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Registro Completo |
Biblioteca(s): |
Embrapa Agroenergia. |
Data corrente: |
24/11/2020 |
Data da última atualização: |
24/11/2020 |
Tipo da produção científica: |
Autoria/Organização/Edição de Livros |
Autoria: |
VAZ JUNIOR, S. |
Afiliação: |
SILVIO VAZ JUNIOR, CNPAE. |
Título: |
Treatment of Agroindustrial Biomass Residues: A Sustainable Approach. |
Ano de publicação: |
2020 |
Fonte/Imprenta: |
Gewerbestrasse: Springer, 2020. |
Páginas: |
103 p. |
ISBN: |
978-3-030-58850-2 |
DOI: |
https://doi.org/10.1007/978-3-030-58850-2 |
Idioma: |
Inglês |
Notas: |
E-book. |
Conteúdo: |
1 Introduction, 1.1 Global Biomass Agricultural Production and Availability from Crops and Agrofood Processing Industry, 1.2 Main Types of Plant Biomass for Agroindustrial Processing, 1.3 Biomass as Renewable Feedstock According the UN Sustainable Development Goals, 1.4 Conclusions, References, 2 Basis of Sustainability for Biomass, 2 Basis of Sustainability for Biomass, 2.1 Definition of Sustainability, 2.2 Economic, Social and Environmental Impacts, 2.3 Relationship Between Sustainability Components and Biomass Processing, 2.4 Metrics for Biomass Waste and Residues, 2.5 Life Cycle Assessment, 2.5.1 An Inventory of Agroindustrial Residues, 2.6 Carbon Footprint, 2.7 Conclusions, References, 3 Basis of Environmental Chemistry for Biomass, 3.1 Dynamic of Chemical Elements in the Environment, 3.1.1 Air, 3.1.2 Soil 3.1.3 Water, 3.1.4 Biogeochemical Cycles for Oxygen, Carbon and Nitrogen, 3.2 Dynamics of Organic Matter in the Environment, 3.3 Additional Environmental Issues Related to Biomass, Production and Processing, 3.4 Conclusions, References, 4 An Outlook of Monitoring and Treatment Technologies, 4.1 Polluting Aspects of Biomass from Agricultural Crop Practices and Agrofood Processing Industry, 4.2 Description of Technologies for Monitoring, 4.2.1 Real-Time Monitoring, 4.2.2 Spectroscopic Techniques, 4.2.3 Probes and Sensors, 4.2.4 Process Analytical Chemistry, 4.2.5 Chemical Evaluation of Organic Residues, 4.2.6 Chemical Composition of Some Agroindustrial Wastes and Residues, 4.3 Description of Technologies for Treatment, 4.3.1 Chemical Processes, 4.3.2 Biochemical Processes, 4.3.3 Thermochemical Processes, 4.3.4 Physical Processes, 4.4 Renewable Carbon and Its Relavance, 4.5 Adding Value to Biomass Residues, 4.6 Conclusions, References, 5 Strategies of Treatment, 5.1 Available Technologies and Strategies of Application, 5.1.1 Chemical Processing, 5.1.2 Biochemical Processing, 5.1.3 Thermochemical Processing, 5.1.4 Physical Processing, 5.2 Application of Monitoring Strategies, 5.3 Case Studies, 5.3.1 Treatment of Sugarcane Bagasse by Cogeneration, 5.3.2 Treatment of Pig Slurry by Fermentation to Generate Biogas, 5.4 Conclusions, 5.4.1 Treatment of Black Liquor from Pulp and Paper by Coagulation and Acid Precipitation, 5.5 Conclusions, 5.5.1 Treatment of Wastes from Agriculture and Food by Advanced on-Site Composting, 5.5.2 Treatment of Wood Chips by Pelletizing for Energy, 5.5.3 Treatment of Orange Peels by Means Physicochemical Extraction, 5.6 Conclusions, 5.7 Environmental Management, 5.8 Conclusions, References, 6 General Remarks and Conclusions, 6.1 Remarks, 6.2 Conclusions, References. Menos1 Introduction, 1.1 Global Biomass Agricultural Production and Availability from Crops and Agrofood Processing Industry, 1.2 Main Types of Plant Biomass for Agroindustrial Processing, 1.3 Biomass as Renewable Feedstock According the UN Sustainable Development Goals, 1.4 Conclusions, References, 2 Basis of Sustainability for Biomass, 2 Basis of Sustainability for Biomass, 2.1 Definition of Sustainability, 2.2 Economic, Social and Environmental Impacts, 2.3 Relationship Between Sustainability Components and Biomass Processing, 2.4 Metrics for Biomass Waste and Residues, 2.5 Life Cycle Assessment, 2.5.1 An Inventory of Agroindustrial Residues, 2.6 Carbon Footprint, 2.7 Conclusions, References, 3 Basis of Environmental Chemistry for Biomass, 3.1 Dynamic of Chemical Elements in the Environment, 3.1.1 Air, 3.1.2 Soil 3.1.3 Water, 3.1.4 Biogeochemical Cycles for Oxygen, Carbon and Nitrogen, 3.2 Dynamics of Organic Matter in the Environment, 3.3 Additional Environmental Issues Related to Biomass, Production and Processing, 3.4 Conclusions, References, 4 An Outlook of Monitoring and Treatment Technologies, 4.1 Polluting Aspects of Biomass from Agricultural Crop Practices and Agrofood Processing Industry, 4.2 Description of Technologies for Monitoring, 4.2.1 Real-Time Monitoring, 4.2.2 Spectroscopic Techniques, 4.2.3 Probes and Sensors, 4.2.4 Process Analytical Chemistry, 4.2.5 Chemical Evaluation of Organic Residues, 4.2.6 Chemical Composition of Some Agroindustrial Wastes and Residu... Mostrar Tudo |
