06 May,2021 03:18 PM IST | New Delhi | IANS
The photo is for representational purpose only
Supplies of critical minerals essential for key clean energy technologies like electric vehicles need to pick up sharply over the coming decades to meet the world's climate goals, creating potential energy security hazards that governments must act now to address, a new report by the International Energy Agency (IEA) said on Wednesday.
The special report, The Role of Critical Minerals in Clean Energy Transitions, is the most comprehensive global study to date on the central importance of minerals such as copper, lithium, nickel, cobalt and rare earth elements in a secure and rapid transformation of the global energy sector.
Building on the IEA's longstanding leadership role in energy security, the report recommends six key areas of action for policy makers to ensure that critical minerals enable an accelerated transition to clean energy rather than becoming a bottleneck.
"Today, the data shows a looming mismatch between the world's strengthened climate ambitions and the availability of critical minerals that are essential to realising those ambitions," said IEA Executive Director Fatih Birol.
"The challenges are not insurmountable, but governments must give clear signals about how they plan to turn their climate pledges into action. By acting now and acting together, they can significantly reduce the risks of price volatility and supply disruptions."
"Left unaddressed, these potential vulnerabilities could make global progress towards a clean energy future slower and more costly -- and therefore hamper international efforts to tackle climate change," Birol said.
"This is what energy security looks like in the 21st century, and the IEA is fully committed to helping governments ensure that these hazards don't derail the global drive to accelerate energy transitions."
The special report, part of the IEA's flagship World Energy Outlook series, underscores that the mineral requirements of an energy system powered by clean energy technologies differ profoundly from one that runs on fossil fuels.
A typical electric car requires six times the mineral inputs of a conventional car, and an onshore wind plant requires nine times more mineral resources than a similarly sized gas-fired power plant.
Demand outlooks and supply vulnerabilities vary widely by mineral, but the energy sector's overall needs for critical minerals could increase by as much as six times by 2040, depending on how rapidly governments act to reduce emissions.
Not only is this a massive increase in absolute terms, but as the costs of technologies fall, mineral inputs will account for an increasingly important part of the value of key components, making their overall costs more vulnerable to potential mineral price swings.
The commercial importance of these minerals also grow rapidly. Today's revenue from coal production is 10 times larger than from energy transition minerals. However, in climate-driven scenarios, these positions are reversed well before 2040.
To produce the report, the IEA built on its detailed, technology-rich energy modelling tools to establish a unique database showing future mineral requirements under varying scenarios that span a range of levels of climate action and 11 different technology evolution pathways.
In climate-driven scenarios, mineral demand for use in batteries for electric vehicles and grid storage is a major force, growing at least 30 times to 2040. The rise of low-carbon power generation to meet climate goals also means a tripling of mineral demand from this sector by 2040.
Wind takes the lead, bolstered by material-intensive offshore wind. Solar PV follows closely, due to the sheer volume of capacity that is added. The expansion of electricity networks also requires a huge amount of copper and aluminum.
Unlike oil -- a commodity produced around the world and traded in liquid markets -- production and processing of many minerals such as lithium, cobalt and some rare earth elements are highly concentrated in a handful of countries, with the top three producers accounting for more than 75 per cent of supplies.
Complex and sometimes opaque supply chains also increase the risks that could arise from physical disruptions, trade restrictions or other developments in major producing countries.
In addition, while there is no shortage of resources, the quality of available deposits is declining as the most immediately accessible resources are exploited.
Producers also face the necessity of stricter environmental and social standards.
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