China’s Production of Synthetic Natural Gas Has Global Implications
In its latest Medium-Term Coal Market Report
the International Energy Agency (IEA) forecasts a slowing of coal
demand growth but no retreat in its global use. That won’t surprise
energy realists, but the item I wasn’t expecting was the reference in
the IEA press release to growing efforts in China to convert coal into liquid fuels and especially synthetic natural gas (SNG).
It’s not hard to imagine China’s planners viewing SNG as a promising
avenue for addressing the severe local air pollution in that country’s
major cities, but the resulting increase in CO2 emissions could be
substantial. It could also affect the economics of natural gas projects
around the Pacific Rim.
A Solution for China’s Smog?
Air quality in China’s cities has fallen to levels not seen in developed countries for many decades. There’s even a smartphone app
to help residents and visitors avoid the worst exposures. Much of this
pollution, in the form of oxides of sulfur and nitrogen and particulate
matter, is the result of coal combustion in power plants. Although China
is adding wind and solar power capacity at a rapid clip, after years of
exporting most of their solar panel output, the scale of the country’s
coal use doesn’t lend itself to easy or quick substitution by these
renewables.
Natural gas offers a lower-emitting
alternative to coal on a larger scale than renewables.
Existing coal-fired power plants could be converted to run on gas or
replaced with modern combined-cycle gas turbine power plants. Gas-fired
power plants emit up to 99% fewer local, or “criteria” pollutants than coal plants, especially those with minimal exhaust scrubbing.
Unfortunately, China doesn’t have enough domestic natural gas to go around. Despite potentially world-class shale gas resources and the rapid growth of coal-bed methane and more conventional gas sources, natural gas supplies only 4% of China’s energy needs. Imported LNG can help fill the gap, but it isn’t cheap. What China has in abundance
is coal. Converting some of it to SNG could boost China’s gas supply
relatively quickly–perhaps faster than the country’s shale gas
infrastructure and expertise can gear up.
How Would It Work?
SNG is hardly a new idea; the Great Plains Synfuels Plant
has been producing it in North Dakota since the 1980s. When that
facility was built, natural gas prices were volatile and rising, and
greenhouse gas emissions appeared on no one’s radar.
The process for making SNG
from coal is straightforward, and its primary building block, the
gasification unit, is off-the-shelf technology. I worked with this
technology briefly in the 1980s, and my former employer, Texaco,
licensed dozens of gasification units in China before the technology was
eventually purchased by GE. Other vendors offer similar processes.
Gasifying coal adds a layer of complexity, compared to
gasifying liquid hydrocarbons but this, too, has been demonstrated in
commercial operations. Most of the output of the facilities Texaco sold
to China was used to make chemicals, but the chemistry of turning syngas
(hydrogen plus carbon monoxide) into pipeline-quality methane is no
more challenging.
This effort is already under way in China. In October Scientific American reported
that the first of China’s SNG facilities had started shipping gas to
customers, with four more plants in various stages of construction and
another five approved earlier this year. The combined capacity of
China’s nine identified SNG projects comes to around 3.5 billion cubic feet per day, or a bit more than the entire Barnett Shale near Dallas, Texas produced in 2007 as US shale gas production was ramping up. It’s also just over a quarter of China’s total natural gas consumption in 2012, including imported LNG.
To put that in perspective, if that quantity of SNG were converted to
electricity in efficient combined cycle plants their output would be
roughly double that of China’s 75,000 MW of installed wind turbines in 2012, when wind generated around 2% of the country’s electricity.
What’s the Catch?
The appeal of converting millions of tons a year of dirty coal into
clean-burning natural gas, in facilities located far from China’s
population centers, is clear. This strategy even has some similarities
to one pursued by southern California’s utilities, which for years
imported power from the big coal-fired plants at Four Corners. For
that matter, the gasification process has some key advantages over the
standard coal power plant technologies in the ease with which criteria
pollutants can be addressed. Generating power from coal-based SNG might
actually reduce total criteria pollutants, rather than just relocating
them.
However, wherever these plants are built they would add around 500 million metric tons per year of CO2, or around 5% of China’s 2012 emissions, a figure that dwarfs even the most pessimistic estimates of the emissions consequences of building the Keystone XL pipeline. That’s because the lifecycle emissions for SNG-generated power have been estimated at seven times those from natural gas, and 36-82% higher than simply burning the coal for power generation.
What could possibly lead China’s government to pursue such an option,
in spite of widespread concerns about climate change and China’s own commitments to reduce the emissions intensity of its economy? Having lived in Los Angeles when it was still experiencing frequent first-stage smog alerts and occasional second-stage alerts, I have some sympathy for their problem. China’s air pollution causes even more serious health and economic impacts and has been blamed for over a million
premature deaths each year. By comparison the consequences of
greenhouse gas emissions are more indirect, remote and uncertain. Any
rational system of governance would have to put a higher priority on air
pollution at China’s current levels than on CO2 emissions.
It might even turn out to be a reasonable call on emissions, if
China’s planners envision carbon capture and sequestration (CCS)
becoming economical within the next decade. It’s much easier to capture
high-purity, sequestration-ready CO2 from a gasifier than a pulverized
coal power plant. (At one time I sold the 99% pure CO2 from the gasifier
at what was then Texaco’s Los Angeles refinery to companies that
produced food-grade dry ice.) It should also be much easier and cheaper
to retrofit a gasifier for CCS than a power plant.
Conclusions – China’s Synthetic Natural Gas Is A Wild Card
In an internal context the trade-off that China is choosing in
converting coal into synthetic natural gas is understandable. However,
that perspective is unlikely to be shared by other countries that won’t
benefit from the resulting improvement in local air quality and view
China’s rising CO2 emissions with alarm. I would be surprised if the
emissions from SNG were factored into anyone’s projections, and nine SNG
plants could be just the camel’s nose under the tent.
In an environment that the IEA has described as a potential Golden Age of Natural Gas,
large-scale production of SNG could also constitute an unexpected wild
card for energy markets. When added to China’s shale gas potential, it’s
another trend for LNG developers and exporters in North America and
elsewhere to monitor closely.
http://www.energytrendsinsider.com/2013/12/19/converting-coal-to-gas-in-china-trading-smog-for-co2/
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