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Sustainable Solutions for Environmental Pollution, Volume 2. Группа авторов
Читать онлайн.Название Sustainable Solutions for Environmental Pollution, Volume 2
Год выпуска 0
isbn 9781119827641
Автор произведения Группа авторов
Жанр Биология
Издательство John Wiley & Sons Limited
18 Index
20 Wiley End User License Agreement
List of Tables
1 Chapter 1Table 1.1 Advantages and disadvantages of vertical and horizontal subsurface flo...Table 1.2 Interactions between the three nested logics of the aquatic biotope an...
2 Chapter 2Table 2.1 Summary of various researchers studies using microorganisms for the re...Table 2.2 Metal hyperaccumulating plants examples.Table 2.3 Some examples of obvious toxic symptoms induced by metals in plants (V...Table 2.4 List of studies featuring plant growth-promoting bacteria (PGRB) role ...Table 2.5 Enlisted studies of arbuscular mycorrhizal fungi (AMF)/fungi and its r...
3 Chapter 3Table 3.1 Essential factors for microbial bioremediation.Table 3.2 Advantages and disadvantages of bioremediation.
4 Chapter 4Table 4.1 Example of recuperative reactions.Table 4.2 Example of recuperative reactions with membrane.Table 4.3 Some examples of direct coupling.Table 4.4 Classification of membrane reactors.Table 4.5 Summary of the industrial applications of fluidized bed reactors.Table 4.6 Stoichiometric equations, heats of reactions, and reaction rate expres...Table 4.7 Frequency factors and activation energies for reactions considered.Table 4.8 Model equations for coupled catalytic membrane reactor.Table 4.9 The Dehydro and Hydro sides.Table 4.10 The possible roles of membranes in catalysis and some recent examples...
5 Chapter 6Table 6.1 Biosurfactant employed in the degradation of petro-hydrocarbons.Table 6.2 Application of biosurfactants in MEOR process.Table 6.3 Biosurfactant as biocontrol agents against plant pathogens.
6 Chapter 7Table 7.1 Terminologies used in phytotechnology.
7 Chapter 8Table 8.1 List of some parent and alkyl PAH with their structures.Table 8.2 Bacterial species and their genes involved in degradation of PAH.
8 Chapter 9Table 9.1 Biomorphic synthesis of ZnO NPs using different plant source with morp...
9 Chapter 12Table 12.1 CO2 adsorption capacities of activated porous carbons produced from d...
List of Illustrations
1 Chapter 1Figure 1.1 Schematic organization of different microbial metabolic pathways in t...Figure 1.2 The OTHU self-purification device based on a porous wood weir.Figure 1.3 The basic principle of bank filtration.Figure 1.4 (a) Simplified scheme of a Free Surface Flow CW (SFS-CW); (b) Schemat...Figure 1.5 Various processes involved in phytoremediation of contaminants in aqu...Figure 1.6 (a) The 2-ha FSF-CW (Reims, France) in March 2020; (b) the UAV (Spybo...Figure 1.7 Monitoring the Reims FSF-CW with an aquatic drone. (a) Dissolved orga...Figure 1.8 Sentinel-2 True colour images of the St Just–St Nazaire de Pézan CW i...Figure 1.9 Monitoring of vegetation on the St Just–St Nazaire de Pézan CW using ...Figure 1.10 Sentinel-2 satellite view of the Tres Rios (Phoenix, Arizona) FSF-CW...Figure 1.11 Monitoring of Tres Rios fringing marshes using satellite images. =...Figure 1.12 South African National Water Department’s approach to integrated wat...Figure 1.13 Logical nesting between levers (actions on forms, fluxes, and biocen...Figure 1.14 (a) illustration of balance and imbalance nutrient and biodegradatio...Figure 1.15 A pluvial runoff model can help identify which part of the basin is ...
2 Chapter 2Figure 2.2 Sector split of emissions of selected heavy metals (EEA-33) in 2017 (...Figure 2.3 Application of some physico-chemical methods for heavy metal removal ...Figure 2.4 Bioremediation and detoxification processes by plants and microorgani...Figure 2.5 Approach of phytoremediation for cleanup of heavy metals contaminated...Figure 2.6 The main advantages and disadvantages of phytoremediation process.Figure 2.7 Some disorders produced in organisms by the presence of high levels o...Figure 2.8 Effects of heavy metals on plants (Dhalaria et al., 2010). [The figur...Figure 2.9 Short overview about some important aspects of cellular metal interac...Figure 2.10 Uptake, translocation, and accumulation of heavy metal (HM) in plant...Figure 2.11 Bacterial resistance to metal nanoparticles due to the change of exp...
3 Chapter 4Figure 4.1 Annular tubular reactor (recuperative coupling).Figure 4.2 Reactors for coupling of reactions: A-Direct, B-Regenerative, C & D R...Figure 4.3 Schematic of a DCAR—SIMDCAR and SEQDCAR reactors.Figure 4.4 Membrane reactor.Figure 4.5 Overall process for production of fuels by FTS.Figure 4.6 Different types of reactor configurations and their suitable operatin...Figure 4.7 Multi-tubular fixed-bed reactor.Figure 4.8 Multi-tubular reactor (CR).Figure 4.9 Continuous fluidized-bed reactor (CFB).Figure 4.10 Slurry bubble column reactor.Figure 4.11 Slurry bubble column dual-type FTS membrane reactor.Figure 4.12 Fixed-bed cascading with fluidized-bed membrane reactor.Figure 4.13 Fixed-bed membrane and fluidized-bed membrane dual reactor (FMFMDR).Figure 4.14 Thermally coupled membrane dual-type reactor (TCMDR).Figure 4.15 Cascading fluidized-bed membrane dual-type FTS reactor (CFMR).Figure 4.16 Membrane FT reactor.Figure 4.17 Scheme of the integrated membrane fixed-bed catalytic reactor.Figure 4.18 Infinitesimal slice inside catalyst pellets on Dehydro side showing ...Figure 4.19 The principal scheme of the Fischer-Tropsch synthesis using the perm...Figure 4.20 Experimental CO conversion versus contact time for the same Co-Al ca...
4 Chapter 6Figure 6.1 Role of biosurfactants in the environment.Figure 6.2 Critical micelle concentration of biosurfactant and micelle formation...Figure 6.3 Petroleum pollutant degradation by biosurfactants producing bacteria.Figure 6.4 Microbial enhanced oil recovery by using biosurfactants.Figure 6.5 Role of biosurfactants in diverse agricultural activities.Figure 6.6 Heavy metal removal from the soil surface by biosurfactant.
5 Chapter 7Figure 7.1 Metal uptake and accumulation in plants during phytoaccumulation.Figure 7.2 Schematic representation of fate of pollutants during phytovolatiliza...Figure 7.3 Schematic representation of fate of pollutants during phytodegradatio...Figure 7.4 Plant-metal interaction in the process of phytostabilization.Figure 7.5 Present gaps in phytotechnologies.
6 Chapter 9Figure 9.1 Schematic representation of the biogenic synthesis of metal oxide.
7 Chapter 11Figure 11.1 Separation scheme for various feedstocks.
8 Chapter 12Figure 12.1 Representation of recycling of bio-waste and synthesis of porous car...Figure 12.2 Schematic diagram showing the classification of porous materials bas...Figure 12.3 Schematic diagram showing the classification of porous materials bas...Figure 12.4 Main activation methods for synthesis of activated porous carbon fro...Figure 12.5 Schematic diagram showing the different CO2 capture modes.Figure 12.6 The CO2 adsorption isotherms for the developed systems at various ac...Figure 12.7 Selectivity for (a) CO2/N2