A new report by a consortium of 14 leading research institutions from Europe, the US, Japan, China, India, and Brazil has investigated future energy sector trends, in part based on the climate plans submitted by countries to the UNFCCC before the Paris climate summit, but also based on other drivers such as economic development and local air pollution. One of the key takeaways: the global coal sector is faced with a bleak future, writes Thomas Spencer, Program Director Energy and Climate at the Paris-based think tank IDDRI, one of the partners in the consortium.
Coal has been a lynchpin of the global energy system since the industrial revolution. With the boom of China since 2000, it has undergone a renaissance over the past decade. Yet coal is the dirtiest fossil fuel. It is responsible for the lion’s share of global carbon dioxide emissions, and contributes to the dire health effects of local air pollution that plague much of the developing world in particular.
With this tension in mind, what is the future of coal?
The report estimates an absolute drop in global coal demand of 5% by 2030 from 2012 levels
So far, more than 150 countries have submitted their commitments to action against climate change, as part of the negotiations towards a new climate agreement to be sealed in Paris at the end of this year. A new report – “Beyond the Numbers: Understanding the Transformation Induced by INDCs” – by a consortium of 14 leading research institutions from across the world – the MILES Project Consortium – has investigated future energy sector trends globally and in major economies based in part on these so-called INDC’s (intended nationally determined contributions) and in part other major drivers. The report paints a bleak picture for the future of global coal demand.
In China, coal demand is projected to peak by 2020, and fall back to 2010 levels by 2030. This is driven in part by industrial restructuring, as China progressively shifts from an economic model based on industry and investment to domestic consumption and services. With the industrial sector responsible for 61% of Chinese coal demand, this emerging economic shift will have an undeniable impact on the sector. Another major driver is the shift to clean energy, notably in the power and industry sectors. Coal demand already fell 3% in 2014, compared to 2013 levels.
Japan, the US and the European Union are responsible for about 14% of global coal demand (more than India today). The report projects a decline by 55% between 2010 and 2030 in these three regions together, notably as Europe shifts to renewables and the US to natural gas and renewables. In Japan, the restart of nuclear and the growth of renewables sees coal drop 26% by 2030 compared to 2010; stringent energy efficiency policies are projected to shave 8% of total Japanese energy demand.
Indian climate pledge
The report also provides a detailed estimate, based on an analysis of planned power and coal production capacities, of coal imports in India over the next 5-10 years. The Indian climate pledge envisages fast economic growth and a consequent growth in energy usage, coupled with a strong push on renewables.
In 2030, non-fossil fuel capacity is projected to reach 40% of installed capacity in the electricity sector. The report finds that India’s coal imports will reach a level of about 200 million tons (Mt) by around 2020, increasing from today’s level of 168 Mt. This is a net increase of 30 Mt compared to current levels, far less than the 600 Mt of slated coal export capacity in Australia.
Some crucial low-carbon solutions, like CCS, electric vehicles, advanced biofuels, sustainable urban planning, appear unlikely to be developed under the INDCs at the scale and speed required for a 2°C scenario
By 2030, coal imports could reach about 315 Mt, assuming a stable import ratio. This potential import increase is smaller however than the decline in imports from the EU and Japan resulting from the demand drop noted above. Projections of net coal imports in India are uncertain, and the government has announced ambitious plans to end imports of coal in the next few years by increasing domestic production. Rather than cut-and-dried policy commitments, these should be taken as headline policy orientations: reduce energy dependency by promoting energy system diversification and increasing domestic production.
Two things appear clear, however. Firstly, even if India were to increase its import capacity, this would occur in the context of shrinking demand elsewhere – more on this below. Secondly, India’s ambitious renewables plans contribute to limiting future coal demand, as non-fossil fuel capacity in India’s growing electricity capacity grows from 29% today to 40% in 2030.
Signs of overcapacity
The report also estimates total global coal demand by 2030, taking into account the climate commitments that countries have put forward. It estimates an absolute drop in global coal demand of 5% by 2030 from 2012 levels. A similar result is found by the International Energy Agency (IEA) in its analysis of energy sector trends and major economies’ climate commitments: “World demand for coal shows signs of reaching a plateau by around 2020”.
