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Diatoms Biotechnology
Archana Tiwari, Ashok Pandey, Pau Loke Show, Binod Parameswaran
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R4,735
Discovery Miles 47 350
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Ships in 12 - 17 working days
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This book covers biotechnology and applications of diatoms
including various applications like the use of diatom biogenic
silica in drug delivery and their cultivation for wastewater
remediation. It contains case studies in diatom biorefinery and
provides information about the bioactive compounds, antioxidants,
and lipids from diatoms. It also discusses the latest innovations
in the genetic engineering of diatoms. Key Features - Discusses the
applications of diatoms in drug delivery Covers the application and
cultivation of diatoms for wastewater bioremediation Describes the
innovations and gaps in genetic engineering of diatoms Throws light
on the lipid content, antioxidant content, and various bioactives
compounds present in diatoms Includes extraction technologies in
diatoms The book is meant for academicians and microbiologists,
biotechnologists, and marine biologists.
This reference book covers the ecological impact and
biotechnological applications of diatoms. Diatoms contribute to
forty percent of primary productivity in aquatic ecosystems. They
have a unique biomonitoring ability and sensitivity towards
different pollutants in wastewater, thereby a tool for
ecotoxicological monitoring. The book discusses the need for newer
diatoms-based indices for wastewater quality analysis. It describes
the nutraceutical value of the myriad compounds like omega 3 fatty
acids-DHA, polysaccharides, phenols in diatoms. It also elaborates
on the challenges in sustainable diatom biorefinery. This book is
meant for microbiologists, biotechnologists, and marine biologists.
This is the first book to present the idea of Industry 5.0 in
biomanufacturing and bioprocess engineering, both upstream and
downstream. The Prospect of Industry 5.0 in Biomanufacturing
details the latest technologies and how they can be used
efficiently and explains process analysis from an engineering point
of view. In addition, it covers applications and challenges.
FEATURES Describes the previous Industrial Revolution, current
Industry 4.0, and how new technologies will transition toward
Industry 5.0 Explains how Industry 5.0 can be applied in
biomanufacturing Demonstrates new technologies catered to Industry
5.0 Uses worked examples related to biological systems This book
enables readers in industry and academia working in the
biomanufacturing engineering sector to understand current trends
and future directions in this field.
This is the first book to present the idea of using Industry 4.0
and smart manufacturing in the microalgae industry for
environmental biotechnology. It provides the latest developments on
microalgae for use in environmental biotechnology, explains process
analysis from an engineering point of view, and discusses the
transition to smart manufacturing and how state of the art
technologies can be incorporated. It covers applications,
technologies, challenges, and future perspectives. * Showcases how
Industry 4.0 can be applied in algae industry * Covers new ideas
generated from Industry 4.0 for Industrial Internet of Things
(IIoT) * Demonstrates new technologies invented to cater to
Industry 4.0 in microalgae * Features worked examples related to
biological systems Aimed at chemical engineers, bioengineers, and
environmental engineers, this is an essential resource for
researchers, academics, and industry professionals in the
microalgae biotechnology field.
Bioprocess Engineering: Downstream Processing is the first book to
present the principles of bioprocess engineering, focusing on
downstream bioprocessing. It aims to provide the latest bioprocess
technology and explain process analysis from an engineering point
of view, using worked examples related to biological systems. This
book introduces the commonly used technologies for downstream
processing of biobased products. The covered topics include
centrifugation, filtration, membrane separation, reverse osmosis,
chromatography, biosorption, liquid-liquid separation, and drying.
The basic principles and mechanism of separation are covered in
each of the topics, wherein the engineering concept and design are
emphasized. This book is aimed at bioprocess engineers and
professionals who wish to perform downstream processing for their
feedstock, as well as students.
Bioprocess Engineering: Downstream Processing is the first book to
present the principles of bioprocess engineering, focusing on
downstream bioprocessing. It aims to provide the latest bioprocess
technology and explain process analysis from an engineering point
of view, using worked examples related to biological systems. This
book introduces the commonly used technologies for downstream
processing of biobased products. The covered topics include
centrifugation, filtration, membrane separation, reverse osmosis,
chromatography, biosorption, liquid-liquid separation, and drying.
The basic principles and mechanism of separation are covered in
each of the topics, wherein the engineering concept and design are
emphasized. This book is aimed at bioprocess engineers and
professionals who wish to perform downstream processing for their
feedstock, as well as students.
Principles of Multiple-Liquid Separation Systems: Interaction,
Application and Advancement describes the basic principles and
advancements of multiple-liquid separation systems in downstream
processing. Several important elements are included, such as the
fundamental process and mechanisms of the multiple-liquid
separation system, key principles of the interaction between
different solvents and phase components, applications, and green
solvents for the separation system. Furthermore, the book gives
insights in commercializing this separation technique to industrial
scale and making the process environmentally and economically
sustainable. The book also presents constructive critics of this
separation technique for both past and the latest findings.
This book elucidates the sustainable production of commercially
important biomolecules in medicines, food, and beverage processing,
through biological systems, including microorganisms, animal cells,
plant cells, tissues, enzymes, and in vitro. It discusses promising
technologies for the manipulation of cells including, genetic
engineering, synthetic biology, genome editing, and metabolic
engineering. The initial chapters of the book introduce topics on
biomanufacturing, circular economy, strain design and improvement,
upstream and downstream processing. The subsequent chapters cover
artificial intelligence-assisted production, designer cell
factories, biosensors for monitoring biomolecules, different cells
factories, biosynthetic pathways, and genome editing approaches for
scale-up biomanufacturing. Lastly, the book discusses the
opportunities and challenges of implementing biological systems for
the production of biomolecules. This book is a valuable source for
students, researchers, scientists, clinicians, stakeholders,
policymakers, and practitioners to understand biomanufacturing for
the sustainable production of biomolecules.
Downstream bioprocesses have a significant role to play in the
creation of a sustainable bio-based economy, enabling the creation
of new products and systems from the more sustainable bioprocessing
of natural products. Liquid Biphasic System: Fundamentals, Methods,
and Applications in Bioseparation Technology explores in detail the
fundamental processes and applications of this new separation
system, aiding understanding of the basic principles of the
technique and offering constructive criticisms on the latest
findings. Including coverage of the background, principles,
mechanisms, and applications, Liquid Biphasic System addresses how
to adapt the technology for the purification of useful compounds
with greater cost efficiency and greener processing. It is
essential reading for bioprocess engineers, biochemical engineers,
biosystem engineers, chemists and microbiologists working in the
fields of bioprocessing. Researchers, scientists, and engineers
concerned with the selection and evaluation of alternative
bioseparation processes will find the book particularly useful.
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