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Resource Recovery in Industrial Waste Waters provides a holistic
approach for discovering and harnessing valuable resources from
industrial wastewaters, the cutting-edge technologies required, and
a discussion on the new findings. In three volumes, the books
stress the importance of contaminated waters' remediation,
including surface waters, municipal or industrial wastewaters and
treating these waters as a new source of nutrients, minerals and
energy. It introduces polluted waters as new and sustainable
sources, rather than seeing wastewaters as only a source of
hazardous organic and inorganic matters. Sections discuss
wastewater treatment and recovery and contribute to generate a
sustainable approach of wastewater by providing the main advantages
and disadvantages of both wastewater/polluted water treatment and
recovery.
Resource Recovery in Drinking Water Treatment concentrates on
techniques and methods for water purification. The book develops a
new approach—resource recovery—toward drinking water, including
the role of methods (adsorption, membrane, ion – exchange,
biosorption, coagulation, etc.) and nanocomposites (such as
biochar, sludge-based composites, chitosan, polymer, magnetic
particles, etc.) in water resource recovery. It provides an
in-depth overview on emerging water treatment techniques and the
resource recovery of materials during the treatment process.
Finally, the book aims to introduce polluted waters as new and
sustainable sources rather than seeing wastewaters only a source of
hazardous organic and inorganic matters. This book is part of a
three-volume set that stresses the importance of contaminated water
remediation, including surface waters, municipal or industrial
wastewaters, and waters as a new source of nutrients, minerals and
energy.
Resource Recovery in Municipal Waste Waters provides various
municipal wastewater remediation methods and techniques to recover
materials from such wastewaters. Sections cover the basic
principles of resource recovery, along with the recovery of
methane, phosphorous, electricity and metals. The volume covers
comprehensive cutting-edge techniques for resource recovery and
municipal wastewater treatment and reports on new findings in these
areas. It also introduces polluted waters as new and sustainable
sources rather than seeing wastewaters as a source of hazardous
organic and inorganic matters. The main advantages and
disadvantages of both wastewater/polluted water treatment and
recovery are also discussed. This three-volume set stresses the
importance of contaminated waters remediation, including surface
waters, municipal or industrial wastewaters, treating these waters
as a new source of nutrients, minerals and energy.
Textile industry wastewater contains toxic dyes as well as heavy
metals and many other persistent organic compounds which are
difficult to biodegrade using conventional biological methods.
Advanced Oxidation Processes (AOPs) are one of the best
alternatives for the effective degradation of such compounds. This
Volume 2 starts with homogeneous and heterogeneous Fenton processes
and reviews the application and variables that affect the process.
It then discusses plasma technology- an emerging method in terms of
its chemistry, treatment set-up, limitations, etc. The positive
performance of carbon tetrachloride in process intensification of
dye degradation is presented. The other chapters include topics
such as sonoenzymatic treatment processes, electroflocculation
versus textile wastewater, combination of photocatalysis and
membrane Separation, and enhancement of anaerobic digestion and
photodegradation through adsorption.
The textile industry is among the most significant polluters of
water owing to the existence of various types of pollution streams
generated by printing processes and textile dyeing. The book begins
by documenting various types of Poly (vinyl alcohol) PVA-derived
adsorbents (gels, fibers, films, composite particles), membranes,
and photocatalysts in combination with conventional adsorbents,
polymers, carbonaceous and metallic materials and their use in
elimination of dyes from contaminated water. It follows by
discussing different properties of nanocomposite membranes such as
hydrogels, xerogels and aerogels used in this purpose. Also,
different polymer - based adsorbents such as ceramic adsorbent,
clay, hydrogels, starch, cellulose, chitosan, alginates, etc are
presented in this book.
This book highlights novel materials for dye-containing wastewater
treatment and presents an up-to-date information on dye
degradation/adsorption using new promising materials such as
nanocomposites. Development of various industrial sectors,
including textile, food, paper, leather, rubber, cosmetic and
printing has led to generation of wastewater which contain dye
molecules as well as other inorganic and organic compounds.
Considering serious health hazards and environmental damage
associated with dyes in the environment, researchers and
professionals have been attempting to find the most effective
methods of treatment. Of late, various composites have received
wide attention due to their outstanding properties in wastewater
treatment, that are presented in this book.
