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Handbook of Heterocyclic Corrosion Inhibitors presents a
comprehensive overview of corrosion inhibition using heterocyclic
compounds. It covers numerous, emerging heterocyclic compound-based
industrial corrosion inhibitors that are oriented toward minimizing
corrosive damages and prevention methods. Describing the
fundamentals of heterocycles, corrosion, and corrosion inhibition,
the book considers the potential of different series of
N-heterocycles, such as Acridine and acridone-based,
Carbazole-based, Imidazole and Imidazoline-based, Indole and
Indoline-based, Melamine-based, etc. It presents the corrosion
inhibition potential of oxygen- and sulfur-based heterocycles
compounds. The book also explores issues with corrosion as a result
of improper design with descaling, acidification, refinery, and
transport processes. The book will be of interest to researchers
and graduate students studying corrosion science, heterocyclic
chemistry, material science and engineering, energy, chemistry, and
colloid science. It will also be a valuable reference for corrosion
scientists and R&D engineers working in industrial corrosion
and industrial-based corrosion protection systems.
1. Discusses carbon allotropes based nanostructured as
corrosion-resistant coatings materials 2. Reviews use of
nanostructure materials based corrosion-resistant coatings as
revolutionized modern industrial practices 3. Focuses on most
advanced nanostructure materials - corrosion-resistant coatings
materials 4. Explores nanostructure materials as
corrosion-resistant coatings materials 5. Evaluates carbon
allotropes as nanostructure materials-based, corrosion-resistant
coatings as options for sustainable and transformational
opportunities
Experience the eco-friendly breakthrough in corrosion mitigation
through functionalized thin fi lm coatings! This book delves deep
into the cutting-edge advancements in synthesizing and applying
functionalized thin fi lm coatings to safeguard metals and alloys
by replacing commercially available toxic inhibitors. It includes
an overview, of properties, applications, and methodologies to
detect and inhibit corrosion.
GRAFTED BIOPOLYMERS AS CORROSION INHIBITORS Comprehensive resource
explaining the synthesis, characterization, and anticorrosive
applications of green and environmentally benign grafted
biopolymers and their derivatives Grafted Biopolymers as Corrosion
Inhibitors highlight research and technology on sustainable grafted
biopolymers as corrosion inhibitors and detail their rapidly
emerging features and future research prospects. The many forms of
grafted biopolymers and techniques for preventing corrosion are
explored in relation to their macromolecular weights, chemical
makeup, and distinctive molecular and electronic structures. The
book covers state-of-the-art corrosion science and engineering as
well as an in-depth, step-by-step exposition of knowledge on
numerous corrosion systems and their role in contemporary industry.
Each chapter include an introduction, isolation and purification,
synthesis methods, worked examples, current applications, and
future predictions. Edited and contributed to by well-known
researchers, scientists and experts from academia and industry,
Grafted Biopolymers as Corrosion Inhibitors includes information
on: Basics of corrosion, economic adverse effects and its
mitigation, and past and present developments and future directions
of corrosion inhibition Corrosion inhibitor classification and
selection criteria, chemical, electrochemical, and surface
characterization, and computational techniques for corrosion
monitoring Sustainable grafted biopolymers, covering synthesis and
characterizations, properties and applications, and factors
affecting biopolymers grafting Grafted natural exudates gums,
pectin, chitosan, starch, cellulose, alginates, dextrin, and
biopolymer composites and nanocomposites as sustainable corrosion
inhibitors Delivering the recent advancements in sustainable
grafted biopolymer for the anticorrosive applications arena,
Grafted Biopolymers as Corrosion Inhibitors is an essential
resource for scholars in academia and industry, working corrosion
engineers, and materials science, engineering, and chemistry
students.
Advanced fiber materials have been developed for various superior
applications because of their higher mechanical flexibility,
high-temperature resistance, and outstanding chemical stability.
This book presents an overview of the current development of
advanced fiber materials, fabrication methods, and applications.
Applications covered include pollution control, environment,
energy, information storage technology, optical and photonic,
photocatalysis, textile, drug delivery, tumor therapy, corrosion
protection applications, and a state of art of advanced fiber
materials.
