting Methods Based on Carbon Flow -- 11.2.2 Methods of Market Dealmaking -- 11.3 Case Study -- 11.3.1 Case Overview -- 11.3.2 Case Overview -- 11.3.3 Case Overview -- 11.4 Conclusion -- References -- 12 Study on the Optimal Carbon Asset Management of the Typical Enterprise -- 12.1 Introduction -- 12.2 Methodology Overview -- 12.2.1 The Construction of Index System Based on Logical Deduction Method -- 12.2.2 The Determination of Weighting Coefficients by Aid of AHP Method -- 12.2.3 The Integrated Assessment of Carbon Reduction Technologies Based on Weight Summation Method -- 12.3 Case Study -- 12.3.1 The Introduction of Three Enterprises -- 12.3.2 The Description of Carbon Reduction Technology -- 12.3.3 The Optimal Selection of Carbon Reduction Technology -- 12.3.4 The Formulation of Multi-objective Optimization Model for Carbon Asset Management with Coupled Carbon Market Trading and Carbon Reduction Technologies.
327   $a12.3.5 Result Analysis -- 12.4 Conclusion -- References -- 13 Tracking CO2 Emission Intensity for Economic Activity and Residential Life in China's Provincial Regions: Decomposition Analysis Using LMDI -- 13.1 Introduction -- 13.2 Methodology -- 13.2.1 Q-cluster Analysis -- 13.2.2 LMDI Method -- 13.3 Results and Discussion -- 13.3.1 Provincial Clusters -- 13.3.2 Carbon Emission Characteristics of Typical Provinces -- 13.3.3 Carbon Emission Characteristics of Typical Provinces -- 13.4 Conclusions and Policy Recommendations -- 13.4.1 Conclusions -- 13.4.2 Policy Recommendation -- References -- Part III Low Carbon Urban Planning, Landscape Design, and the Related Environmental Effects -- 14 Assessment of Vertical Greening Plants in Cities with Hot Summers and Cold Winters: A Case Study in Chongqing -- 14.1 Introduction -- 14.2 Materials and Methods -- 14.2.1 Methods -- 14.2.2 Data Sources and Processing -- 14.3 Results -- 14.3.1 Index Weighting Analysis -- 14.3.2 Analysis of Comprehensive Plant Evaluation Results -- 14.3.3 Comprehensive Analysis of Vertical Greening Plant Evaluation Results in the Chongqing -- 14.4 Discussion -- 14.4.1 Limitations of Vertical Greening Plant Assessment Models in Regions with Hot Summers and Cold Winters -- 14.4.2 Analysis of Evaluation Indicators for Vertical Greening Plants in Hot Summers and Cold Winters Regions -- 14.4.3 Recommendations -- 14.4.4 Development Trends in Vertical Green Wall Plant Assessment -- 14.5 Conclusion -- References -- 15 Project Design of Sponge City in Industrial Zone: A Case Study of a Concrete Mixing Plant in Chongqing -- 15.1 Introduction -- 15.2 Materials and Methods -- 15.2.1 LID Facility Runoff Control -- 15.2.2 Model Research and Analysis -- 15.3 Results and Discussion of a Case Study -- 15.3.1 Concrete Mixing Plant -- 15.3.2 Site Overview.
327   $a15.3.3 Selection and Placement of LID Facilities.
330   $aThis book dedicates to publish exceptionally important and high-quality, agenda-setting research so as to tackle the key global and societal challenges of ensuring the provision of energy and protecting our environment for the future. The book appeals to chemical scientists, chemical and process engineers, energy researchers, bio-scientists and environmental scientists from across academia, industry and government. The scope is intentionally broad, and the book recognizes the complexity of issues and challenges relating to energy conversion and storage, alternative fuel technologies and environmental science. The main topics of this book include but not limit to (1) alternative energy and the environment, (2) assessments of the condition of ecosystems and environmental quality, (3) behavior of and impacts of pollutants in atmosphere, soil and water, (4) management of ecosystems, environment and water resources, (5) modeling and regional environmental assessments (includes global change), (6) treatment/restoration of ecosystems, environment and water resources, (7) sustainable/renewable energy and(8) energy and built environment. All scales of studies and analysis, from impactful fundamental advances, to interdisciplinary research across the (bio)chemical, (bio/geo)physical sciences and chemical engineering disciplines are welcomed. So, this book is linked to the energy-environment nexus and is of significant general interest to our community-spanning readership.
410  0$aEnvironmental Science and Engineering,$x1863-5539
606   $aPollution
606   $aRenewable energy sources
606   $aPower resources
606   $aEnvironmental monitoring
606   $aEnergy policy
606   $aEnergy policy
606   $aPollution
606   $aRenewable Energy
606   $aNatural Resource and Energy Economics
606   $aEnvironmental Monitoring
606   $aEnergy System Transformation
606   $aEnergy Policy, Economics and Management
615  0$aPollution.
615  0$aRenewable energy sources.
615  0$aPower resources.
615  0$aEnvironmental monitoring.
615  0$aEnergy policy.
615  0$aEnergy policy.
615 14$aPollution.
615 24$aRenewable Energy.
615 24$aNatural Resource and Energy Economics.
615 24$aEnvironmental Monitoring.
615 24$aEnergy System Transformation.
615 24$aEnergy Policy, Economics and Management.
676   $a363.73
700   $aLiu$b Yanan$01439867
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910882898103321
996   $a2024 the 8th International Conference on Energy and Environmental Science (ICEES 2024)$94209763
997   $aUNINA