Filip / Najmanová / Cerník Advanced Nano-Bio Technologies for Water and Soil Treatment
Buch, Englisch, Reihe: Applied Environmental Science and Engineering for a Sustainable Future
657 Seiten, Kartoniert, Book, Format (B × H): 155 mm x 235 mm
1. Auflage 2020,
657 Seiten, Kartoniert, Book, Format (B × H): 155 mm x 235 mm
Reihe: Applied Environmental Science and Engineering for a Sustainable Future
ISBN: 978-3-030-29842-5
Verlag: Springer, Berlin
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Nowadays, a broad range of contaminants are emerging from the industry (and also representing old ecological burdens). Accidents and improper wastewater treatment requires a fast, efficient and cost-effective approach. Therefore, several innovative technologies of water and soil treatments have been invented and suggested in a number of published papers.
Out of these, some nanotechnologies and biotechnologies (and possibly also their mutual combinations) turned out to be promising for practical utilization – i.e., based on both extensive laboratory testing and pilot-scale verification.
With respect to the diverse character of targeted pollutants, the key technologies covered in this book will include oxidation, reduction, sorption and/or biological degradation. In relation to innovative technologies and new emerging pollutants mentioned in this proposed book, an important part will also cover the ecotoxicity of selected pollutants and novel nanomaterials used for remediation.
Thus, this work will consist of 8 sections/chapters with a technical appendix as an important part of the book, where some technical details and standardized protocols will be clearly presented for their possible implementation at different contaminated sites.
Although many previously published papers and books (or book chapters) are devoted to some aspects of nano-/biotechnologies, here we will bring a first complete and comprehensive treatise on the latest progress in innovative technologies with a clear demonstration of the applicability of particular methods based on results of the authors from pilot tests (i.e., based on the data collected within several applied projects, mainly national project “Environmentally friendly nanotechnologies and biotechnologies in water and soil treatment” of the Technology Agency of the Czech Republic, and 7FP project NANOREM: “Taking Nanotechnological Remediation Processes from Lab Scale to End User Applications for the Restoration of a Clean Environment”).
This multidisciplinary book will be suitable for a broad audience including environmental scientists, practitioners, policymakers and toxicologists (and of course graduate students of diverse fields – material science, chemistry, biology, geology, hydrogeology, engineering etc.).
PrefacePart I Reductive Technologies
1 Geochemical Principles of Reductive Remediation Processes
Miroslav Cerník and Josef Zeman
2 Nanoscale Zero-Valent Iron Particles for Water Treatment: from Basic Principles to Field-Scale Applications
Tanapon Phenrat, Petra Skácelová, Eleni Petala, Adriana Velosa and Jan Filip
3 Other Chemical Reductive Methods
Jan Nemecek, Stanislaw Waclawek and Miroslav Cerník
4 Combination of Electrokinetics and nZVI Remediation
Miroslav Cerník, Jaroslav Hrabal and Jaroslav Nosek
5 Field Study I: In Situ Chemical Reduction Using Nanoscale Zero-valent Iron Materials to Degrade Chlorinated Hydrocarbons
Vojtech Stejskal and Nikola Vacková
6 Field Study II: Pilot Application of nZVI/DC-combined Methods at Aargau Site
Vojtech Stejskal, Jaroslav Nosek, Miroslav Cerník, Petr Kvapil and Pierre Matz
Part II Oxidative Technologies
7 Introduction to Oxidative Technologies for Water Treatment
Marta I. Litter
8 Ferrates as Powerful Oxidants in Water Treatment Technologies
Libor Machala, Petr Zajícek, Jan Kolarík, Tomás Mackul'ak and Jan Filip
9 Radical Reactions and Their Application for Water Treatment
Pavel Hrabák and Stanislaw Waclawek
10 Photo-oxidation Technologies for Advanced Water Treatment
Rakesh K. Sharma, Bhavya Arora, Sriparna Dutta and Manoj B. Gawande
11 The Use of Nanomaterials in Electro-Fenton and Photoelectro-Fenton Processes
Ignasi Sirés and Enric Brillas
12 Field Study III: Evidence Gained from Site Studies for the Performance of Ferrate(VI) in Water and Wastewater Treatment
Jia-Qian Jiang
13 Field Study IV: Arsenic Removal from Groundwater by Ferrate with the Concurrent Disinfecting Effect-Semi-pilot on-site Application
Monika Hermánková, Roman Vokác, Jan Slunský and Jan Filip
14 Field Study V: Combined Oxidation Technology using Ferrates (FeIV-VI) and Hydrogen Peroxide for Rapid and Effective Remediation of Contaminated Water-Comprehensive Practically Focused Study
Petr Lacina and Michal Hegedüs
Part III Biotechnologies for Water Treatment
15 Biotechnologies for Water Treatment
Dietmar Schlosser
16 Enzyme-Based Nanomaterials in Bioremediation
