Book Volume 2
Preface
Page: i-ix (9)
Author: S. Kannadhasan, Alagar Karthick, R. Nagarajan, K. K. Saravanan and Kaushik Pal
DOI: 10.2174/9789815165586124020001
PDF Price: $15
Detection of Fake News in Distributed Environment
Page: 1-9 (9)
Author: S. Shargunam* and G. Rajakumar
DOI: 10.2174/9789815165586124020003
PDF Price: $15
Abstract
Data analytics is the present and the future of problem-solving in computing.
With the increasing trends in Data and Processing power, Machine learning solutions
are evolving to cater to the needs and challenges in both scientific and business worlds.
In this work, the current solutions have been discussed, and the results of the practical
experiments are shown with a glimpse into the future direction. The task of automatic
identification of fake news is addressed. Fake news datasets are obtained through
crowdsourcing and web covering celebrities. Due to the inherent relationship among
publishers, news and social engagements during the news dissemination process on
social media, the SVM classifier model has been implemented, the Multilayer
Perceptron model for distributed environment is proposed and a performance
comparison of two models is established.
Influence of MoS2, B4C and Graphite on Mechanical and Dry Sliding Wear Behaviour and Micro structural Characteristics of Aluminium 7075 Hybrid Matrix Composites
Page: 10-23 (14)
Author: S. Sakthi*, S. R. Hariharan, S. Mahendran and S. T. Jayasudhakar
DOI: 10.2174/9789815165586124020004
PDF Price: $15
Abstract
In the current study, the synthesis and characterization of a metal matrix
composite material encompassing MoS2
, B4C and graphite as reinforcement have been
carried out. Hybrid composites are prepared by using stir-casting techniques with
various weight percentages (1%, 2%, and 3%) of each reinforcement (Molybdenum
Disulfide, Boron carbide and Graphite). After fabrication, the ingots were subjected to
various tests to study their mechanical behaviour and microstructure. Tensile test,
hardness test, and impact test were conducted by ASTM standard to find the effect of
reinforcement on aluminium metal matrix composite (Al 7075- MoS2
, B4C, and
graphite). The microstructural study (scanning electron microscope) was conducted to
assess the distribution of reinforcement on the composite. The spread and interaction of
constituent materials play a key role in their properties. The results show that the
addition of reinforcements up to 3% to matrix metal Al 7075, the hardness, tensile, and
impact properties were increased compared to base AL 7075 alloy.
Sensors and Antennas for Smart Sensor Networks: A Review
Page: 24-47 (24)
Author: Kusumlata Jain, Smaranika Mohapatra*, Jitendra Singh Yadav and Vivek Sharma
DOI: 10.2174/9789815165586124020005
PDF Price: $15
Abstract
In the current scenario of automation and digitization, sensors are available
in almost all fields of invention. Sensors are in our phones, workplaces, automobiles,
and the environment. With the increasing growth of sensors, sensor networks are a
significant aspect of the Internet of things (IoT) and the contemporary world. In a
sensor network comprising multiple sensor nodes, each sensor node is small in size,
lightweight, and portable, as are the detection stations that make up the network.
Detecting and processing nodes that have been constructed are used for sensing and
processing the surrounding environment, as well as relaying the detected data to the
other nodes in the network. Almost every sensor node in the network is equipped with
four primary components, i.e., a transducer, a microcontroller, a transmitter, and a
power supply. Sensor nodes in the sensory network must be able to operate on
restricted and tiny sources of energy, which are often available in the form of
operational battery power. These types of networks also incorporate a variety of
antennas, which help to increase the network's capacity while also increasing the
transmission range, improving spatial reuse, and reducing interference. The primary
goal of this chapter is to provide an overview of the sensors and antennas used in
wireless sensor network applications.
