Goldman Sachs predicts copper demand for low-carbon technologies will grow to 5.4 million tonnes by 2030, up from around 1 million tonnes in 2021.
Meanwhile, the number of operating mines and proposed projects are not meeting projected demand and the supply scenario looks quite constrained over the medium term.
The following content is sponsored by Teck
Climate change is top of mind for much of the world's population.
The transition to renewable energy and electrification will require tons of metals, and copper is considered the most essential.
The above infographic from Teck outlines copper's role in low-carbon technologies, highlighting why the red metal is essential for a low-carbon future.
Why Copper?
Copper has been an essential material to man since prehistoric times. In fact, it is the oldest metal known, dating back more than 10,000 years and one of the most used because of its versatility.
The metal has four key properties that make it ideal for energy storage, propulsion for electrical vehicles (EVs), and renewable energy:
- Conductivity: Copper has the highest electrical conductivity rating of all non-precious metals.
- Ductility: Copper can easily be shaped into pipes, wires or sheets.
- Efficiency: Copper's thermal efficiency is about 60% greater than aluminum, so it can remove heat far more rapidly.
- Recyclability: Copper is 100% recyclable and can be used repeatedly without any loss of performance.
In addition to its unique properties, copper remains relatively affordable, making it a key part of the energy transition.
A Cornerstone of the EV Revolution
EVs can use up to four times as much copper when compared to an internal combustion engine (ICE) passenger car. The amount goes up as the size of the vehicle increases: a fully electric bus uses between 11 and 18 times more copper than an ICE passenger vehicle.
Copper is used in every major EV component, from the motor to the inverter and the electrical wiring. In fact, a fully electric vehicle can use up to a mile of copper wiring.
Currently, there are few alternatives to copper. Aluminum is the closest one, but despite it being lighter and almost three times cheaper, aluminum cables require double the size of any copper equivalent to conduct the same amount of electricity.
The Most Essential Metal for Renewable Energy
Copper is an essential element for almost all electricity-related technologies. According to the Copper Alliance, renewable energy systems can require up to 12x more copper compared to traditional energy systems.
| Technology | 2020 Installed Capacity (megawatts) | Copper Content (2020, tonnes) | 2050p Installed Capacity (megawatts) | Copper Content (2050p, tonnes) |
|---|---|---|---|---|
| Solar PV | 126,735 MW | 633,675 | 372,000 MW | 1,860,000 |
| Onshore Wind | 105,015 MW | 451,565 | 202,000 MW | 868,600 |
| Offshore Wind | 6,013 MW | 57,725 | 45,000 MW | 432,000 |
By 2050, annual copper demand from wind and solar technologies could exceed 3 million tonnes or around 15% of 2020 global copper production.
The Race for Copper
Goldman Sachs predicts copper demand for low-carbon technologies will grow to 5.4 million tonnes by 2030, up from around 1 million tonnes in 2021.
Meanwhile, the number of operating mines and proposed projects are not meeting projected demand and the supply scenario looks quite constrained over the medium term.
"We have deficits over the course of 2021 and next year. Inventories will be run down to very low levels, we believe, by the middle of 2022."
—Nick Snowdon, Commodities Strategist, Goldman Sachs
As the transition to renewable energy and electrification speeds up, so will the pressure for new copper projects in the pipeline.
Teck is one of Canada's leading mining companies committed to responsibly producing copper needed for a low-carbon future.
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