To help dodge sanctions, Russia had demanded that by the start of this month, members of the European Union begin paying for the natural gas it was buying in rubles rather than dollars or euros, threatening to cut off supplies if they didn’t. And the recent revelation of atrocities committed by the Russian military in Ukraine have renewed calls to boycott Russian gas, an action European countries are struggling to figure out how to implement.
Even before all this, just a week after Russia’s invasion of Ukraine began, the International Energy Agency (IEA) issued a press release titled, “How Europe can cut natural gas imports from Russia significantly within a year.” The IEA’s 10-point plan includes strategies for replacing Russian gas (which represents nearly 40 percent of all the natural gas the EU consumes) with other energy sources and for reducing demand.
The first of the IEA’s prescriptions for reducing demand is to “speed up the replacement of gas boilers with heat pumps.” Heat pumps are, basically, air conditioners that run in reverse. Powered by electricity, they can “pump” heat from the environment at a colder temperature into a building at a warmer temperature.
In the United States, the common perception is that heat pumps are only suitable for comparatively warm climates. For example, Trane, a leading manufacturer of heating and cooling equipment, says on its website “that heat pumps are best for moderate climates.” Carrier, another prominent U.S. manufacturer, echoes that message on its website, saying “Heat pumps are more common in milder climates, where the temperature does not typically drop below freezing.”
“This has been one of the myths,” says Jan Rosenow, European program director for the Regulatory Assistance Project, “that heat pumps don’t work in cold climates.” He regards it as misinformation “coming from an industry that is under threat.” This misunderstanding is common not just in the United States, says Rosenow, but also in European countries that don’t have a lot of heat pumps.
The distribution of heat pumps in Europe supports Rosenow’s contention. The European countries where heat pumps are most used are some of the coldest, including Norway, Sweden, and Finland, where more than 40 percent of homes use heat pumps. But Rosenow explains that “there is a shortage of installers in Europe; there is a shortage of kit.”
The shortages, combined with the urgency of the problem that the war in Ukraine has created, prompted the nonprofit organization Rewiring America to issue a policy plan on 9 March calling for U.S. manufacturers to help the EU rapidly expand the deployment of heat pumps. “We’d be fooling ourselves if we did not take a wartime-production view,” says Ari Mutasiak, CEO of Rewiring America.
Mutasiak has been working with climate activist Bill McKibben, who just a few days after war broke out proposed in a blog post that the Biden administration invoke the Defense Production Act to lend U.S. manufacturing might to the effort to speed the replacement of gas-fired boilers with electric heat pumps in Europe. And on 8 March, the Washington Post reported that the White House was taking this suggestion under serious consideration.
There’s a fundamental shortcoming with this approach, though.
The IEA estimates that expanding the use of heat pumps could make only a small dent, saving just 2 billion cubic meters of natural gas annually, a mere 1.3 percent of what Russia provides the EU. If you’re an optimist, maybe double or triple that savings. It still doesn’t move the needle far enough to help much by next winter, which could be the deadline here.
What if in the next few weeks or months Russia were to follow through on its threats to cut off the natural gas that it is sending to EU countries? Or what if EU leaders acted on what seems to many to be a moral obligation to impose a boycott? How could EU officials, engineers, or individual homeowners prepare for such an eventuality?
I posed this question to energy expert and IEEE Spectrum columnist Vaclav Smil, Distinguished Professor Emeritus in the Faculty of Environment at the University of Manitoba in Canada, who wrote about some of the war’s implications for fossil fuels just a few days after Russia invaded Ukraine. He stressed that there are enormous structural impediments to making the kind of changes necessary to respond to such a natural-gas embargo.
Pressed to consider what could be done if the EU soon loses access to Russian gas entirely, Smil offered a few suggestions. European nations (which he stresses have varying degrees of dependence on Russian gas) would want to look to generate as much electricity as they can using alternative fuels—just as the IEA notes in the “Going Faster and Further” addendum to its 10-point plan, which outlines some temporary fuel-switching options. They could gear up to switch fuels in the central boilers used for district heating, which warms a quarter of EU homes. Also: “You could distribute electric heaters,” says Smil, referring not to heat pumps but to simple electric space heaters.
Such heaters are, of course, not an efficient way to heat your entire home. But small portable units could well help people who are forced to do in a big way next winter what the IEA sees the most effective conservation strategy of all: turn down the thermostat.
The IEA’s 10-point plan calls for reducing temperatures by just 1° C. But if push truly came to shove, the EU as a whole could in theory save enough energy to displace all imported Russian gas by implementing the IEA plan and fuel-switching measures if people also reduced indoor temperatures more drastically—by something like 8° or 9° C, which would be the amount needed according to the IEA’s estimate that each degree lower on everyone’s thermostats would result in an annual savings of 10 billion cubic meters of gas. This prescription glosses over the differences in the use of Russian gas among EU countries, but it gives you an idea of just how drastic the needed temperature reductions would be.
Turning down the heat by that much would be very difficult, to say the least. The IEA indicates average indoor temperatures in the EU are now about 22° C, so we’re talking about temperatures over winter months of just 13° or 14° C (55° to 57° F). That’s darn cold, but most people could manage that hardship, particularly if they used electric heaters to warm the air further in a small space surrounding them.
Space heaters could thus prove immensely helpful in a heating crisis. And unlike heat pumps, which are relatively complex pieces of machinery costing thousands of dollars and requiring skilled contractors to install, electric space heaters are simple, cheap, and easy to use.
Could enough space heaters be produced in the limited time available before next winter? Sure, says Smil: “Germany's Siemens is already EU's largest industrial manufacturing company, and so they could turn to mass-producing electric heaters—they could also tell the Chinese, where the company is well established, ‘We need 10 million heaters,’ and they could make them.” What’s more, space heaters are “rapidly distributable and scalable,” says Smil, should they be needed “in extremis.”
So Rewiring America, Bill McKibben, and various EU energy policymakers are right to be thinking about electric sources of heat and how they could help reduce the EU’s reliance on Russian natural gas. But in their enthusiasm for heat pumps, whose value will take years to manifest to a significant extent, they overlooked what could prove a more realistic option for next winter should a new kind of Cold War challenge the nearly 450 million residents of the EU: the lowly electric space heater.
https://spectrum.ieee.org/russia-europe-natural-gas....
Good data and statistics.
This is a recommendation from the IEA (International Energy Agency) for european nations to look into heat pumps, electric heaters and greater electrical grid power generation via alt fuels to reduce dependence on russian oil. They're also encouraging europeans to turn their thermostats lower.
As a living space heating issue, better residential insulation could also drastically reduce required heating and gas consumption.
Growing renewable bamboo to produce woodchip fuel for hearths is an old school solution which might sidestep infrastructure and electrical grid concerns.