Induction Motor Condition Monitoring Using Hybrid AI and IoT System
Page: 48-64 (17)
Author: E. Fantin Irudaya Raj*, M. Chithambara Thanu, S. Darwin and M. Appadurai
DOI: 10.2174/9789815165586124020006
PDF Price: $15
Abstract
We use a variety of electrical devices in our day-to-day operations. Home
appliances, industrial applications, automobile applications, and other gadgets are
among the devices available. So many electrical instruments rely on the electrical
machine as their heart. If a fault arises in the machine, it will cause the instrument to
malfunction. It can sometimes result in a dangerous situation. To avoid this, we must
constantly monitor the electrical machine. If a problem arises, we must be informed as
soon as possible. Only then will we be able to take corrective action and prevent fault
occurrence. This way, we can leverage Artificial Intelligence (AI) and the Internet of
Things (IoT) for electrical machine condition monitoring. AI focuses on creating
intelligent machines that think and work like humans. The IoT is a network of
connected systems that can collect and transfer data wirelessly without human
involvement. We can take condition monitoring, control, and information exchange to
the next level by combining these two approaches (AI-IoT). This study employs an
induction motor for analysis purposes because it is one of the most widely used electric
motors worldwide in a broad range of applications. Throughout its various operating
stages, the induction motor is continuously monitored, and the state of the motor is
updated to the user accordingly. Additionally, utilizing IoT and modern communication
technologies makes it possible to remotely monitor and control the induction motor.We
can achieve numerous advantages over traditional methods by combining these two
methodologies (AI-IoT).
Automatic Conversion of Building Plan to Graph for Navigation of Robots – A Computer-Aided Approach Based on Extended Conditional Erosion Algorithm
Page: 65-86 (22)
Author: A. Lenin Fred, G. Brenda, S. N. Kumar, I. Christina Jane, John Pradeep and Hemanth Kumar Shukla
DOI: 10.2174/9789815165586124020007
PDF Price: $15
Abstract
This research work proposes a computer-aided algorithm for the conversion
of building plans into a graph for the navigation of robots. Rescuing people from
burning buildings manually is a tedious process. Robots play a pivotal role in industrial
automation and the deployment of robots in rescue operations can save many people.
Indoor navigation for robots is a challenging task since every building has a unique
structure. A routing graph is inevitable to find the path in a building quickly for the
navigation of robots to perform the rescue operation. The automatic extraction of the
routing graph from the image of the floor plan is offered in this research work. The
floor plan images are acquired and converted into a raster image. Then, by using the
predefined kernels, the white pixels are eroded for obtaining the routing path of
common walkways through corridors and rooms. The Extended Conditional Erosion
Algorithm is used for the extraction of the routing graph from the floor plan images.
The resultant graph as output aids the navigation of the robot.
Analysis of Defects in Microscopic Images of Hetero Epitaxial Growth Technique Using Fuzzy K Means Clustering Algorithm
Page: 87-101 (15)
Author: S. N. Kumar*, M. Nagarajan, S. Shanmugan and H. Ajay Kumar
DOI: 10.2174/9789815165586124020008
PDF Price: $15
Abstract
The semiconductor material InP plays a key role in optoelectronic devices,
high-speed devices, and fiber optic communications systems. The major problems with
these materials are the high lattice mismatch and variance in thermal expansion
coefficient between InP and Si. This mismatch produces high dislocation density at the
interface and the propagation of the threading dislocations away from the interface into
the device layer is a major concern in optoelectronic applications. Image processing
algorithms play a pivotal role in the medical field, archaeology, and remote sensing.
This work proposes an image processing method to analyze the SEM images of the InP
heteroepitaxy layer to determine the etch pits to confirm whether the substrate is
suitable for optoelectronic applications. In this work, a variant of an anisotropic
diffusion filter for noise reduction on SEM images and Fuzzy C means clustering
method for image segmentation was employed for analysis.
Solar PV Charged Pineapple Leaf Cutter: An Aid for Rural Community
Page: 102-110 (9)
Author: Jubin V. Johny, Naamah Susan Saji, Neha M. Suhara, Len Cyriac and S. N. Kumar*
DOI: 10.2174/9789815165586124020009
PDF Price: $15
Abstract
This research work proposes a “Solar PV Charged Pineapple Leaf Cutter”
(SPVPLC) for rural community people. The cutting of pineapple leaves is a crucial,
time-consuming and laborious task. A portable leaf cutter system comprising a DC
motor with blade arrangement is utilized in this work and is powered by the PV panel.
A mechanical trolley system is also designed that supports the entire system, and it
facilitates movement. The outcome of this research work paves the way for the
beneficiary of farmers. A 50w solar panel charging battery was utilized in this work.
The battery output drives the motor coupled with the blade arrangement through a
simple electronic circuit comprising the voltage regulator and current limiting resistors.
The simulation was carried out using Proteus software and the prototype model was
also depicted in this work.