Corrosion is a high-cost and potentially hazardous issue in
numerous industries. The potential use of diverse carbon
nanoallotropes in corrosion protection, prevention and control is a
subject of rising attention. This book covers the current
advancements of carbon nanoallotropes in metal corrosion
management, including the usage of nanostructure materials to
produce high-performance corrosion inhibitors and
corrosion-resistant coatings.
CARBON ALLOTROPES and COMPOSITES The book discusses the most recent
developments and trends in the use of carbon allotropes and their
composites for environmental restoration and protection including
synthesis, characterization and applications. Due to their huge
surface area and numerous other distinguishing characteristics,
nanostructure materials are widely used in a variety of
applications. The production of substrates for better environmental
protection and cleanup has been prompted by these qualities. They
offer a superior surface for the adsorption of impurities and
pollutants that contaminate industrial eff luents, wastewater, air,
and soil. These all include a variety of harmful environmental
substances such as toxic metals, phenolic compounds, dyes, and
other substances that must be treated appropriately before being
released into the environment. Composites made of highly efficient
and relatively noble carbon allotropes are attracting significant
attention for environmental protection and restoration. The use of
carbon allotropes offers many benefits, including low cost, low
toxicity, simple manufacture, and high efficiency. Therefore, they
are ideal replacements for previously established materials. Carbon
Allotropes and Composites is one of the first books on carbon
allotropes and their composites in environmental protection and
remediation, and features a description of CO2 capturing
capability. Audience The book is designed for a broad audience
working in the fields of materials science and engineering,
nanotechnology, energy, environmental chemistry, environmental
science, etc.
Computational Modeling and Simulations for Designing of Corrosion
Inhibitors: Fundamentals and Realistic Applications offers a
collection of major advancements in the field of computational
modeling for the design and testing of corrosion inhibition
effectiveness of organic corrosion inhibitors. This guide presents
the latest developments in molecular modeling of organic compounds
using computational software, which has emerged as a powerful
approach for theoretical determination of corrosion inhibition
potentials of organic compounds. The book covers common techniques
involved in theoretical studies of corrosion inhibition potentials,
and mechanisms such as density functional theory, molecular
dynamics, Monte Carlo simulations, artificial neural networks, and
quantitative structure-activity relationship.
Handbook of Corrosion Engineering: Modern Theory, Fundamentals and
Practical Applications explores recent progress in metals corrosion
and associated protection processes, spanning all corrosion-related
characteristics utilized in natural and industrial environments,
including monitoring and testing. The book combines the science and
engineering of corrosion to assist readers in conducting exact
corrosion evaluations in the design and plant management phases,
including optimal protection methods. The book examines the basics
of corrosion science, including the electrochemical mechanism,
thermodynamic and kinetic aspects, different corrosion forms—such
as uniform, localized, and stress corrosion phenomena—and
protection systems adopted to combat corrosion, including
inhibitors, coatings, and cathodic protection.
Adsorption through Advanced Nanoscale Materials: Applications in
Environmental Remediation brings together the latest developments
in the utilization of advanced nanoadsorbents in wastewater
treatment, pollution control, removal and remediation, gas
separation and other environmental applications. The book begins by
providing an overview of absorption, adsorbents and nanoadsorbents,
introducing properties, classification, synthesis,
characterization, enhancement of adsorption capabilities,
principles and advantages and disadvantages of nanoadsorbents.
Other sections cover the preparation of advanced nanoadsorbents
based on specific materials for wastewater treatment, including
adsorbents incorporating carbon nanotubes, graphene and graphene
oxide, carbon dots and fullerene, polymer nanocomposites, metal
oxides, nanoclay, nanofillers, and filtration membranes. Final
sections examine the role of nanoadsorbents in broader
environmental applications, including areas such as pollution
control and removal and gas separation. Finally, other important
considerations are studied, including toxicity and health impact,
ecotoxicological effects, commercialization and economic issues,
challenges and research gaps, trends, and future opportunities.
