Kolkata: A group of researchers from IIT Kharagpur has been conferred the ‘Gandhian Young Technological Innovation (GYTI) Awards 2020’. It has been done for developing a mechanism for generating electricity from wet clothes left under sunlight to dry. This information was given Monday by a spokesperson of IIT Kharagpur. Another team from IIT Kharagpur was separately granted the same award for addressing the problem of energy conservation and thermal management.
Congratulating the researchers, IIT Kharagpur director Prof Virendra Tewari said, “We still have sectors which need sourcing and efficient management of clean energy to meet our augmented power requirements, even in the remote areas.”
The ‘Gandhian Young Technological Innovation (GYTI) Awards’ was instituted by the ‘Society for Research and Initiatives for Sustainable Technologies and Institution’ (SRISTI), a voluntary organization.
SRISTI said that GYTI award celebrates the spirit of student innovation in all the fields of engineering, science, technology and design through extremely affordable/frugal solution or the ones pushing the technological edge.
The spokesperson said that Professor Suman Chakraborty, Professor Partha Saha and Dr Aditya Bandopadhyay from the Department of Mechanical Engineering have been awarded for their work – ‘Electrical power generation from wet textile’.
Prof Sunando Dasgupta and his team from the Department of Chemical Engineering have also been awarded for their work – ‘Smart, flexible, and multi-functional thermal and energy management systems for next-generation electronic devices’.
The novelty of the first innovation, the nano-electricity generator, is in its frugal means instead of energy harvesting from complex resources, the spokesperson said.
The device has been tested in a remote village where around 50 wet clothes were left for drying by washermen. These clothes were connected to a commercial super-capacitor which discharged electricity of around 10 volt. This stored energy is enough to glow a white LED bulb for more than an hour.
“The clothes we wear are made from cellulose-based textile which has a network of nano-channels. Ions in saline water can move through this interlace fibrous nano-scale network by capillary action inducing an electric potential in the process,” explained the researchers from the department of mechanical engineering.