Analysis of Defects in Electroluminescent Images of Solar Panel using Image Processing Algorithms
Page: 111-126 (16)
Author: M. Nagarajan, S. N. Kumar*, H. Ajay Kumar and G. Meena
DOI: 10.2174/9789815165586124020010
PDF Price: $15
Abstract
Computer-aided algorithms play a vital role in industrial automation; image
processing algorithms have a wide variety of applications in the detection of defects in
real-time studies. This chapter proposes image processing algorithms for the detection
of defects in solar panel electroluminescent images. This research work proposes a
median filter for the filtering of images followed by a region of interest extraction by
fast fuzzy c-means clustering. The outcome of this work paves the way for researchers
working in the processing of solar panel electroluminescent images for defects
classification.
An Efficient Missing Data Prediction Technique using Recursive Reliability-Based Imputation for Collaborative Filtering Recommender System
Page: 127-134 (8)
Author: G. Thenmozhi* and V. Palanisamy
DOI: 10.2174/9789815165586124020011
PDF Price: $15
Abstract
Collaborative filtering recommender system is utilized as a significant
method to suggest products to users depending on their preferences. It is quite
complicated when the user preference and rating data is sparse. Missing value occurs
when there are no stored values for the specified dataset. Typical missing data are of
three categories such as (i) Missing completely at random, (ii) Missing at random, and
(iii) Missing not at random. The missing values in the dataset affect the accuracy and
cause deprived prediction outcomes. In order to alleviate this issue, the data imputation
method is exploited. Imputation is the process of reinstating the missing value with a
substitute to preserve the data in a dataset. It involves multiple approaches to evaluate
the missing value. In this paper, we reviewed the progression of various imputation
techniques and their limitations. Furthermore, we endeavored k-recursive reliabilitybased imputation (k-RRI) to resolve the boundaries faced in existing approaches.
Experimental results evince that the studied methodology appreciably improves the
prediction accuracy of the recommendation system.
Diagnose Breast Cancer on Mammography Using Self Supervised Decision Tree Algorithm
Page: 135-156 (22)
Author: A. Pon Bharathi*, A. S. Sarika, V. Suresh Babu, M. Jayaprakash and Allan J. Wilson
DOI: 10.2174/9789815165586124020012
PDF Price: $15
Abstract
Women in India are diagnosed with breast cancer at a far higher rate than
men. Breast cancer is the most common kind of cancer in women, accounting for more
than half of all cancer cases. It is possible to minimize the mortality rate of breast
cancer via early and precise detection. By utilizing mammography, early breast cancer
detection, and assessment is currently possible. There is still a lot of controversy about
mammography mass classifications, yet they are crucial for helping radiologists make
accurate diagnoses. Using convolutional neural networks (CNNs), it has become
possible to classify and segment images in a meaningful way. Unlabelled picture data,
on the other hand, presents challenges, and while manual labelling is inefficient, pretrained CNNs also perform poorly on genuine medical images. In this research, we
propose the use of Transformer-Based Networks (TBN) in computer vision.
Transformer-based vision models have been found to outperform convolutional models
in previous studies as well. A self-supervised learning (SSL) technique called the
Decision Tree Algorithm (DTA) is proposed in this study for processing
mammography images for diagnostic purposes. The Decision Tree Algorithm works
effectively with categorical and continuous dependent variables. In this study, the
population was divided into two or more homogeneous groups based on the most
important traits and independent factors. According to this article, a previously trained
model can be enhanced by transitioning from making predictions on uniformly tiled
regions to making predictions on the complete image. There were two studies that
utilized the Kaggle archive breast cancer sample pool, the second of which used 286
samples. In the initial experiment, the decision tree was 100 percent accurate, but in the
follow-up investigation, it was only 97.9 percent accurate.
Study of groundwater contamination and its Impact: a Review
Page: 157-165 (9)
Author: Subbulakshmi Ganesan*, Rekha Mirle, Akhilesh Kallumpurat, Ashwathi Vijayan and K. Gloria Christal
DOI: 10.2174/9789815165586124020013
PDF Price: $15
Abstract
The groundwater cycle is one of the most vital elements of life. This is the
sole cardinal provenance of potable agricultural and industrial water. Underground
water may be of good quality for cooking and drinking (potable) or it can be medium
quality (domestic and industrial) or have another inappropriate quality for any use due
to various contaminations. Heavy metals, minerals, and other factors can be present in
the water. Septic systems can be contaminated by natural and artificial sources. There
are many artificial polluting sources, such as chemicals, fertilizers, and mining
activities, and there are also natural ones, such as seawater intrusion, geothermal brine
seepage, and rock water leaching. Health hazards are associated with contaminated
water. Groundwater contamination can lead to degrading surface water systems, loss of
water supply, poor quality, or even no, and drinking water. It is well known that water
is an essential part of life, and all animals, including humans, need water in order to
persist. Throughout this paper, we have examined the health effects, environmental
impacts, and prevention of groundwater contamination.