In this second volume, various materials such as Magnetic-based
biocomposites, wheat bran/straw-based biomaterials, peel-based
biomaterials, luffa Based Biomaterials, composite polymeric
membranes, rice husk, hydroxyapatite etc for treating textile waste
water are highlighted. One of the major pollutants in the textiles
and fashion sector is textile waste water. Textile wastewater can
lead to serious environmental issues if discharged without proper
and sufficient treatment. The materials employed along with the
technologies available to trate the waste water are the key. There
are a lot of advancements in terms materials, technologies employed
for textile waste water treatment. Sustainable bio-nano materials
and macro molecules play a major role in the efficient textile
waste treatment.
The book presents a sequential approach for the treatment of dye
wastewater, presenting state-of-the-art techniques based on recent
findings. The release of these dyes into the environment is a major
threat due to their toxicity, mutagenicity and carcinogenicity and
their biotransformation products. It has been at least two decades
since researchers have been trying to find interactions between dye
molecules and water media, and find new purification methods. This
book plays an important role in this field by highlighting the
cutting edge results in dye removal and remediation, and discusses
in detail the application of various physical, chemical, and
biological techniques for the removal of pollutants from water.
The textile industry segment has been continuously expanding and it
is reported that the global market was US$1000 billion in 2020.
Aside from the fact that textile industry could be profitable and
offers several advantages for human life, this industry produces
wastewater containing many harmful substances in the form of
organic and inorganic moieties. Textile wastewater can lead to
serious environmental problems if discharged without treatment. In
this first volume of the application of biological mechanisms,
processes and units are reviewed in terms of dye degradation and
removal. The role of biodegradation, bioaccumulation and
biosorption in bio-decolorization are discussed. The book starts
with highlighting the fundamentals of aerobic and anaerobic
mechanisms having different configurations. The moving bed
bioreactor (MBBR), up-flow anaerobic sludge blanket reactors,
sequential aerobic/anaerobic batch reactors, membrane bioreactor,
etc are also covered in this edition.
This book highlights one of the most important water pollutants
known as Microplastics. It has been reported that humans and the
environment are dealing with microplastics particles in water and
aquatic media. Despite the fact that such pollution might have
mainly started out from the sea, it is now in lakes, rivers, ponds
and even drinking water. This book presents as overview of
microplastics in freshwater environments in different regions
around the world. It discusses the ecotoxicological effects of
microplastics, the removal/remediation techniques of microplastics
and the role of water/wastewater treatment plants in spreading
microplastics. This book is a valuable resource, covering wide
aspects of microplastics from sources, detection and
characterization to removal and their fate in treatment plants.
In this first volume, various materials such as chitosan,
lignin-based biomaterials, cellulosic based bio materials, carbon
materials, Polysaccharide-composites materials, Aromatic-Based
Synthetic Macromolecules, Agricultural wastes, etc for treating
textile waste water are highlighted. One of the major pollutants in
the textile and fashion industry is (textile) waste water. Textile
wastewater can lead to serious environmental issues if discharged
without proper and sufficient treatment. The materials employed
along with the technologies available to trate waste water are the
key. There are a lot of advancements in terms materials,
technologies employed for textile waste water treatment.
Sustainable bio-nano materials and macro molecules play a major
role in the efficient treatment of textile waster.
An enormous amount of synthetic dyes is used annually in the
textile, leather, plastics, paper, and dye industries due to their
coloring properties. Although dyes give color to materials, they
are prone to increase the level of pollution in the environment.
The colored wastewater produced in industrial sectors is released
into water bodies, posing threats to the ecosystem. To reduce the
adverse effects of dyes in the environment, it is necessary to
implement feasible and cost-effective strategies. '"Dye
Biodegradation Mechanisms and Techniques - Recent Advances''
provides fundamental principles and pathways of bio-based
mechanisms in dye removal. This edition firstly discusses dye
classification and pollution, then concentrates on the application
of fungi, mesophilic bacteria, microflora, and enzymes in dye
degradation. This book also highlights the performance of
sequential batch reactor systems, moving bed biofilm reactors, and
hybrid bioreactors for dye biodegradation
This Volume 2 contains essential contributions highlighting the use
of biotechnology in dye removal. It begins with an overview of
activated sludge process for dye removal along with its limitation
is carried out and describes the fundamental concepts of
dye-containing textile wastewater treatments, particularly
microbial and enzymatic approaches, including the most usual
textile wastewater treatments and their trends. It discusses the
role microbial biofilms play when employed in the integrated
treatment system for effective detoxification, degradation and
complete mineralization of pollutants in dye waste effluents. It
assesses the most recent advances in the biotransformation of
synthetic dyes from wastewater, especially anthraquinone-typed
dyes. Phycoremediation as an emerging and efficient technology in
dye removal, remediation strategies used by microalgae, and the
role of fungi in the dye removal are presented.
