Coal
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Huge electricity demand comes with its challenges but this is coupled with opportunities for developing and emerging economies if they focus on the faster deployment of cleaner coal technologies.

This article first appeared in ESI Africa Edition 5, 2018. You can read the magazine's articles here or subscribe here to receive a print copy. 

Coal provides 40% of the world’s electricity and is also a key component of infrastructure development in many economies. The importance of coal was once again highlighted when, in October 2017, a new International Energy Agency (IEA) report, the WEO-2017 Special Report: Energy Access Outlook, detailed the significant role that coal has played in improving energy access around the world.

According to the report, in the last 16 years nearly all of those who gained access to electricity worldwide did so through new grid connections, mostly from fossil fuels – 45% of which came from coal. The IEA report notes that coal will be the single largest source of electricity in 2040.

Because coal will continue to be in the global energy mix well into the future, the question should not be whether we use coal, but how we use it.

Deploying cleaner coal technologies

Huge electricity demand presents challenges and opportunities for developing and emerging economies, and we need to focus on the faster deployment of cleaner coal technologies, like high efficiency low emissions (HELE) coal technologies. What are HELE technologies and why are they important in climate discussions?

Reducing emissions from coal power generation begins by using the most efficient technologies that are available today. HELE technologies are a group of technologies developed to increase the amount of energy that can be generated from a coal plant By Benjamin Sporton, former chief executive of the World Coal Association while decreasing emissions. HELE coal technologies provide significant immediate CO2 reductions and are a key step on the pathway to carbon capture and storage (CCS).

Raising the average efficiency of the global coal fleet from the current 33% to 40% would save two gigatonnes of CO2 emissions – equivalent to India’s annual CO2 emissions.

HELE also reduces emissions, such as nitrogen oxide (NOx), sulphur dioxide (SO2) and particulate matter (PM). These technologies can remove about 90 to 99.9% of pollutants from coal combustion.

Efficiency in electricity generation means that less fuel is used to produce the same amount of electricity. A one-percentage point improvement in the efficiency of a conventional coal plant results in a 2-3% reduction in CO2 emissions. So, for countries that have decided to use coal, HELE technologies are essential to achieving economic growth and energy access while reducing carbon emissions and other pollutants that affect health and air quality.

Today, HELE technologies are being deployed commercially in Germany, Italy, India, South Korea, Japan, Poland, Malaysia, Indonesia, Czech Republic, the Netherlands, Slovenia, US, Australia, South Africa and, particularly, China. In fact, they are the default technology choice in China and Japan.

It is therefore no wonder that countries in developing Asia and Africa have identified a role for low emissions coal technology to meet their energy access and climate objectives. In their Paris Agreement pledges, 24 countries including major economies such as India, Nigeria and many Southeast Asian countries identified low emissions coal technologies as critical to powering their economic development while reducing emissions.

The relationship between HELE and CCS

HELE coal technology is important because it’s a first step to CCS, which is vital to meeting the global long-term objectives of the Paris Agreement. HELE plants reduce the volume of CO2 to be captured and hence the capacity of the capture plant required and the quantity of CO2 to be transported and stored. Ultimately CCS technology is needed, not just for coal, but for gas and industrial purposes as well. The IEA and the Intergovernmental Panel on Climate Change have been clear that without CCS, achieving the Paris Agreement targets will be virtually impossible.

CCS is a proven, well-tested and reliable technology that has been in successful operational use for more than 40 years. There are presently 21 large-scale CCS facilities in operation or under construction globally. Together these facilities can remove 37 million tonnes of CO2 annually that otherwise could have entered the atmosphere. This is equivalent to taking almost eight million passenger vehicles off our roads. CCS reduces emissions from coal power production by up to 90%.

All low emission technologies have a role to play in climate action. It’s essential that we recognise that accelerated CCS development and deployment is critical to meeting the Paris Agreement climate goals.

The World Coal Association supports a transition away from the least efficient technology in favour of HELE coalfuelled power generation technology. However, currently there are limited financial and technological support opportunities available to assist the transition to more efficient coal. An international funding mechanism is needed to accelerate construction of high efficiency coal projects.

There also needs to be international support from countries with experience in the transition, like Australia, Japan and China to step up cooperation on financing to accelerate the shift to cleaner coal plants. ESI

By Benjamin Sporton, former chief executive of the World Coal Association

This article first appeared in ESI Africa Edition 5, 2018. You can read the magazine's articles here or subscribe here to receive a print copy.