Thesagro: |
Agricultura Sustentável; Biomassa; Resíduo Agrícola. |
Thesaurus Nal: |
Agricultural industry; Biomass; Sustainable agriculture. |
Categoria do assunto: |
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Marc: |
LEADER 03312nam a2200229 a 4500 001 2127004 005 2020-11-24 008 2020 bl uuuu 00u1 u #d 020 $a978-3-030-58850-2 024 7 $ahttps://doi.org/10.1007/978-3-030-58850-2$2DOI 100 1 $aVAZ JUNIOR, S. 245 $aTreatment of Agroindustrial Biomass Residues$bA Sustainable Approach.$h[electronic resource] 260 $aGewerbestrasse: Springer$c2020 300 $a103 p. 500 $aE-book. 520 $a1 Introduction, 1.1 Global Biomass Agricultural Production and Availability from Crops and Agrofood Processing Industry, 1.2 Main Types of Plant Biomass for Agroindustrial Processing, 1.3 Biomass as Renewable Feedstock According the UN Sustainable Development Goals, 1.4 Conclusions, References, 2 Basis of Sustainability for Biomass, 2 Basis of Sustainability for Biomass, 2.1 Definition of Sustainability, 2.2 Economic, Social and Environmental Impacts, 2.3 Relationship Between Sustainability Components and Biomass Processing, 2.4 Metrics for Biomass Waste and Residues, 2.5 Life Cycle Assessment, 2.5.1 An Inventory of Agroindustrial Residues, 2.6 Carbon Footprint, 2.7 Conclusions, References, 3 Basis of Environmental Chemistry for Biomass, 3.1 Dynamic of Chemical Elements in the Environment, 3.1.1 Air, 3.1.2 Soil 3.1.3 Water, 3.1.4 Biogeochemical Cycles for Oxygen, Carbon and Nitrogen, 3.2 Dynamics of Organic Matter in the Environment, 3.3 Additional Environmental Issues Related to Biomass, Production and Processing, 3.4 Conclusions, References, 4 An Outlook of Monitoring and Treatment Technologies, 4.1 Polluting Aspects of Biomass from Agricultural Crop Practices and Agrofood Processing Industry, 4.2 Description of Technologies for Monitoring, 4.2.1 Real-Time Monitoring, 4.2.2 Spectroscopic Techniques, 4.2.3 Probes and Sensors, 4.2.4 Process Analytical Chemistry, 4.2.5 Chemical Evaluation of Organic Residues, 4.2.6 Chemical Composition of Some Agroindustrial Wastes and Residues, 4.3 Description of Technologies for Treatment, 4.3.1 Chemical Processes, 4.3.2 Biochemical Processes, 4.3.3 Thermochemical Processes, 4.3.4 Physical Processes, 4.4 Renewable Carbon and Its Relavance, 4.5 Adding Value to Biomass Residues, 4.6 Conclusions, References, 5 Strategies of Treatment, 5.1 Available Technologies and Strategies of Application, 5.1.1 Chemical Processing, 5.1.2 Biochemical Processing, 5.1.3 Thermochemical Processing, 5.1.4 Physical Processing, 5.2 Application of Monitoring Strategies, 5.3 Case Studies, 5.3.1 Treatment of Sugarcane Bagasse by Cogeneration, 5.3.2 Treatment of Pig Slurry by Fermentation to Generate Biogas, 5.4 Conclusions, 5.4.1 Treatment of Black Liquor from Pulp and Paper by Coagulation and Acid Precipitation, 5.5 Conclusions, 5.5.1 Treatment of Wastes from Agriculture and Food by Advanced on-Site Composting, 5.5.2 Treatment of Wood Chips by Pelletizing for Energy, 5.5.3 Treatment of Orange Peels by Means Physicochemical Extraction, 5.6 Conclusions, 5.7 Environmental Management, 5.8 Conclusions, References, 6 General Remarks and Conclusions, 6.1 Remarks, 6.2 Conclusions, References. 650 $aAgricultural industry 650 $aBiomass 650 $aSustainable agriculture 650 $aAgricultura Sustentável 650 $aBiomassa 650 $aResíduo Agrícola
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Registros recuperados : 103 | |
37. | | VAZ JUNIOR, S. Green chemistry and agrochemistry. In: VAZ JUNIOR, S. (Ed.). Sustainable agrochemistry: a compendium of technologies. Switzerland: Springer, 2019. p. 307-319.Tipo: Capítulo em Livro Técnico-Científico |
Biblioteca(s): Embrapa Agroenergia. |
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39. | | VAZ JUNIOR, S. Processos químicos catalíticos. In: VAZ JUNIOR, S. (Ed.). Biomassa para química verde. Brasília, DF: Embrapa Agroenergia, 2013. p. 87-108.Tipo: Capítulo em Livro Técnico-Científico |
Biblioteca(s): Embrapa Agroenergia. |
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Registros recuperados : 103 | |
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