Solar Energy to Boost Demand for Base Metals
Base Metals Wood Mackenzie

Solar Energy to Boost Demand for Base Metals

According to a new report from Wood Mackenzie, solar power will have a significant impact on demand for aluminium, copper, and zinc, with

According to a new report from Wood Mackenzie, solar power will have a significant impact on demand for aluminium, copper, and zinc, with the usage of all three metals in the sector set to double by 2040. However, as governments fulfil their commitments to limit global warming to 2 °C and beyond, the need for solar power will become greater and demand for several base metals is expected to surge. Kamil Wlazly, Wood Mackenzie Senior Research Analyst, said: “Base metals are an integral component of solar power systems. A typical solar panel installation requires aluminium for the front frame and a combination of aluminium and galvanised steel (zinc) for structural parts. Copper is used in high and low voltage transmission cables and thermal solar collectors. Falling production costs and efficiency gains have driven down the price of solar power around the world. As a result, solar has become cheaper than any other technology in many parts of the US and several other countries across the globe. As costs continue to fall, solar’s share of power supply will rise and begin to displace other forms of generation. This presents a huge opportunity for the base metals sector.”

In Wood Mackenzie’s base case scenario, which is broadly consistent with a 2.8-3 degree Celcius global warming view, aluminium demand from solar technologies sits at around 2.4 million tonnes for 2020. This is expected to rise to 4.6 Mt by 2040. However, under Wood Mackenzie’s proprietary Accelerated Energy Transition-2 (AET-2) and Accelerated Energy Transition-1.5 (AET-1.5) scenarios, consumption growth will range from 8.5 Mt to 10 Mt by 2040. To put this into perspective, in Wood Mackenzie’s AET-1.5 scenario, demand from the solar sector would increase from just under 3% of total aluminium consumption in 2020 to a considerable 12.6% in 2040.

Copper consumption is also expected to register notable gains from solar power generation, particularly photovoltaic (PV) systems. Wood Mackenzie’s base case scenario puts copper demand from solar at 0.4 Mt in 2020, and this is expected to rise to almost 0.7 Mt by 2040. Meanwhile, under Wood Mackenzie’s AET-2 and AET-1.5 scenarios, copper consumption from solar is expected to increase to around 1.3 Mt and 1.6 Mt, respectively, by 2040.

With large-scale solar power plants estimated to have a workable life of at least 30 years, only zinc coatings can offer low-cost corrosion protection for such lengthy periods. Wood Mackenzie estimates that solar power installations currently account for approximately 0.4 Mt of global zinc consumption, with this number projected to grow to 0.8 Mt by 2040 in Wood Mackenzie’s base case. Under Wood Mackenzie’s AET-2 and AET-1.5 scenarios, consumption growth will range from 1.7 Mt to 2.1 Mt, respectively, by 2040.

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