Monika Cvancarová, Patrick Shahgaldian and Philippe F.-X. Corvini
17 Bioelectrochemical Processes for the Treatment of Oil-Contaminated Water and Sediments
Matteo Daghio and Andrea Franzetti
18 Field Study VI: The Effect of Loading Strategies on Removal Efficiencies of a Hybrid Constructed Wetland Treating mixed Domestic and Agro-Industrial Wastewaters
Michal Seres, Tereza Hnátková, Petr Marsík, Tomás Vanek, Petr Soudek and Jan Vymazal
19 Field Study VII: Field Study of Three Different Injectable Oxygen Sources to Enhance Mono-Aromatic Solvents in situ Biodegradation
Ondrej Lhotský
20 Field Study VIII: Nano-bioremediation: nZVI for Inorganic and Organic Contamination
Jaroslav Semerad, Martin Pivokonský and Tomas Cajthaml
Part IV Biotechnologies for Soil Treatment
21 Biotechnologies for Soil Treatment
Petra Najmanová and Martin Halecký
22 Mycoremediation of Contaminated Soils
Tatiana Stella
23 Composting Practices for the Remediation of Matrices Contaminated by Recalcitrant Organic Pollutants
Ondrej Lhotský, Stefano Covino and Tomás Cajthaml
24 Modern Bioremediation Approaches: Use of Biosurfactants, Emulsifiers, Enzymes, Biopesticides, GMOs
Martin Halecký and Evguenii Kozliak
25 Field Study IX: Pilot-Scale Composting of PAH-Contaminated Materials-Two Different Approaches
Petra Innemanová and Tomás Cajthaml
26 Field Study X: Oil Waste Processing Using Combination of Physical Pretreatment and Bioremediation
Petra Najmanová and Robert Raschman
Part V Ecotoxicology of Both Environmental Pollutants and Nanomaterials Used for Remediation
27 Ecotoxicology of Environmental Pollutants
Ludek Bláha and Jakub Hofman
28 Ecotoxicity of Nanomaterials Used for Remediation
Claire Coutris, Alena Sevcu and Erik J. Joner
Part VI Future Prospects
29 Future Prospects for Treating Contaminants of Emerging Concern in Water and Soils/Sediments
Carmen Mihaela Neculita, Lucie Coudert, Éric Rosa and Catherine Mulligan
Part VII Technical Chapters
30 Tool I: Characterization of nZVI Mobility in 1D and Cascade Columns by Ferromagnetic Susceptibility Sensor
Petr Parma, Alena Sevcu and Miroslav Cerník
31 Tool II: Membrane Interface Probe
Vladislav Knytl
32 Tool III: Fracturing for Enhanced Delivery of In situ Remediation Substances in Contaminated Sediments
Jan Kukacka and Petr Kvapil
33 Tool IV: Monitoring of nZVI Migration and Fate in the Groundwater Conditions
Petra Skácelová and Jan Filip
34 Tool V: Microbiological Methods for Monitoring nZVI Performance in Groundwater Conditions
Alena Sevcu, Iva Dolinová, Tomás Cajthaml, Jana Steinová and Roman Spánek
Research
Nowadays, a broad range of contaminants are emerging from the industry (and also representing old ecological burdens). Accidents and improper wastewater treatment requires a fast, efficient and cost-effective approach. Therefore, several innovative technologies of water and soil treatments have been invented and suggested in a number of published papers.
Out of these, some nanotechnologies and biotechnologies (and possibly also their mutual combinations) turned out to be promising for practical utilization – i.e., based on both extensive laboratory testing and pilot-scale verification.
With respect to the diverse character of targeted pollutants, the key technologies covered in this book will include oxidation, reduction, sorption and/or biological degradation. In relation to innovative technologies and new emerging pollutants mentioned in this proposed book, an important part will also cover the ecotoxicity of selected pollutants and novel nanomaterials used for remediation.
Thus, this work will consist of 8 sections/chapters with a technical appendix as an important part of the book, where some technical details and standardized protocols will be clearly presented for their possible implementation at different contaminated sites.
Although many previously published papers and books (or book chapters) are devoted to some aspects of nano-/biotechnologies, here we will bring a first complete and comprehensive treatise on the latest progress in innovative technologies with a clear demonstration of the applicability of particular methods based on results of the authors from pilot tests (i.e., based on the data collected within several applied projects, mainly national project “Environmentally friendly nanotechnologies and biotechnologies in water and soil treatment” of the Technology Agency of the Czech Republic, and 7FP project NANOREM: “Taking Nanotechnological Remediation Processes from Lab Scale to End User Applications for the Restoration of a Clean Environment”).
This multidisciplinary book will be suitable for a broad audience including environmental scientists, practitioners, policymakers and toxicologists (and of course graduate students of diverse fields – material science, chemistry, biology, geology, hydrogeology, engineering etc.).
