The world’s energy system in 2020 will look very similar to the one that exists today
By Jock Finlayson, Executive Vice-President, Business Council of British Columbia
The annual global energy outlook released by the Paris-based International Energy Agency (IEA) is a timely, if sobering, reminder of the enduring place of fossil fuels in the overall energy mix. Energy demand and supply patterns change only slowly, and despite the earnest wishes of politicians and environmentalists, shifting away from existing carbon-intensive energy systems will take generations, not years. The main fossil fuel-based energy sources that largely satisfy the consumption needs of the world’s population have a bright future.
Blame it all on economic growth. According to the IEA, even if governments around the globe fully deliver on the commitments they have made to reduce greenhouse gas emissions and phase out fossil fuel subsidies – a very big “if” – world primary energy demand is still projected to rise by 36 per cent between 2008 and 2035, almost wholly due to economic growth and rising incomes in emerging markets. Fossil fuels account for more than half of the increase in energy use to 2035, with oil remaining the dominant individual source of energy (albeit its share diminishes over time). World oil demand is expected to increase by 15 million barrels to reach 99 million barrels per day by 2035, with virtually all of the incremental demand coming from emerging economies.
Among the advanced economies that make up the Organization for Economic Cooperation and Development (OECD), demand for oil actually drops by six million barrels per day over the same period. Falling oil consumption in the OECD reflects slow-to-negative population growth in many developed nations, improvements in energy efficiency, and the implementation of government policies to encourage fuel-switching, stimulate renewable energy, and reduce the carbon-intensity of economic activity. According to the IEA’s projections, coal-fired electricity generation continues to expand on a global basis, even as reliance on coal decreases in Europe, the U.S., Canada and other developed economies.
The reason for rising world coal demand lies in sustained growth in coal-fired generation in emerging markets, above all in China and India. Indeed, the IEA estimates that the amount of new coal-fired generation capacity to be added in China alone between 2008 and 2035 will exceed the total current installed capacity in the U.S., the EU and Japan combined. King coal is neither dead nor dying, despite frequent pronouncements to the contrary from Western media pundits and politicians waving green flags.
The IEA also shines a spotlight on the growing importance of natural gas in the energy equation. While consumption actually fell in 2009 as the global economic downturn took its toll on demand, use of natural gas is poised to climb by 44 per cent by 2035, outpacing growth in demand for all other fossil fuels. This speaks to the abundance of natural gas around the world, including a huge expansion in shale gas reserves in Canada and the U.S. Greater demand for natural gas also reflects its attractive economic, environmental and practical attributes. Natural gas is a low-cost energy source, it is the least carbon-intensive fossil fuel, and gas-fired power plants can be built in close proximity to population centres in a relatively short period of time. Natural gas consumption is projected by the IEA to grow the fastest in China, but the fuel is also becoming more popular in many other markets, including in North America.
What about the various renewable, carbon-free energy sources touted by environmentalists and supported by many governments? With “new policies” in place, the IEA hopes that renewables can supply one-third of the world’s electricity needs by 2035, up from one-fifth today. Hydro-power and wind are the chief beneficiaries of this increase, although solar, geothermal and bio-mass will also play bigger roles as sources of electricity in the future. But there is less scope to adopt renewables outside of the power sector, certainly over the short- to medium-term. In the case of transportation, for example, the IEA believes renewables might meet 8 per cent of global road transport fuel demand by 2035, compared to 3 per cent now. In heat production for industry and buildings, the IEA’s “new policies” scenario looks to renewables to provide 16 per cent of world demand a quarter-century from now, compared to about 10 per cent today.
All of this underscores the immense challenges involved in shifting energy systems away from existing fuel sources and infrastructure, a point long emphasized by Canadian scholar Vaclav Smil. As Professor Smil noted in an article on trends in U.S. energy consumption published in 2009: “It took 45 years for the U.S. to raise its crude oil use to 20 per cent of the total energy supply; natural gas needed 65 years to do the same. As for electricity generation, coal produced 66 per cent of the total in 1950 and still 49 per cent in 2007 – wind-driven generation now produces 1.5 per cent and solar photovoltaic a fraction of that. Whatever the eventual solution, whether it is converting the country’s filling stations to natural gas or hydrogen, or building new long-distance transmission lines to carry Arizona’s solar electricity to New York and North Dakota’s wind power to California, the new requisite infrastructures are unlikely to be completed in the next few years.”
Even with taxpayer-financed subsidies, government-imposed rules mandating higher fuel efficiency, and progressively greater use of renewables, it’s hard to see how carbon-free energy can be expanded on the scale necessary to make a significant difference to the global energy supply mix in the next decade. The reality is that the world’s energy system in 2020 is apt to look very similar to the one that exists today.
Credit: Troy Media www.troymedia.com.