LowCarbonPower logo
Instagram Facebook X (Twitter)

Electricity in Russia in 2024

3,001 kWh/person Low-Carbon Electricity
-34 #63
8,351 kWh/person Total Electricity
+249 #76
384 gCO2eq/kWh Carbon Intensity
+27 #129
36 % Low-Carbon Electricity
-3.9 #111

Russia's current electricity consumption reflects a heavy reliance on fossil fuels, constituting over 64% of the total mix, with gas alone accounting for almost 45% and coal for nearly 19%. Low-carbon energy sources contribute approximately 36% to the electricity mix, with nuclear power generating about 18% and hydropower close to 17%. This split indicates an ongoing dependency on fossil fuels, which has significant implications for climate change and air pollution. Therefore, a shift toward more sustainable low-carbon sources is essential for reducing environmental impacts and ensuring energy security.

Is Electricity Growing in Russia?

The growth of electricity consumption in Russia appears promising, with the latest data showing an increase to 8,351 kWh per person, a rise of 249 kWh/person from the previous year. However, despite this overall growth, there is a slight setback in low-carbon electricity generation, which decreased to 3,001 kWh/person from a previous high in 2021. This decline of 34 kWh/person raises concerns about the commitment to expanding clean energy sources, which are vital for a sustainable future. Maintaining and enhancing low-carbon generation is crucial for meeting increasing electricity demand while minimizing environmental impact.

Suggestions

To boost low-carbon electricity generation, expanding nuclear energy is a practical step for Russia due to its already significant contribution. Learning from countries like France and Slovakia, which generate 68% and 62% of their electricity from nuclear power respectively, Russia can strategize on scaling up its nuclear capacity. Additionally, incorporating insights from Denmark and Iowa, which achieve more than half of their electricity from wind power, Russia could explore opportunities in wind energy, tailoring these solutions to its geographic and economic conditions. This dual approach of leveraging nuclear and potentially expanding into solar and wind can set Russia on a path toward a more robust and clean energy future.

Overall Generation
Renewable & Nuclear

History

Historically, Russia's low-carbon electricity generation has seen phases of growth and decline over the years. The late 1980s observed significant increases in nuclear power, with considerable contributions in 1987 and 1988, but faced downturns in subsequent years, like in 1990 and again in 1994 when there were notable decreases. In the 1990s, improvements were met with fluctuations but gained momentum in the late 1990s with nuclear rebounds. The 2000s maintained an uneasy balance, with hydro experiencing both gains and setbacks. However, the past decade showed positive strides, notably with substantial hydro growth in 2013, 2016, and 2020, though recent hydro declines pose challenges. A more focused strategy on sustainable and reliable low-carbon sources like nuclear and solar would better secure energy stability.

Electrification

We estimate the degree of electrification by comparing electricity and total energy emissions. More about methodology.

Electricity Imports and Exports

Balance of Trade

Data Sources

For the years 1985 to 1989 the data source is Energy Institute .
For the years 1990 to 2010 the data source is IEA .
For the years 2011 to 2013 the data sources are Energy Institute and IEA (imports/exports) .
For the years 2014 to 2017 the data source is IEA .
For the years 2018 to 2019 the data sources are IEA and IEA (imports/exports) .
For the year 2020 the data sources are Energy Institute and IEA (imports/exports) .
For the years 2021 to 2023 the data sources are Energy Institute and Ember (imports/exports) .
For the year 2024 the data source is Ember .
For the months 2024-04 to 2025-03 the data source is Ember .
Instagram Facebook X (Twitter)