Biofertilizers: A Non-polluting Technology for Environmental and Agriculture Sustainability
Page: 166-173 (8)
Author: Subbulakshmi Ganesan*, R. Thiruneelakandan and G. Padmapriya
DOI: 10.2174/9789815165586124020014
PDF Price: $15
Abstract
Improvement of agricultural practices for enhanced productivity has been
the driving factor for Green Revolution. Its introduction has led to modernization in
farming with the use of high yield variety seeds, chemical fertilizers, pesticides, etc.
Excessive usage of these chemicals, due to urbanization, has led to the deterioration of
soil quality, depletion of essential nutrients and microbes present naturally in the soil,
and cause water pollution. The use of fertilizers has been found to be very effective in
achieving food production goals, but the widespread use of inorganic fertilizers seems
to have a significant impact on soil physicochemical parameters, as this approach
causes the exhaustion of essential minerals in the soil, which depletes soil fertility. As a
result, adopting an alternative method that will act as a replacement and treatment has
become critical in order to overcome this difficulty. The introduction of biofertilizers
could be a boon for the agriculture industry as they are cost-effective, improving soil
health by replenishing the soil with nutrients and enhancing the growth of plant growth
promoting microorganisms. Plants are also protected from brininess and aridity by
biofertilizers. Biofertilizers are also environment-friendly and do not cause any
hazards. Biofertilizers, when used as a supplement, have been shown to protect plants
by releasing antibiotics that can fight against various plant infections.
Organic Farming: An Ecofriendly Approach for Sustainable Development and Agriculture
Page: 174-180 (7)
Author: Subbulakshmi Ganesan*, Asha Rajiv and R. Thiruneelakandan
DOI: 10.2174/9789815165586124020015
PDF Price: $15
Abstract
India is an agricultural country. 75% of the population is directly dependent
on agriculture for their living. Modern farming uses enormous amounts of pesticides
and chemical fertilizers which disrupt soil fertility and cause water hardness and
genetic variation in plants. In this paper, we are going to focus on organic farming and
its benefits. Quality crops are produced through organic farming without influencing
the health of the soil. Therefore, organic farming provides macronutrients and
micronutrients to the plants and improves the different characteristics of the soil.
Organic agriculture helps the farmers get synced with climate change. The change of
climate makes the growth condition more difficult. To overcome such a situation, the
earth holds and removes the required greenhouse gases in the soil. Eco-agriculture has
a higher ability to reduce environmental change, largely because it’s higher in lowering
the emission of gases like CH4
, NO2
, and CO. The confirmation of cultivation practices
as expected in natural horticulture gives an assurance of natural standards and
guidelines. This additionally permits the upheld reception of new and successful
practices pointed to working on the relief of environmental change. Besides, natural
agribusiness is profoundly versatile to environmental change, compared to regular
farming. In any case, a more noteworthy acknowledgment of the capability of natural
farming for alleviating environmental change is required. Future techniques for
working on the adequacy of natural farming in relieving environmental change are
introduced and talked about.
Synthesis of Starch from Carbon Dioxide Leads to Sustainable Bio Based Society
Page: 181-186 (6)
Author: Asha Rajiv and Subbulakshmi Ganesan*
DOI: 10.2174/9789815165586124020016
PDF Price: $15
Abstract
Carbon dioxide is one of the unfavorable gases which will be released into
the atmosphere in different ways such as the burning of fossil fuel, factory emissions,
vehicle smoke, etc. Carbon dioxide is a greenhouse gas that will lead to global
warming, climatic changes, and acid rain. Photosynthesis is the production of starch
and oxygen with the help of carbon dioxide and water under sunlight in the chloroplast.
It is a natural phenomenon carried out by plants. Moreover, this is one great activity
conducted by plants, because they absorb harmful gases and release oxygen, which is
very helpful for the process of living for all organisms. A team of Chinese scientists
found a way to synthesize starch artificially in 2021, which is a great achievement in
the field of science. Therefore, here they collected carbon dioxide gas from the
atmosphere in order to conduct these reactions. This is a very effective method where
the useless, toxic, and harmful gases like carbon dioxide are converted finally into a
useful product. Therefore, this can promote the formation of a sustainable bio-based
society.
