Authors :
Nawaz Sheikh; Surabhi Thaware; Arson Patil; Nikita Shahu; Sohel Sheikh; Abhishek Rajput
Volume/Issue :
Volume 9 - 2024, Issue 2 - February
Google Scholar :
http://tinyurl.com/bdzdh97t
Scribd :
http://tinyurl.com/2rcs83hc
DOI :
https://doi.org/10.5281/zenodo.10706797
Abstract :
Pollution-induced degradation of water bodies
presents serious global environmental and public health
issues. Conventional water remediation techniques
frequently rely on mechanical or chemical treatments,
which can be expensive, energy-intensive, and harmful to
the environment. The current study presents an
innovative solution to these problems called the Solar
Water Body Cleaner (SWBC). The SWBC system
effectively cleans and purifies water bodies while
supporting sustainable aquatic ecosystem management by
combining cutting-edge solar- powered technology with
environmentally friendly filtration methods. The three
main parts of the SWBC are a smart monitoring system
that assesses the water quality in real time, a filter system
made of natural materials like sand and activated carbon,
and solar panels that generate sustainable energy. This
study offers a thorough analysis of the SWBC's
functionality, design, and field and lab experimentation
performance evaluation. The outcomes show how well the
SWBC works to remove a range of pollutants while
consuming the least amount of energy and operating
expenses. These pollutants include suspended solids,
organic contaminants, and heavy metals. Additionally, the
SWBC's capacity for remote monitoring and autonomous
operation improves its scalability for varying water body
sizes as well as its ability to adapt to a variety of
environmental circumstances. The results of this study
provide an economical, energy-efficient, and ecologically
benign approach to remediating water bodies, which
advances the field of sustainable water management.
Keywords :
Water Remediation, Solar Water Body Cleaners, Renewable Energy, Managing Aquatic Ecosystems, and Filtration Technologies. Protection of the Environment and Sustainability.
Pollution-induced degradation of water bodies
presents serious global environmental and public health
issues. Conventional water remediation techniques
frequently rely on mechanical or chemical treatments,
which can be expensive, energy-intensive, and harmful to
the environment. The current study presents an
innovative solution to these problems called the Solar
Water Body Cleaner (SWBC). The SWBC system
effectively cleans and purifies water bodies while
supporting sustainable aquatic ecosystem management by
combining cutting-edge solar- powered technology with
environmentally friendly filtration methods. The three
main parts of the SWBC are a smart monitoring system
that assesses the water quality in real time, a filter system
made of natural materials like sand and activated carbon,
and solar panels that generate sustainable energy. This
study offers a thorough analysis of the SWBC's
functionality, design, and field and lab experimentation
performance evaluation. The outcomes show how well the
SWBC works to remove a range of pollutants while
consuming the least amount of energy and operating
expenses. These pollutants include suspended solids,
organic contaminants, and heavy metals. Additionally, the
SWBC's capacity for remote monitoring and autonomous
operation improves its scalability for varying water body
sizes as well as its ability to adapt to a variety of
environmental circumstances. The results of this study
provide an economical, energy-efficient, and ecologically
benign approach to remediating water bodies, which
advances the field of sustainable water management.
Keywords :
Water Remediation, Solar Water Body Cleaners, Renewable Energy, Managing Aquatic Ecosystems, and Filtration Technologies. Protection of the Environment and Sustainability.
