Who’s Still Buying Fossil Fuels From Russia?
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Who’s Still Buying Fossil Fuels From Russia?

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Countries importing fossil fuels from russia since the start of the war

The Largest Importers of Russian Fossil Fuels Since the War

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Despite looming sanctions and import bans, Russia exported $97.7 billion worth of fossil fuels in the first 100 days since its invasion of Ukraine, at an average of $977 million per day.

So, which fossil fuels are being exported by Russia, and who is importing these fuels?

The above infographic tracks the biggest importers of Russia’s fossil fuel exports during the first 100 days of the war based on data from the Centre for Research on Energy and Clean Air (CREA).

In Demand: Russia’s Black Gold

The global energy market has seen several cyclical shocks over the last few years.

The gradual decline in upstream oil and gas investment followed by pandemic-induced production cuts led to a drop in supply, while people consumed more energy as economies reopened and winters got colder. Consequently, fossil fuel demand was rising even before Russia’s invasion of Ukraine, which exacerbated the market shock.

Russia is the third-largest producer and second-largest exporter of crude oil. In the 100 days since the invasion, oil was by far Russia’s most valuable fossil fuel export, accounting for $48 billion or roughly half of the total export revenue.

Fossil fuelRevenue from exports (Feb 24 - June 4)% of total Russian fossil fuel export revenue
Crude oil$48.3B49.4%
Pipeline gas$25.2B25.8%
Oil products$13.6B13.9%
Liquified Natural Gas (LNG)$5.4B5.5%
Coal$5.0B5.1%
Total$97.7B100%

While Russian crude oil is shipped on tankers, a network of pipelines transports Russian gas to Europe. In fact, Russia accounts for 41% of all natural gas imports to the EU, and some countries are almost exclusively dependent on Russian gas. Of the $25 billion exported in pipeline gas, 85% went to the EU.

The Top Importers of Russian Fossil Fuels

The EU bloc accounted for 61% of Russia’s fossil fuel export revenue during the 100-day period.

Germany, Italy, and the Netherlands—members of both the EU and NATO—were among the largest importers, with only China surpassing them.

CountryValue of fossil fuel imports from Russia (Feb 24 - Jun 4)% of Russian fossil fuel export revenue
🇨🇳 China$13.2B13.5%
🇩🇪 Germany$12.7B12.9%
🇮🇹 Italy$8.2B8.4%
🇳🇱 Netherlands$8.2B8.4%
🇹🇷 Turkey$7.0B7.2%
🇵🇱 Poland$4.6B4.7%
🇫🇷 France$4.5B4.6%
🇮🇳 India$3.6B3.7%
🌍 Other$35.7B36.5%
Total$97.7B100%

China overtook Germany as the largest importer, importing nearly 2 million barrels of discounted Russian oil per day in May—up 55% relative to a year ago. Similarly, Russia surpassed Saudi Arabia as China’s largest oil supplier.

The biggest increase in imports came from India, buying 18% of all Russian oil exports during the 100-day period. A significant amount of the oil that goes to India is re-exported as refined products to the U.S. and Europe, which are trying to become independent of Russian imports.

Reducing Reliance on Russia

In response to the invasion of Ukraine, several countries have taken strict action against Russia through sanctions on exports, including fossil fuels. 

The U.S. and Sweden have banned Russian fossil fuel imports entirely, with monthly import volumes down 100% and 99% in May relative to when the invasion began, respectively.

importers of russian fossil fuels

On a global scale, monthly fossil fuel import volumes from Russia were down 15% in May, an indication of the negative political sentiment surrounding the country.

It’s also worth noting that several European countries, including some of the largest importers over the 100-day period, have cut back on Russian fossil fuels. Besides the EU’s collective decision to reduce dependence on Russia, some countries have also refused the country’s ruble payment scheme, leading to a drop in imports.

