Waste management in the solar photovoltaic sector

(MainsGS3:Science and Technology- developments and their applications and effects in everyday life.)

Context:

• In the last few years there has been a concerted push from policymakers and thought leaders in India to transition to a circular economy to enable effective waste management, however, waste management in the solar photovoltaic sector still lacks clear directives.

Policy announcements:

• There have been interesting policy announcements and initiatives vis-a-vis photovoltaic waste management, especially since last year.
•  For example, the Ministry of Environment, Forests and Climate Change’s revised electronic waste (e-waste) management Rules in 2022 brought solar photovoltaic cells, panels, and modules under its ambit. 
• Similarly, the Green Credit Programme under the Environmental Protection Act, announced in the 2022-2023 Union Budget, aimed to promote green growth and sustainable practices. 

Photovoltaic waste:

• Globally, India stands fourth in solar photovoltaic deployment and India’s solar power installed capacity had reached nearly 62 GW by November 2022. 
• While this is certainly encouraging, it also augurs a colossal amount of solar photovoltaic waste in future. 
• According to a 2016 report by the International Renewable Energy Agency, India could generate 50,000-3,25,000 tonnes of cumulative photovoltaic waste by 2030 and more than 4 million tonnes by 2050. 
• In fact, India is expected to become one of the top five leading photovoltaic waste producers globally by 2045-2050.
• India’s solar photovoltaic installations are dominated by crystalline silicon (c-Si) technology. 
• A typical photovoltaic panel is made up of 93% of c-Si modules and 7% of cadmium telluride (CdTe) thin film modules. 

Waste recovered or recycled:

• As these photovoltaic panels reach their end of lives, some portions of the frame are extracted and sold as scrap; junctions and cables are recycled according to e-waste guidelines; the glass laminate is partly recycled; and the rest is disposed of as general waste. 
• Silicon and silver can be extracted by burning the module in cement furnaces. 
• According to a 2021 report, approximately 50% of total materials can be recovered through such waste management and recycling processes.

Growing informal handling:

• India’s challenge is the growing informal handling of photovoltaic waste and only about 20% of the waste is recovered in general; the rest is treated informally, as a result, the waste often accumulates at landfills. 
• Landfill disposal in turn causes acidification, leaching of toxic metals (such as lead and cadmium) into the soil, and contaminates the local water. 
• Gradual incineration of the panel encapsulant also releases sulphur dioxide, hydrogen fluoride, and hydrogen cyanide into the atmosphere.
• With this in mind, India needs to surmount significant challenges – in the collection, storage, recycling, and repurposing of photovoltaic waste. 
• The growing number (and sizes) of India’s landfills is a sign of misinformation about and ignorance of appropriate disposal practices among multiple actors and institutions across the supply chain, including producers, owners, consumers, and waste disposal facilities.
• Further, the market to repurpose or reuse recycled photovoltaic waste is minuscule in India because of a lack of suitable incentives and schemes in which businesses can invest. 
• The absence of a body to measure, monitor, and report solar photovoltaic waste isn’t helping either.

Practice across the globe:

• The methods other countries have adopted to manage solar photovoltaic waste could be a good reference point for India to develop ‘Made in India’ manufacturing capabilities, recycling technologies, and waste management strategies in this field. 
• Many Western and Asian economies have well-established regulatory guidelines for photovoltaic waste management and are actively investing in building awareness on effective waste management practices.
• For example, the European Union’s ‘Waste Electrical and Electronic Equipment Directive’ makes producers responsible for safely and responsibly disposing of end-of-life photovoltaic panels.
• In the U.S., states have the freedom to establish their own solar photovoltaic regulatory standards. Its National Renewable Energy Laboratory is also exploring ways to boost the circular economy in the solar photovoltaic sector.
• Manufacturers in Japan are responsible for developing environment-friendly recycling technologies through public-private partnerships and launching awareness campaigns about their benefits.

Way forward:

• Simply clubbing photovoltaic waste with other e-waste could lead to confusion, thus India should formulate and implement provisions specific to photovoltaic waste treatment within the ambit of the e-waste guidelines. 
• The government should also build a legislative framework to enforce the Extended Producer Responsibility Rules and a Central insurance or a regulatory body should be set up to protect against financial losses incurred in waste collection and treatment.
• The waste generated from photovoltaic modules and their components is classified as ‘hazardous waste’ in India. 
• To further drive home the necessity of this label, pan-India sensitisation drives and awareness programmes on photovoltaic waste management will be beneficial. 
• Clear recycling targets and recycling rates in the photovoltaic waste management policy directive will be good as well.
• Considering India’s local solar photovoltaic-panel manufacturing is limited, we need to pay more attention to domestic R&D efforts. 
• Depending on a single module type will disuniformly deplete certain natural resources and stunt the local capacity for recycling and recovery of critical materials. 
• The domestic development of photovoltaic waste recycling technologies must be promoted through suitable regulatory incentives, recycling programmes, appropriate infrastructure facilities, and adequate funding.

Conclusion:

• It is encouraging that the latest production-linked incentive scheme promotes the domestic manufacturing of high-efficiency solar photovoltaic modules. 
• Now is the right time for it to install clear policy directives, well-established recycling strategies, and greater collaboration, so that it doesn’t find itself neck-deep in a new problem in future.