AI's Dual Role in Energy Consumption and Efficiency
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AI's Dual Role in Energy Consumption and Efficiency

Summary

While artificial intelligence significantly increases global energy consumption, it also offers solutions to enhance energy efficiency across various sectors.

Artificial intelligence (AI) is contributing to a notable rise in global energy consumption, with data centers—integral to AI operations—accounting for approximately 1.5% of worldwide electricity use in 2024. This figure is projected to more than double by 2030, reaching around 945 terawatt-hours, or nearly 3% of global electricity consumption.

Despite these concerns, AI is being leveraged to improve energy efficiency and reduce pollution. In building management, AI systems can autonomously adjust lighting, ventilation, heating, and cooling based on real-time data, potentially decreasing energy consumption by 10% to 30%.

In the transportation sector, AI optimizes electric vehicle charging schedules, shifting energy use to off-peak times when demand and rates are lower. This approach not only reduces costs but also lessens the strain on the power grid.

AI applications extend to the oil and gas industry, where they help minimize methane emissions—a potent greenhouse gas—by optimizing operations and reducing the need for flaring and venting.

Furthermore, AI aids in identifying viable geothermal energy sites by analyzing subsurface data, thereby promoting the development of renewable energy sources.

In urban settings, AI-driven traffic management systems adjust traffic light timings to reduce congestion, leading to lower vehicle emissions and improved air quality.

While AI's energy demands are substantial, its capacity to enhance efficiency and support sustainable practices presents a complex but promising landscape for future energy management.

Source

AP News

Fact-checking

Fact-check the facts of the article using external sources and databases.

Confirmed

Data centers accounted for approximately 1.5% of worldwide electricity use in 2024.

Confirmed

This figure is projected to more than double by 2030, reaching around 945 terawatt-hours, or nearly 3% of global electricity consumption.

!
Unverified

AI systems in building management can autonomously adjust lighting, ventilation, heating, and cooling based on real-time data, potentially decreasing energy consumption by 10% to 30%.

Confirmed

In the transportation sector, AI optimizes electric vehicle charging schedules, shifting energy use to off-peak times when demand and rates are lower.

!
Unverified

AI applications extend to the oil and gas industry, where they help minimize methane emissions—a potent greenhouse gas—by optimizing operations and reducing the need for flaring and venting.

!
Unverified

AI aids in identifying viable geothermal energy sites by analyzing subsurface data, thereby promoting the development of renewable energy sources.

Confirmed

In urban settings, AI-driven traffic management systems adjust traffic light timings to reduce congestion, leading to lower vehicle emissions and improved air quality.

Confirmed

While AI's energy demands are substantial, its capacity to enhance efficiency and support sustainable practices presents a complex but promising landscape for future energy management.

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