The world economy is reaching the end of a super-cycle, and many economic sectors are showing signs of overcapacity. We can expect several years, maybe more, of low demand relative to supply in many commodity markets.
With China in the midst of slowdown and restructuring, emerging markets slowing, and alternative energy policies gaining increasing prominence, the risks seem stacked on the downside for the coming years for the global coal market. In this context, a race to establish new production capacities may amount to self-harm on the part of sector still running high on the fumes of the boom years.
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More key findings from the MILES report
INDCs can lead to significant co-benefits from climate mitigation in the countries studied, in terms of percentage reductions in energy import dependency and local air pollution. Such co-benefits can be a significant driver to develop ambitious national climate policies.
The INDCs will accelerate and consolidate a significant transition in the electricity sector and in energy efficiency in the next 15 years, driving innovation and reduced costs.
Some crucial low-carbon solutions, like CCS, electric vehicles, advanced biofuels, sustainable urban planning, appear unlikely to be developed under the INDCs at the scale and speed required for a 2°C scenario, given the implied lock-in of carbon-intensive infrastructure in 2030 under the INDC scenario. Post-Paris policy efforts also need to focus on stimulating technology innovation, deployment and diffusion in order to drive down costs in such sectors where insufficient progress is being seen. This highlights also the importance of developing short-term targets in the light of long-term climate constraints, building on the development of national deep decarbonisation pathways to 2050. The Paris agreement should foster the development of national deep decarbonisation pathways by 2018.
INDCs imply an acceleration of climate action and a deviation from previous trends and policy commitments. However, they would necessitate very stringent and rapid mitigation measures post-2030 if the 2°C target is to be met. This would imply at the global level significantly higher costs and risks to feasibility compared to a scenario of earlier, stronger action. A dynamic approach to climate policy-making under the Paris agreement, with further rounds of strengthened policy commitments, is critical to keep the 2°C target in reach. This policy strengthening would need to happen rapidly after 2015.
Editor’s Note
Thomas Spencer is the Program Director Energy and Climate of Paris-based think tank IDDRI (Institut du développement durable). The report, Beyond the Numbers: Understanding the Transformation Induced by INDCs, published by the MILES Project consortium, can be found here. This article was first published in a slightly different form on Reneweconomy.com and is republished here with permission.
Jeffrey Michel says
According to the most recently released Climate Action Tracker, there are “2440 planned coal plants around the world, totalling 1428GW, which could emit approximately 16-18 percent of the total allowed emissions in 2030. Including existing capacity with a technical lifetime beyond 2030, total emissions from coal-fired power generation could reach 12 GtCO2 in 2030.” (http://climateactiontracker.org/news/248/The-Coal-Gap.html). All plants constructed as announced will still be in operation past mid-century. Declining coal prices make their realization more likely. Even Mediterranean countries such as Greece and Turkey with ample solar and wind resources continue to rely on fossil fuels as pillars of future energy policy.
Robert says
If environmentalists and progressives wish to put the final nail in the coffin of coal (or at least a few smaller ones) the thing to do is to have environmental groups target those states and localities that depend on over 50% of the electricity from coal (IN, CO, KS, IW, KY, MT, NB, NM, ND, OH, UT, WV, WY) and purchase LED lights, efficient appliances, AC units, etc. for low to moderate income consumers in those states. Less demand for electricity equals less need to mine coal. Trying this tactic in those states with less than 50% of their power coming from coal would have less impact.
https://www.nei.org/Knowledge-Center/Nuclear-Statistics/US-Nuclear-Power-Plants/State-Electricity-Generation-Fuel-Shares
State-by-state electricity generation fuel shares by …
http://www.nei.org
Nuclear Energy Institute 1201 F St., NW, Suite 1100, Washington, DC 20004-1218. P: 202.739.8000 F: 202.785.4019. webmaster@nei.org
And yes support green energy credits, divestment, and switch to providers that provide power from renewables.
Myself? I have been getting my power from West Texas wind farms via Green Mountain Energy since October 2001.
In the majority of states that GME does not do business in there is an option.
https://www.arcadiapower.com/how_it_works
http://apps3.eere.energy.gov/greenpower/about/index.shtml
Green Power Network: About the Green Power Network
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