Context:
The rapid expansion of the Electric Vehicle (EV) market has significantly increased global copper demand, raising concerns about a structural supply deficit by 2026, potentially affecting decarbonisation goals and clean energy transitions.
Key Highlights:
Rising EV Sales and Copper Consumption
β’ Global EV sales:
β 0.55 million (2015) β ~20 million (2025 estimate).
β’ Copper consumption linked to EVs:
β 27.5 thousand tonnes (2015) β 1.28 million tonnes (2025).
Projected Supply Deficit
β’ 2024: Supply exceeds demand by ~0.3 million tonnes.
β’ 2026 Projection:
β Demand: 30 million tonnes
β Supply: 28 million tonnes
β Indicates a 2 million tonne shortfall.
Elasticity Trends
β’ Copper demand elasticity w.r.t. EV sales > 1.0 (2016β2024).
β’ Implies copper demand grows faster than EV adoption.
Geographical Concentration
β’ China accounts for ~60% of global EV-based copper demand.
β’ Controls over 70% of battery cell production.
β’ Strongly integrated EV supply chain.
Supply Constraints
β’ Declining ore grades.
β’ Long project gestation period (up to a decade).
β’ Environmental opposition in mining regions.
Relevant Prelims Points:
- Copper Uses:
β Electrical wiring
β EV motors and batteries
β Renewable energy infrastructure - EVs require 2β4 times more copper than conventional vehicles.
- Elasticity of Demand:
β Measures responsiveness of quantity demanded to change in another variable.
β Elasticity > 1 indicates proportionally larger response. - Major copper producers: Chile, Peru, China, DRC.
- Copper is critical for energy transition technologies including:
β Solar panels
β Wind turbines
β Power grids - Decarbonisation refers to reduction of carbon emissions through clean energy transition.
Relevant Mains Points:
- Economic Implications
β’ Supply shortages may increase copper prices, raising EV production costs.
β’ Could slow EV adoption and delay climate commitments.
β’ Trade imbalances may deepen due to supply concentration. - Strategic & Geopolitical Concerns
β’ Chinaβs dominance in battery and copper-linked supply chains increases strategic vulnerability for other nations.
β’ Resource nationalism and mining regulations may affect global markets. - Environmental Dimension
β’ Mining expansion may cause:
β Deforestation
β Water stress
β Social displacement
β’ Tension between green transition and extractive environmental costs. - Indiaβs Perspective
β’ Indiaβs EV push under FAME scheme and energy transition goals may be impacted.
β’ Need for securing critical mineral supply chains.
β’ Scope for recycling and circular economy models.
Way Forward:
β’ Diversification of supply sources.
β’ Investment in copper recycling and urban mining.
β’ Strategic mineral reserves.
β’ Technological innovation to reduce copper intensity.
β’ International cooperation on critical minerals security.
UPSC Relevance
β’ GS 3 β Economy: Industrial demand, supply constraints, price volatility.
β’ GS 3 β Environment: Energy transition, decarbonisation.
β’ GS 3 β Science & Technology: EV technology, battery ecosystem.
β’ Prelims: Elasticity, critical minerals, renewable energy infrastructure.