Remediation Using Organism: A propitious Approach for Contaminated Soil
Page: 187-194 (8)
Author: Subbulakshmi Ganesan*, Srujana Jayakrishna, Shyamji Verma, Sara Nadeem and Siddhi Shah
DOI: 10.2174/9789815165586124020017
PDF Price: $15
Abstract
Soil contamination, otherwise called soil pollution in simpler terms, is
caused due to the presence of anthropogenic substances, majorly chemicals in the
natural soil habitat. It is frequently caused by contaminants from industrial and
agricultural activities or because of improper disposal of waste. Heavy metals like lead
and arsenic; chemicals like pesticides, fungicides, insecticides and petroleum
hydrocarbons are the most common chemicals involved in soil pollution. Soil pollution
is now a global concern due to its impact on the environment and majorly human
health. Industrialization, mining, and overuse of chemical fertilizers are the major
causes of contamination of soil and pose a significant threat to the environment. One
way to restore soil to its original state is soil remediation. It is the process of cleaning
and reviving the soil with external help. It is the process of removing toxicants from the
environment to protect the health of both the population and the environment. There
are three major soil remediation techniques that are generally used - soil washing,
bioremediation, and thermal desorption. Bioremediation is a method of using living
organisms in remediating the soil that is, removing contaminants, pollutants, and toxins
from the soil. Bioremediation includes the remediation of the soil by bacteria, yeasts, or
fungi called mycoremediation. Remediation can also be brought about by mycorrhizal
fungi which are associations of fungal species with roots of higher plants.
Vermiremediation is the remediation of soil with the help of earthworms.
Waste Management Techniques for Sustainable Development: A Review
Page: 195-203 (9)
Author: Subbulakshmi Ganesan*, G. Padmapriya, Agampodi Sanduni Anupama De Zoysa and Izegaegbe Daniel Omoikhoje
DOI: 10.2174/9789815165586124020018
PDF Price: $15
Abstract
Any substance that is not in use or is unwanted is called a “waste”. Waste
management is the proper control of waste in order to protect it from environmental
hazards. Industrial waste, commercial waste, domestic waste, agricultural waste, and
electronic waste are a few types of waste that can be categorized. Environmental
problems such as water pollution, air pollution, and soil pollution are a few different
problems that can occur due to the improper management of waste. Landfill
incineration, waste compaction, composting, vermicomposting, recycling, plasma
gasification, and conversion of waste into energy are some innovative methods of
waste management that are discussed in this work.
Sensor-Based Vehicle Fuel Theft Detection System Using Microcontroller
Page: 204-212 (9)
Author: Jacob Abraham*, S. Ganesh and S. Kannadhasan
DOI: 10.2174/9789815165586124020019
PDF Price: $15
Abstract
Vehicle fuel theft is one of the key worries of many bike and automobile
owners these days. We've all heard stories of fuel being taken from our motorcycles or
automobiles, and some of us have even experienced it ourselves. The primary goal of
this detector is to prevent such an occurrence. A simple, cost-effective method is
suggested here for maintaining vehicle fuel security when the vehicle owner is present
anywhere on the planet. This style detector digitally displays the amount of gasoline in
the fuel tank. When the gasoline is stolen, a buzzer sounds, alerting the bike's owner.
The goal of this project is to utilize it to monitor fuel security. When this system detects
an instruction, it sends an alert to the vehicle's owner. When the owner of a motorcycle,
automobile, or truck enters the key into the ignition lock and turns it on, a signal is sent
to the microcontroller. Because the microcontroller recognizes that the bike/car has
started, it will not monitor the fuel level. With this project, we've included a bike
ignition key. When the key is taken from the ignition lock, the level sensor is activated.
As soon as the individual exits the vehicle, the key is removed, and the system is
triggered.
Biochar for a Sustainable Future
Page: 213-218 (6)
Author: Subbulakshmi Ganesan*, Agampodi Sanduni Anupama De Zoysa and Izegaegbe Daniel Omoikhoje
DOI: 10.2174/9789815165586124020020
PDF Price: $15
Abstract
Biochar is a charcoal that is used for soil amendment. It is made up of wood,
bones, and other organic substances including dried manure which is produced by a
process known as pyrolysis under a lower amount of oxygen. Biochar can be used to
improve the fertility of the soil which results in increasing the crop yield. It has a
honey-comb-like structure which will help in the increase of the water holding
capacity, and nutrient retention as well as by stopping the soil particles from getting
compacted with each other. Infertility in the soil occurs due to the addition of different
types of pesticides, weedicides as well as a lot of chemical substances. Therefore,
biochar can act as a promising solution for the infertility of the soil while indirectly
increasing crop yield.