PrefacePart I Reductive Technologies
1 Geochemical Principles of Reductive Remediation Processes
Miroslav Cerník and Josef Zeman
2 Nanoscale Zero-Valent Iron Particles for Water Treatment: from Basic Principles to Field-Scale Applications
Tanapon Phenrat, Petra Skácelová, Eleni Petala, Adriana Velosa and Jan Filip
3 Other Chemical Reductive Methods
Jan Nemecek, Stanislaw Waclawek and Miroslav Cerník
4 Combination of Electrokinetics and nZVI Remediation
Miroslav Cerník, Jaroslav Hrabal and Jaroslav Nosek
5 Field Study I: In Situ Chemical Reduction Using Nanoscale Zero-valent Iron Materials to Degrade Chlorinated Hydrocarbons
Vojtech Stejskal and Nikola Vacková
6 Field Study II: Pilot Application of nZVI/DC-combined Methods at Aargau Site
Vojtech Stejskal, Jaroslav Nosek, Miroslav Cerník, Petr Kvapil and Pierre Matz
Part II Oxidative Technologies
7 Introduction to Oxidative Technologies for Water Treatment
Marta I. Litter
8 Ferrates as Powerful Oxidants in Water Treatment Technologies
Libor Machala, Petr Zajícek, Jan Kolarík, Tomás Mackul'ak and Jan Filip
9 Radical Reactions and Their Application for Water Treatment
Pavel Hrabák and Stanislaw Waclawek
10 Photo-oxidation Technologies for Advanced Water Treatment
Rakesh K. Sharma, Bhavya Arora, Sriparna Dutta and Manoj B. Gawande
11 The Use of Nanomaterials in Electro-Fenton and Photoelectro-Fenton Processes
Ignasi Sirés and Enric Brillas
12 Field Study III: Evidence Gained from Site Studies for the Performance of Ferrate(VI) in Water and Wastewater Treatment
Jia-Qian Jiang
13 Field Study IV: Arsenic Removal from Groundwater by Ferrate with the Concurrent Disinfecting Effect-Semi-pilot on-site Application
Monika Hermánková, Roman Vokác, Jan Slunský and Jan Filip
14 Field Study V: Combined Oxidation Technology using Ferrates (FeIV-VI) and Hydrogen Peroxide for Rapid and Effective Remediation of Contaminated Water-Comprehensive Practically Focused Study
Petr Lacina and Michal Hegedüs
Part III Biotechnologies for Water Treatment
15 Biotechnologies for Water Treatment
Dietmar Schlosser
16 Enzyme-Based Nanomaterials in Bioremediation
Monika Cvancarová, Patrick Shahgaldian and Philippe F.-X. Corvini
17 Bioelectrochemical Processes for the Treatment of Oil-Contaminated Water and Sediments
Matteo Daghio and Andrea Franzetti
18 Field Study VI: The Effect of Loading Strategies on Removal Efficiencies of a Hybrid Constructed Wetland Treating mixed Domestic and Agro-Industrial Wastewaters
Michal Seres, Tereza Hnátková, Petr Marsík, Tomás Vanek, Petr Soudek and Jan Vymazal
19 Field Study VII: Field Study of Three Different Injectable Oxygen Sources to Enhance Mono-Aromatic Solvents in situ Biodegradation
Ondrej Lhotský
20 Field Study VIII: Nano-bioremediation: nZVI for Inorganic and Organic Contamination
Jaroslav Semerad, Martin Pivokonský and Tomas Cajthaml
Part IV Biotechnologies for Soil Treatment
21 Biotechnologies for Soil Treatment
Petra Najmanová and Martin Halecký
22 Mycoremediation of Contaminated Soils
Tatiana Stella
23 Composting Practices for the Remediation of Matrices Contaminated by Recalcitrant Organic Pollutants
Ondrej Lhotský, Stefano Covino and Tomás Cajthaml
24 Modern Bioremediation Approaches: Use of Biosurfactants, Emulsifiers, Enzymes, Biopesticides, GMOs
Martin Halecký and Evguenii Kozliak
25 Field Study IX: Pilot-Scale Composting of PAH-Contaminated Materials-Two Different Approaches
Petra Innemanová and Tomás Cajthaml
26 Field Study X: Oil Waste Processing Using Combination of Physical Pretreatment and Bioremediation
Petra Najmanová and Robert Raschman
Part V Ecotoxicology of Both Environmental Pollutants and Nanomaterials Used for Remediation
27 Ecotoxicology of Environmental Pollutants
Ludek Bláha and Jakub Hofman
28 Ecotoxicity of Nanomaterials Used for Remediation
Claire Coutris, Alena Sevcu and Erik J. Joner
Part VI Future Prospects
29 Future Prospects for Treating Contaminants of Emerging Concern in Water and Soils/Sediments
Carmen Mihaela Neculita, Lucie Coudert, Éric Rosa and Catherine Mulligan
Part VII Technical Chapters
30 Tool I: Characterization of nZVI Mobility in 1D and Cascade Columns by Ferromagnetic Susceptibility Sensor
Petr Parma, Alena Sevcu and Miroslav Cerník
31 Tool II: Membrane Interface Probe
Vladislav Knytl
32 Tool III: Fracturing for Enhanced Delivery of In situ Remediation Substances in Contaminated Sediments
Jan Kukacka and Petr Kvapil
33 Tool IV: Monitoring of nZVI Migration and Fate in the Groundwater Conditions
Petra Skácelová and Jan Filip
34 Tool V: Microbiological Methods for Monitoring nZVI Performance in Groundwater Conditions
Alena Sevcu, Iva Dolinová, Tomás Cajthaml, Jana Steinová and Roman Spánek
Research
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