This second volume on ''Inorganic-Organic Composites for Water and
Wastewater Treatment'' reviews research findings on advanced
materials and methods for purification. Considering the fact that
new emerging pollutants are released into the environment and water
bodies, it is necessary to develop more advanced techniques in
order to treat them. The utilization of metal - organic framework
in view of applications, synthesis, properties like adsorption,
characterization of the electronic and geometric aspects, and
hybrid systems is reiewed in this book, and the
advantages/disadvantages, shortcomings including future prospects
associated with metal-based nanoparticles and nanocomposites for
water decontamination are discussed. In addition, the use of carbon
quantum dots, supramolecular ion-exchange resins, multifunctional
composite aerogels, algal biomass valorization and
titania-containing composites in treatment processes are also
presented.
This book highlights recent findings of membrane - based dye
removal methods along with the application of photocatalytic,
nanofiltration and ultrafiltration membrane including membrane -
based fibers, metal-organic frameworks, polyethersulfone, ceramic,
etc. Among water and wastewater pollutants, dyes have been normally
observed and detected in various aquatic solutions, including
rivers and lakes. Aesthetic pollution, toxicity, persistent, and
carcinogenicity are some of the adverse effects of dyes entering
the ecosystem. Although dyes have brought a colourful world, their
presence in the environment are responsible for adverse effects on
the planet. Diverse physical, chemical and biological methods are
available to treat dye contaminated water. This book presents
membrane separation technology that has been developed in the past
decade to treat different wastewaters, and owning to its effective
performance, has garnered the attention of academia and industry
alike.
Dyes are versatile compounds that have been successfully used in
textile printing, rubber, cosmetics, plastic, pharmaceutical, and
leather industries to color the products. Dye-using industries,
particularly textile or printing industries are responsible for the
generation of a great amount of colored wastewater that are
polluting and threatening the environment. Many of these dyes are
carcinogenic, mutagenic, and teratogenic, as well as harmful to
human, aquatic life, and other living things and their elimination
from wastewater is highly essential. Various approaches have been
implemented in the efforts to mitigate the issue related to textile
wastewater, such as adsorption, biological processes, advanced
oxidation processes, membrane technology, etc. In this Volume 1,
the application of various types of polymers in different
wastewater treatment technologies are presented. The synthesis
procedure of some polymers, the polymer modification, the effect of
operational parameters on polymer efficiency, the interactions
between polymers - dyes, etc are discussed.
Among various industries releasing wastewater into the environment,
printing, dyeing and textile industries are of great importance as
they frequently contain high amounts of colorful compounds having
high chemical and biological oxygen demands. Health related effects
of colorants are extensively reported; which necessitates the
seriousness of dye removal from water and wastewater. The
utilization of advanced oxidation processes (AOPs) in dye
degradation has gained considerable attention recently due to the
release of high energetic radicals as oxidants that are capable of
removing dye compounds. This Volume 1 presents versatile
applications of AOPs in dye removal. Accordingly, processes such as
Ozone-based AOPs, UV irradiation, catalytic AOPs, etc are discussed
with the aim of dye removal under different operational parameters.
The role of different nanoparticles is also investigated. By
presenting the fundamentals of AOPs as well as recent advances,
this book is useful for environmental engineers and chemists who
are concerned with wastewater pollution and treatment.
Water is regarded as an important element for sustainable
development and many countries are attempting to provide clean
water for municipal and industrial sectors. Owning to population
explosion, industrial activities, agricultural practices and
urbanisation, water bodies are polluted with various pollutants
such as dyes, heavy metals, etc.. This first volume focuses on
utilization of different promising nanocomposites for water and
wastewater remediation. It provides an overview of wastewater
treatment technologies, and explores the performace of materials
such as organic-inorganic polymer hybrids, hydroxyapatite, magnetic
composites (with polymers and biomaterials), zeolites, and so on in
water and wastewater decontamination. The present edition takes
into account various types of pristine and modified materials in
different water treatment methods such as adsorption, catalysis and
photocatalysis. Recent advances and developments are discussed in
this book, and it provides a valuable resource for researchers and
professionals in different fields such as environmental and
chemical engineering.
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