A Review of Bioremediation of Soil Contaminated with Heavy Metals
Page: 219-226 (8)
Author: Subbulakshmi Ganesan*, G. Padmapriya, S. Nair Arya and Sonal Kudva
DOI: 10.2174/9789815165586124020021
PDF Price: $15
Abstract
Toxic and hazardous contaminants generated and accumulated as a result of
industrial activities, improper waste management, and other anthropogenic factors,
have become one of the major environmental threats. Heavy metal contamination, in
particular, has long-lasting negative impacts on different life forms. In plants, it can
disrupt the water and nutrient uptake mechanisms, photosynthesis, and other metabolic
pathways, adversely affect the vital soil microflora, and can also make its way to the
food chain, thereby resulting in the deterioration of human health. Although several
chemical and physical treatment options have been developed, these conventional
methods are expensive and may not be feasible for large-scale remediation.
Bioremediation is therefore considered s a better eco-friendly alternative for solving
this issue and for potentially reducing the toxic metal concentration in polluted
resources. This review, in brief, discusses the scope of bioremediation for contaminated
soil, the various metal-remediating microbes found, the different mechanisms of
bioremediation used, and many more.
Sustainable Agriculture Practices: Empowering Farmers
Page: 227-235 (9)
Author: Subbulakshmi Ganesan*
DOI: 10.2174/9789815165586124020022
PDF Price: $15
Abstract
Environmental preservation and protection are anticipated benefits of
sustainable agriculture. It often serves as a remedy for soil degradation and other loss
of natural resources. Worldwide, there is still poverty and there are individuals who
don't have a full day's worth of food because of the use of chemical pesticides and
fertilisers. In order to preserve our ecology and environment, this worldwide problem
must be addressed. Furthermore, since soil is a finite resource, it must be handled with
care to prevent deterioration. The whole chemical agricultural system is changed by
sustainable agriculture. In order to address a huge growth in the human population, the
green revolution was what began it all. Chemical fertilisers were used to speed up crop
production, which produced an excess of food grains. However, it also requires low-income workers to borrow money and use it to purchase fertiliser and pesticides during
the early phases of crop production.
Rate of Corrosion and its Methods: A Review
Page: 236-246 (11)
Author: Subbulakshmi Ganesan*, G. Padmapriya and Manoj Girish
DOI: 10.2174/9789815165586124020023
PDF Price: $15
Abstract
Weight loss approach was used to investigate the corrosion characteristics of
various metals found in varying concentrations of solutions containing acids. The
degree of these metals' corrosion in 1–5 M HCL solutions was investigated for 24
hours. The order of metal corrosion is zinc > galvanized iron > copper >, whereas the
order of aqueous media corrosion is HNO3
> H2SO4
> HCl. It has been observed that
increasing concentration increases the corrosion potential. Further investigation into the
dynamics of corrosion has demonstrated that the rate of reactivity in terms of metals
rises with increasing solution concentration when the half-life decreases.
Bioplastic from Renewable Sources: A Novelty Approach to Sustainable Development
Page: 247-252 (6)
Author: Subbulakshmi Ganesan* and Subhamay Banerjee
DOI: 10.2174/9789815165586124020024
PDF Price: $15
Abstract
At present, with an increase in the human population, the amount of plastic
consumption has multiplied, and with it, pollution levels are alarmingly increasing day
by day. Plastic can be labelled a disaster as it threatens the whole world. Since this is a
big problem for our environment, there may be a call to find a change for traditional
plastics. Therefore, bioplastics are the perfect option as they can be synthesized from
various active biodegradable wastes. Bioplastics are formed from various renewable
biomasses, including starch, biopolymers, cellulose, and aggregates of various
compounds. These plastics can be easily synthesized and can be easily degraded
compared to conventional plastics. So, the synthesis of it becomes a crucial challenge.