The import curtailment is likely to continue. The EU recently adopted a sixth sanction package against Russia, placing a complete ban on all Russian seaborne crude oil products. The ban, which covers 90% of the EU’s oil imports from Russia, will likely realize its full impact after a six-to-eight month period that permits the execution of existing contracts.

While the EU is phasing out Russian oil, several European countries are heavily reliant on Russian gas. A full-fledged boycott on Russia’s fossil fuels would also hurt the European economy—therefore, the phase-out will likely be gradual, and subject to the changing geopolitical environment.

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Energy

Visualizing the New Era of Energy

This infographic explores the exponential growth of the technologies that are shaping the new era of energy.

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The following content is sponsored by Surge Battery Metals
new era of energy

The New Era of Energy

Energy is the pulse of our daily lives, powering everything from our homes to our cars and electronic gadgets. 

Over the last two decades, there’s been an ongoing shift in how we produce and consume energy, largely due to rising climate awareness among both governments and consumers.

The above infographic from Surge Battery Metals highlights the increasing uptake of clean energy technologies and explains the need for the raw materials that power them. This is part two of three infographics in the Energy Independence Series.

The Growth of Clean Energy

Government policies, falling production costs, and climate consciousness have all contributed to the exponential adoption of green energy technologies. 

For example, only a few countries were actively encouraging EV adoption a decade ago, but today, millions of consumers can take advantage of EV tax concessions and purchase subsidies with governments committed to phasing out internal combustion engines. Partly as a result, electric vehicles (EVs) are well on their way to mainstream adoption. 

Here’s a look at how the number of electric cars on the road has grown since 2011, including both battery EVs and plug-in hybrids:

Country/Region2011 Electric Car Stock2021 Electric Car Stock
China10,0007,800,000
Europe20,0005,500,000
U.S.20,0002,000,000
Other20,0001,100,000
Total70,00016,400,000

In 2021, the global electric car stock stood at around 16.4 million cars, up by around 60% from 2020. EV sales also more than doubled to reach 6.8 million units.

Alongside electric cars, renewable energy technologies are also on the road to dominating the global energy mix. In 2021, renewables accounted for 16% of global energy consumption—up from just 8% in 2000. This growth is largely down to solar and wind energy, which made up the majority of new renewable capacity additions:

YearNet Renewable Capacity Additions
(gigawatts)
Solar PV
% Share
Wind
% Share
2011109.428%36%
2012116.425%40%
2013122.930%27%
2014135.130%37%
2015159.731%42%
2016171.344%30%
2017174.855%27%
2018179.354%28%
2019193.856%31%
2020280.248%40%
2021288.954%31%

Every year since 2018, solar and wind have accounted for more than 80% of new renewable capacity additions, contributing to the record-breaking growth of clean energy. 

Despite this growth, the IEA projects that both EVs and renewables need to expand their reach significantly if the world is to achieve net-zero emissions by 2050. Electric car sales need to hit 56 million units by 2030—more than eight times the 6.6 million cars sold in 2021. Similarly, solar PV and wind additions need to quadruple by 2030 from 2021 levels. 

This new era of clean energy will require an increase in the supply of EVs, solar panels, wind turbines, and batteries, which translates into more demand for the unnoticed raw materials behind these technologies.

The Metals Behind Clean Energy

From copper in cables to lithium in batteries, some metals are key to building and growing clean energy capacity. 

In fact, for every megawatt of capacity, solar photovoltaic farms use more than 2,800 kg of copper according to the IEA. Offshore wind farms, which are connected to land by massive undersea cables, use even more copper at 8,000 kg per megawatt. Similarly, electric cars use lithium-ion batteries, which are composed of a variety of minerals, including graphite, copper, nickel, and lithium.

While the demand for these clean energy minerals is skyrocketing, their supply remains a concern, with China dominating the supply chains. In the new era of energy, domestic supplies of these materials will be key to ensuring energy independence and lower reliance on foreign imports.