Eco-Friendly Corrosion Inhibitors: Principles, Designing, and
Applications wraps up new developments in corrosion inhibitors and
their current applications in real-life environments such as in
strong acidic pickling and petroleum-based liquids. The book covers
several types of environmentally-friendly corrosion inhibitors in
detail. In addition, it highlights both established research and
technology on industrial scale corrosion inhibitors and their
rapidly emerging aspects and future research directions.
Nanocomposites-Advanced Materials for Energy and Environmental
Aspects provides a brief introduction to metal oxides. The book
then discusses novel fabrication methodologies and eco-friendly
methods for using a broad range of metal oxide-based nanocomposites
in innovative ways. Key aspects include fundamental characteristics
of environmentally sustainable fabrication of materials for solar
power, power generation and the textiles industries.
Commercialization and economic aspects that are currently of major
significance are also discussed in detail. The book represents an
important information resource for material scientists and
engineers to create the next generation of products and devices for
energy and environmental applications. Metal and metal oxide-based
nanocomposites are at the heart of some of the most exciting
developments in the field of energy and environmental research.
They have exceptional properties and are utilized in electronic and
environmental sensing devices, for energy storage, electrode
materials, fuel cells, membranes, and more.
Smart Anticorrosive Materials: Trends and Opportunities covers new
developments in nanoscale coatings and their current applications.
The book addresses fundamental characteristics, synthesis,
inhibition mechanisms and applications of green nanomaterials for
educational (academic) as well as industrial purposes and provides
a chronological overview of the growth of the field. The book
concludes with discussions about commercialization, economics and
environmental considerations. This will be an indispensable
reference for scholars, chemical engineers, chemists and materials
scientists working in R&D and academia who want to understand
corrosion systems and modern advancements on smart coatings.
Handbook of Science and Engineering of Green Corrosion Inhibitors:
Modern Theory, Fundamentals and Practical Applications presents
developments in green corrosion inhibitors and current
applications. The book provides an overview of green corrosion
inhibitors such as plant extracts, chemical medicines, natural
polymers, synthetic green compounds, carbohydrates, amino acids and
oleochemicals that can cost-effectively minimize corrosive damage.
The book handles several compounds used as anticorrosive materials
for different metals and alloys in a versatile corrosive
environment. Sections address the fundamental characteristics of
green corrosion inhibition and deal with the economic impact of
corrosion and forms of corrosion, while also assessing and
classifying corrosion inhibitors. The book covers a broad range of
applications in green corrosion inhibition and concludes with new
emerging trends in corrosion protection such as high temperature
corrosion and its protection and nanomaterials as corrosion
inhibitors.
Inorganic Anticorrosive Materials (IAMs): Past, Present, and Future
Perspectives covers the anticorrosive effects ofinorganic materials
and metaloxides in particular. The
bookpresentsthelatestdevelopmentsin corrosion inhibition
anddiscussesfuture opportunities.Italso addressesthe fundamental
characteristics, synthesis, inhibition mechanisms,and applications
ofmetal oxides ascorrosion inhibitors in industryand provides a
chronological overview of the growth of the field.The book
concludes with discussions about commercialization and economics.
This book is an indispensable reference for scholars, chemical
engineers, chemists, and materials scientists working in research
and development and in academia who require comprehensive knowledge
of corrosion-inhibition mechanisms.
Environmentally Sustainable Corrosion Inhibitors: Fundamentals and
Industrial Applications covers the latest research developments in
environmentally friendly, sustainable corrosion inhibitors. The
book addresses the fundamental characteristics, synthesis,
characterization and mechanisms of corrosion inhibitors. In
addition, it presents a chronological overview of the growth of the
field, with numerous examples of its broad-ranging industrial
applications in a.o. food, the environment, electronics, and the
oil and gas industries. The book concludes with discussions about
commercialization and economics. This is an indispensable reference
for chemical engineers and chemists working in R&D and academia
who want to learn more about environmentally-friendly, sustainable
corrosion inhibitors systems.