Photocatalyst Based on TiO2 and Its Application for Environmental Remediation: A Challenge to Sustainable Development
Page: 253-272 (20)
Author: Subbulakshmi Ganesan*, Priyanshi Roshan and Ritika Mathur
DOI: 10.2174/9789815165586124020025
PDF Price: $15
Abstract
This is an overview of the photocatalyst TiO2
which gets activated under UV
rays. Its use in wastewater management is discussed. TiO2
is a semiconductor that uses
the transient nature of electrons and holes to produce radicals such as OH• and HO2• to
degrade organic pollutants, inorganic pollutants, and pathogens, particularly into
carbon dioxide, water, and oxides of organic compounds, respectively. The oxides are
recycled back into the biogeochemical cycle. TiO2
differs in its structure such as
anatase, brookite, and rutile, and hence its properties. Besides this, there are several
methods of its preparation that can be obtained through natural sources or synthetic
preparation. To enhance the outcome of wastewater treatment, TiO2
is doped or
modified with certain elements. These include nonmetal Dopants such as porous
minerals, carbon materials (fiber, graphene, activated carbon), polymer materials (PLC,
PE), nitrogen, etc., and metals such as precious metals (Ag, Pt), ions (Fe3+, Mo5+).
Composite modifications are also done. The formation of hetero junctions is one such
method that enhances the activity of TiO2
to increase the photo response in the visible
and infrared regions. Co-doping is also done such as N and Co-doped TiO2
. Certain
parameters which affect the efficiency of TiO2
.> are discussed briefly along with the
limitations it has. The degradation rates of some doped TiO2
acting on methylene blue
and Rhoda mine B are recorded and a case study on the degradation of butachlor using
Degussa-25 is discussed briefly. While degradation, a new byproduct, i.e., carboxylic
ions (such as acetate and formate) was also found but later on, after undergoing photoKolbe’s reaction, CO2
was formed along with regenerated TiO2
. Here, peroxide ions
played a major role in degradation as due to the presence of common salt, there was a
competition to occupy the active holes of TiO2
. Hence, OH• became non-selective.
Bioplastics for Sustainable Development: An Eco-friendly Approach
Page: 273-281 (9)
Author: Subbulakshmi Ganesan*, Anagha Sanjay, Ishira Bhattacharya, K. M. Krishna and Srujana Jaya Krishna
DOI: 10.2174/9789815165586124020026
PDF Price: $15
Abstract
Plastics are primarily composed of polymers and contain additives that allow
them to inherit properties like durability, thermal insulation, electrical insulation, and
density. Studies have shown that approximately half of all conventional synthetic
polymers in the market are used as short-term products, during disposal, they end up in
landfills and oceans where large amounts of plastic are washed ashore, sinked or
floated, and fragmented into micro plastics which can harm and kill various organisms
before making their way through the food chain. The term bioplastic is an abbreviation
for bio-based polymers. A bio-based polymer can be shaped by components that stem
from an organic source or its derivatives. In this paper, we will discuss the types,
production, advantages, and disadvantages and applications of bioplastics.
NanoRemediation: Novel Approach for Environmental Cleanup
Page: 282-287 (6)
Author: Subbulakshmi Ganesan*, G. Padmapriya and Agampodi Sanduni Anupama De Zoysa
DOI: 10.2174/9789815165586124020027
PDF Price: $15
Abstract
Nanotechnology is an advanced emerging science that has application in
mostly the fields of industry, environmental issues, biotechnology, health, and
medicine. NanoRemediation is a technique that uses nanoparticles for bio remediation.
It is mainly used to treat wastewater soil, contaminated environmental materials,
groundwater, and sediments. In this technology, nano titanium dioxide or non-toxic
nano particles are used. In essence, chlorine-containing organic waste is removed using
nano remediation. Although this method is a good technology, it is still present in
investigational stages and has been applied mostly in laboratories.
Pioneering Technique to Mitigate Environmental Contaminants Involving Bioremediation
Page: 288-296 (9)
Author: Subbulakshmi Ganesan*, G. Padmapriya and J. H. Tharundini
DOI: 10.2174/9789815165586124020028
PDF Price: $15
Abstract
Bioremediation is a type of biodegradation that involves the phenomenon of
biological transformation of organic compounds by living organisms. Biodegradation
mainly involves the conversion of complex organic compounds into simpler and nontoxic compounds. Bioremediation is a natural and genetically engineered technology
that involves cleaning up polluted air, water, and soil using various forms of life such
as bacteria, fungi, fishes, algae, animals, and plants. Bioremediation includes
biotransformation which is the incomplete biodegradation of organic compounds and it
is employed for the synthesis of commercially important products by microorganisms.