In the next part of the Energy Independence Series sponsored by Surge Battery Metals, we will explore how the U.S. can build an Energy-Independent Future by developing domestic raw material and battery supply chains.

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Visualizing U.S. Greenhouse Gas Emissions by Sector

The U.S. emits about 6 billion metric tons of greenhouse gases a year. Here’s how these emissions rank by sector.

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The following content is sponsored by National Public Utilities Council.


Visualizing U.S. Emissions by Sector

Decarbonization efforts in the U.S. are ramping up, and in 2020, greenhouse gas (GHG) emissions were lower than at any point during the previous 30 years.

However there’s still work to be done before various organizations, states, and nationwide targets are met. And when looking at GHG emissions by sector, the data suggests that some groups have more work cut out for them than others.

This graphic from the National Public Utilities Council provides the key data and trends on the total emissions by U.S. sector since 1990.

The Highest Emitting Sectors

Collectively, the U.S. emitted 5,981 million metric tons (MMT) of CO2-equivalent (CO2e) emissions in 2020, which rose 6.1% in 2021.

Here’s how the various sectors in the U.S. compare.

Sector2020 GHG emissions, MMT CO2ePercentage of Total
Transportation1,627.627%
Electricity generation1,482.625%
Industry1,426.224%
Agriculture635.111%
Commercial425.37%
Residential362.06%
U.S. territories23.0<1%

The transportation sector ranks highest by emissions and has been notably impacted by the COVID-19 pandemic, which is still affecting travel and supply chains. This has led to whipsawing figures during the last two years.

For instance, in 2020, the transportation sector’s emissions fell 15%, the steepest fall of any sector. But the largest increase in emissions in 2021 also came from transportation, which is largely credited to the economic and tourism recovery last year.

Following transportation, electricity generation accounted for a quarter of U.S. GHG emissions in 2020, with fossil fuel combustion making up nearly 99% of the sector’s emissions. The other 1% includes waste incineration and other power generation technologies like renewables and nuclear power, which produce emissions during the initial stages of raw material extraction and construction.

Decarbonizing the Power Sector

The Biden Administration has set a goal to make the U.S. power grid run on 100% clean energy by 2035—a key factor in achieving the country’s goal of net zero emissions by 2050.

Industrial factories, commercial buildings, and homes all consume electricity to power their machinery and appliances. Therefore, the power sector can help reduce their carbon footprint by supplying more clean electricity, although this largely depends on the availability of infrastructure for transmission.

Here’s how sectors would look if their respective electricity end-use is taken into account

SectorEmissions by Sector % of Total
Agriculture11%
Transportation27%
Industry30%
Residential & Commercial30%

Percentages may not add up to 100% due to independent rounding

With these adjustments, the industrial, commercial, and residential sectors experience a notable jump, and lead ahead of other categories

Today, the bulk of electricity generation, 60%, comes from natural gas and coal-fired power plants, with nuclear, renewables, and other sources making up 40% of the total.

Energy Source2020 Electric generation, billion kWhShare of total
Natural Gas1,57538.3%
Coal89921.8%
Nuclear77818.9%
Wind3809.2%
Hydropower2606.3%

However, progress and notable strides have been made towards sustainable energy. In 2021, renewables accounted for one-fifth of U.S. electricity generation, roughly doubling their share since 2010.

Coal’s share as a source of electric power has dropped dramatically in recent years. And partially as a result, electricity generation has seen its portion of emissions successfully decrease by 21% , with overall emissions falling from 1,880 million metric tons of CO2 to 1,482 million metric tons.

How Utilities Can Lead the Way

Should these trends persist, the electricity generation sector has a chance to play a pivotal role in the broader decarbonization initiative. And with the bulk of electricity generation in the U.S. coming from investor-owned utilities (IOUs), this is a unique opportunity for IOUs to lead the transition toward cleaner energy.

The National Public Utilities Council is the go-to resource to learn how utilities can lead in the path towards decarbonization.

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