Handbook of Organic Named Reactions: Reagents, Mechanisms and
Applications discusses the reactions used in organic synthesis,
showing the value and scope of these reactions and how they are
used in the synthesis of organic molecules. Presenting an
accounting of the traditional methods used, as well as the latest
details on the advances made in synthetic chemistry research, the
named reactions of carbonyl compounds, alcohols, amines,
heterocyclic molecules, rearrangements and coupling reactions are
all included. Explaining the established research and including
detailed mechanism information, step-by-step descriptions, problems
and the applications of named reactions in industry, this book also
discusses emerging aspects. Additional sections cover present and
future research directions, making it an invaluable resource for
all those needing to familiarize themselves with the concepts and
applications of designated reactions.
Electrochemical and Analytical Techniques for Sustainable Corrosion
Monitoring presents established research and technology for
corrosion monitoring and measurements. Corrosion reduction can be
controlled via various ways, including process control, cathodic
protection, metal impurity reduction, application of surface
treatment methods, and incorporation of appropriate alloys. This is
the first book that collectively describes corrosion inhibition
measurements using chemical, electrochemical, and analytical
methods. The book presents state-of-the art techniques for
corrosion monitoring by providing detailed studies and testing
methods. It also covers the most advanced, industry-oriented
challenges for sustainable corrosion monitoring and measurements.
The book is a valuable resource for scholars in academia, materials
science and applied engineering and chemistry students, and
corrosion engineers.
Corrosion affects every industry in which metal is involved, from
manufacturing machinery to transport pipelines, and it is estimated
to cost the global economy trillions of dollars per year. Many of
the traditional methods for inhibiting corrosion are highly toxic
(such as hexavalent chromium) or do not degrade readily in the
environment (such as Benzotriazole) meaning they pose a risk to
human and environmental health. Much recent work in the area has
gone into searching for greener alternatives that will be both safe
and effective. Beginning with a look at the fundamentals of
corrosion inhibition and an explanation of the concepts of green
chemistry, this book discusses various types of chemical that have
been tested for their potential as greener corrosion inhibitors
with reference to industrial applications. Green Corrosion
Inhibition is a valuable reference for chemists and chemical
engineers working in both research and design and academia who want
to learn more about green corrosion inhibitors, their synthesis,
design, and industrial scale applications.
Handbook of Biomolecules: Fundamentals, Properties and Applications
is a comprehensive resource covering new developments in
biomolecules and biomaterials and their industrial applications in
the fields of bioengineering, biomedical engineering,
biotechnology, biochemistry, and their detection methods using
biosensors. This book covers the fundamentals of biomolecules,
their roll in living organism, structure, sources, important
characteristics, and the industrial applications of these
biomaterials. Sections explore amino acids, carbohydrates, nucleic
acids, proteins, lipids, metabolites and natural products, then go
on to discuss purification techniques and detection methods.
Applications in biomolecular engineering, biochemistry and
biomedical engineering, among others, are discussed before
concluding with coverage of biomolecules as anticorrosion
materials.
Activated carbon has long been used for filtering contaminants,
thanks to its large surface area for adsorption. This, and other
properties has led to a growing interest in activated carbon and a
broader range of applications. This book explores the various forms
of activated carbon, detailing how they can be prepared and
characterised. The editors bring together a global team of authors
from industry and academia. Their contributions include
environmental and medical applications, as well as various
industries. Future directions are also considered. The editors are
at the Interdisciplinary Center for Research in Advanced Materials,
King Fahd University of Petroleum and Minerals, Saudi Arabia. They
present an up-to-date and comprehensive reference aimed at all
career levels in chemistry and materials science, engineering and
research across the diverse industries finding a use for activated
carbon.
Corrosion causes permanent damage to metal surfaces and is a major
global challenge, spanning numerous fields including industrial
sectors, construction materials, and surface treatments for
metallic cultural heritage preservation. Nanomaterials and
nanocomposites can be used as effective alternative corrosion
inhibitors in the place of traditional environmentally toxic
substances. This book provides readers with an overview of the
properties and applications of nanomaterials and nanocomposites as
corrosion inhibitors. Chapters first cover the basics of
nanomaterials and the features that make them useful candidates,
before highlighting recent advances from across the field for
industry-oriented challenges. With a focus on cutting-edge
research, this book is a valuable resource for chemists, chemical
engineers, material scientists and environmental chemists in both
academia and industry who want to learn more about corrosion
inhibitors and mechanisms.
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