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IIT Mandi Researchers Conduct Comprehensive Life Cycle Assessment of Solar Cell Technologies

The study offers valuable insights for investors and policymakers to improve the environmental performance of solar technologies in India

Video Link:

https://drive.google.com/drive/u/0/folders/1amSzn4UStKLQBZxqZS0laMBiH5fJyPMb

MANDI, 18th July 2024: Indian Institute of Technology Mandi researchers have performed a comprehensive Life Cycle Assessment (LCA) of five solar cell technologies to identify the most sustainable and profitable options for solar energy production in India. The research addresses the critical need for efficient and environmentally friendly solar power systems tailored to Indian conditions.

This pioneering study, co-authored by Dr. Atul Dhar and Dr. Satvasheel Ramesh Powar, Associate Professors in the School of Mechanical and Materials Engineering, IIT Mandi, along with Dr. Shweta Singh, has been published in the prestigious Journal of Environmental Management. The study offers valuable insights for investors and policymakers to improve the environmental performance of solar technologies in India.

Between 2010 and 2020, India advanced in clean energy to meet its Paris and Copenhagen commitments, driven by initiatives such as the Jawaharlal Nehru National Solar Mission. However, COVID-19 disrupted the solar supply chain, delaying INR 160 billion worth of projects. Post-COP-26, India's focus shifted to green solar manufacturing to enhance supply chain reliability, energy security, and decarbonization, aligning with UN clean energy goals.

Understanding the advantages and disadvantages of various solar technologies is crucial for establishing effective solar power systems in India. While numerous studies have been conducted globally, most have evaluated impact categories such as Global Warming Potential (GWP) and Energy Payback Time (EPBT). Other critical impact categories, such as human toxicity and ozone depletion, are often overlooked, and not many studies have assessed these technologies under Indian conditions.

Highlighting the importance of the study, Dr. Atul Dhar, Associate Professor, School of Mechanical and Materials Engineering, IIT Mandi, said, "Our study provides a detailed environmental analysis of dominant solar PV technologies in the Indian market. Although solar PV systems are environmentally friendly compared to fossil fuels during their operational phase, they do have significant environmental impacts during the manufacturing and usage phases."

The researchers evaluated the environmental impacts of the five solar energy technologies using Indian manufacturing conditions, including:

Mono-silicon
Polysilicon
Copper Indium Gallium Selenide (CIGS)
Cadmium Telluride (CdTe)
Passivated Emitter and Rear Contact (PERC)

The research team performed a cradle-to-gate analysis using the Life Cycle Assessment tool, which included eighteen environmental impact categories. These categories covered essential aspects such as global warming, stratospheric ozone depletion, human carcinogenic and non-carcinogenic toxicity, and fine particulate matter formation, from raw material extraction to solar panel manufacturing.

The researchers found that CdTe technology exhibited the lowest environmental impact among the five technologies studied. It had the least carbon dioxide emissions, ozone depletion potential, human health effects, and particulate air pollution. This was closely followed by CIGS PV cells.

Speaking about the implications of this research, Dr. Satvasheel Ramesh Powar, Associate Professor, School of Mechanical and Materials Engineering, IIT Mandi, said, "The Life Cycle Assessment of solar module technologies can help identify the most sustainable technology that balances economic, social, and environmental benefits. Our findings can guide policymakers to promote the most sustainable technologies, boosting the low-carbon economy and reducing the environmental impact of solar energy production."

Moreover, the researchers acknowledged that their study only examined a portion of the solar technology life cycle, excluding the recycling and end-of-life phases, which encompass use, disposal, and recycling of the products. They plan to investigate these phases in future research

About IIT Mandi

IIT Mandi has nine Academic Schools and five major Research Centers. The Schools are the School of Biosciences and Bioengineering (SBBE), School of Chemical Sciences (SCS), School of Mathematical and Statistical Sciences (SMSS), School of Physical Sciences (SPS), School of Mechanical and Materials Engineering (SMME), School of Civil and Environmental Engineering (SCENE), School of Computing and Electrical Engineering (SCEE), School of Humanities and Social Sciences (SHSS), and School of Management (SOM). The Centers are the Advanced Materials Research Centre (AMRC), Centre for Design and Fabrication of Electrical Devices (C4DFED), BioX Centre, Indian Knowledge System and Mental Health Applications Centre (IKSMHA Centre) and Centre for Artificial Intelligence and Robotics.

The Institute offers B.Tech. programs in seven different streams, one M.A. program, ten M.Tech. programs, nine Ph.D. programs, and one Ph.D. program. The unique, project-oriented B.Tech. curriculum is centered around its 4-year long Design and Innovation stream. Since the inception of the Institute, IIT Mandi faculty have been involved in over 275 Research and Development (R&D) projects worth more than Rs. 120 crores.

IIT Mandi established the IIT Mandi iHub and HCI Foundation (iHub; a section-8 company) on its campus at Kamand with significant funding of INR 110 crores from the Department of Science and Technology (DST), Government of India. The iHub is planned to fuel research and technology development, skill development, startup and innovation, and collaborations in India's HCI and allied AI/ML areas. 

 

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