The other names which can be used for bioremediation are biotreatment, bioreclamation, and biorestoration. Bioremediation is mainly used for the degradation of
xenobiotics. Xenobiotics are substances that are man- made or synthetic that take a
very long time to degrade. They are also known as recalcitrants. Some examples of
recalcitrants are pesticides, herbicides, refrigerants, solvents, and other organic
substances. Accumulation of these substances in soil, water, air, and water causes so
many problems. Therefore, we can use bioremediation to remove these chemicals from
the environment. So it will be a very good solution for the environmental problems
caused by toxic chemicals.
Research Challenges in Renewable Energy Sources
Page: 297-304 (8)
Author: M. C. Madhu* and N. A. Prashanth
DOI: 10.2174/9789815165586124020029
PDF Price: $15
Abstract
Today, the main driver of socioeconomic development is energy. However,
the interest in renewable energy is important because of the increasing level of
environmental concern. Due to the ongoing depletion of fossil fuels, this alternative
energy source is steadily growing in popularity. It is the energy that is derived from the
sun, wind, rain, etc. Solar energy has one of the greatest potentialities for conversion
into electric power among unconventional, renewable energy sources. To improve
efficiency, a solar system should produce as much electricity as possible. So we keep
the solar panels aligned with the sun for optimum power production. This chapter
discusses the production of electricity from solar energy. By appropriately positioning
the panel in line with the position of the sun, the suggested method assures the
maximum efficiency of the conversion of solar energy into electricity.
Recent Trends in Renewable Energy Sources, Challenges and Opportunities
Page: 305-317 (13)
Author: N. A. Prashanth* and M. C. Madhu
DOI: 10.2174/9789815165586124020030
PDF Price: $15
Abstract
A particular region's rapid industrial development necessitates the
construction of numerous facilities. These include, in particular, production,
warehouse, and commercial buildings along with office and social structures and the
necessary supporting infrastructure. New industrial facilities must be built in expansive
areas that are suitable for this kind of development. It goes without saying that the
majority of locations with favourable ground conditions and location have already been
developed, necessitating the implementation of this type of investment in less desirable
locations. Due to the specific implementation challenges caused by this, it is necessary
to properly improve and prepare the subsoil in order to construct the buildings and
other objects that make up the entire investment safely.
Industrial Internet of Things: A Transformation
Page: 318-328 (11)
Author: P. S. Nandhini*
DOI: 10.2174/9789815165586124020031
PDF Price: $15
Abstract
In recent years, the IIoT has piqued the interest of academic and industrial
researchers. When IT was combined with industrial automation and control systems,
the term IIoT was coined. It provides an integrated development environment for
businesses to create intelligent interconnected systems that leverage a variety of IoT
devices to connect the cyber and physical worlds with greater availability and
scalability. IIoT includes networked smart electricity, industrial, medical,, and
transportation. In terms of technology, Consumer IoT and Industrial IoT are not
similar. In this chapter, the evolution of industry, recent research, and applications in
IIoT are discussed. This chapter aims to assess the current state of IIOT in the current
context and make some research recommendations for future researchers.
Subject Index
Page: 329-334 (6)
Author: S. Kannadhasan, R. Nagarajan, Alagar Karthick, K. K. Saravanan and Kaushik Pal
DOI: 10.2174/9789815165586124020032
PDF Price: $15
Introduction
This volume covers a wide array of topics related to research, technology and sustainability for technology researchers and educators. Chapter 1 explores the detection of fake news in a distributed environment. Material science is covered in Chapter 2, which explains the influence of MOS2, B4C, and graphite on the mechanical and dry sliding wear behavior of aluminum 7075 hybrid matrix composites. Chapter 3 focuses on sensors and antennas for smart sensor networks. Chapters 4 to 8 delve into various aspects of electrical and computer engineering, including induction motor condition monitoring, automatic conversion of building plans to graphs for robot navigation, and analysis of defects in microscopic and electroluminescent images using AI and image processing algorithms. Chapters 9 to 16 cover topics such as missing data prediction techniques, breast cancer diagnosis on mammography, groundwater contamination, biofertilizers, organic farming, and remediation using organisms. Sustainable development is a key theme in Chapters 17 to 26, addressing issues like sensor-based vehicle fuel theft detection, waste management techniques, bioremediation of soil contaminated with heavy metals, sustainable agriculture practices, and novel approaches in bioplastics and nanoremediation. Finally, Chapters 27 to 29 touch upon renewable energy and Industrial IoT, discussing research challenges in renewable energy sources, recent trends, and the transformation brought about by the Industrial Internet of Things.