A Research on: Atmospheric Water Extraction and Generation
Aasanti Santosh Muppidwar1, Vedanti Anil Wankhade2, Rohit Pralhad Chandre3, Vaishanvi Pradip Napte4, Samiksha Vilasrao Shekdar5, Satish Ramesh Ingale6, Dr. Vijay G. Neve7,
Undergraduate Students1,2,3,4,5,6, Professor and Head of Department7 (Guide),
Department of Electrical Engineering, Jagadambha College of Engineering and Technology, Yavatmal 445001, Maharashtra, India
Author: aasantimuppidwar@gmail.com, vedantiwankhade2003@gmail.com, chandrerohit2003@gmail.com, naptevaishanvi97@gmail.com, samikshashekdar7@gmail.com, satishingale387@gmail.com, vijayneve139@gmail.com,
1. Abstract
Water scarcity is a significant worldwide issue, particularly in isolated and arid regions with little access to conventional water sources. The goal of this research is to create a sustainable and effective method for removing and creating drinkable water from the atmosphere. Using cutting-edge techniques like condensation and moisture-absorbing polymers, the device will efficiently absorb water vapor and transform it into liquid water. Through the use of renewable energy sources like solar and wind, technology will promote sustainability and lower energy costs. Additionally, evaluating different materials, creating scalable designs appropriate for a variety of climates, and enhancing water collection efficiency are also part of the research. To maximize performance, experimental research and computer simulations will be carried out. An innovative, low-energy, and environmentally friendly water harvesting device that can supply drinkable water in water-scarce areas is the anticipated result. This concept offers a practical way to address climate change and water scarcity while also supporting global water sustainability initiatives.
Keywords: Atmospheric water generation, water scarcity, condensation, clean drinking water, renewable energy, climate resilience, and moisture-absorbing materials.
