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What if you could have all the energy benefits of cheap, plentiful coal, without the planet-warming gases it emits into the atmosphere? 听

That dream got a boost Thursday, as Canada鈥檚 Boundary Dam plant became the world鈥檚 first large-scale coal power plant to capture and store its carbon emissions. The aims to capture 90 percent of the Estevan, Sask. plant鈥檚 emissions, or about 100,000 tons of carbon dioxide a year. That鈥檚 the equivalent of removing 250,000 cars from the road, according to the Global Carbon Capture and Storage Institute.

While many look to carbon-free sources like wind and solar to rein in ballooning emissions, analysts say the most practical solutions to climate change will require carbon capture and storage (CCS). Renewables are expanding at a rapid pace across the world, but coal continues to dominate global electricity supply, playing a major role in the development of rapidly growing economies in Asia, Africa, and elsewhere. Widespread carbon capture technology could go a long way toward meeting worldwide emissions reductions goals, even if the developing world continues to rely on coal.

But there鈥檚 a catch: the technology has so far proven expensive and difficult to implement on commercial coal-fired plants. The SaskPower project aims to demonstrate how it might be done better.

鈥淚t鈥檚 globally significant,鈥� says John Thompson, director of the Fossil Transition Project at the Clean Air Task Force, a Boston-based non-profit. 鈥淚 believe that once these projects happen, the landscape is changed forever.鈥� Proving CCS is commercially-viable shifts public perception, Mr. Thompson says, and could make carbon-heavy coal plants a thing of the past.

SaskPower isn鈥檛 alone. US energy firm NRG broke ground earlier this month on a $1 billion carbon capture project near Houston. The company aims to have it up and running in 2016. hopes to start up in May 2015. 听听

CCS is critical if coal hopes to remain a viable source of energy in the US and elsewhere. Carbon intensive coal is an easy target for governments in the UK, US, Canada, and elsewhere as they tackle runaway emissions that threaten to increase global temperatures. CCS might offer a way for coal firms to meet those existing or new carbon limits, but it鈥檚 no silver bullet.

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鈥淭he technologies that we鈥檙e bringing together aren鈥檛 revolutionary,鈥� says Howard Herzog, a senior research engineer at the Massachusetts Institute of Technology鈥檚 Energy Initiative in Cambridge, Mass. CCS has long been used in smaller industrial plants and has been piloted on coal plants elsewhere. 鈥淭o show that they can all fit together and work well is a major milestone, but not necessarily a game-changer.鈥�

President Obama鈥檚 Clean Power Plan, announced in June, aims to slash US emissions 30 percent below 2005 levels by 2030. But Obama鈥檚 regulations encourage a switch to cleaner-burning natural gas, Mr. Herzog says, rather than spurring investments in CCS technology that would make coal cleaner. Booming US natural gas production and corresponding low prices have made gas an attractive alternative to coal.

What would make CCS competitive with natural gas, and commercially-viable on a large scale? For Mr. Herzog, the answer is policy to actively incentivize CCS deployment. 鈥淲e don鈥檛 have policy in place to bring the hundreds of [CCS] plants that we need to put a dent in climate change,鈥� Herzog says in a telephone interview Thursday.

Natural gas has a cost advantage in much of Canada, too. The Boundary Dam plant only installed CCS after Canada implemented emissions limits similar to Obama鈥檚 proposed plan. And sticking with coal made sense at the plant because its in a coal-rich region, Herzog says; much of Canada will switch to other fuel to meet emissions standards, rather than retrofitting coal plants with CCS.

The potential to sell off captive emissions for use in 鈥渆nhanced oil recovery鈥� 鈥� the process of injecting carbon dioxide into oil wells to coax out extra crude 鈥� also helped make the Boundary Dam project economically feasible.

But enhanced oil recovery isn鈥檛 an option everywhere, and retrofitting a plant with CCS technology remains expensive. That means the technology may not have a longterm future in the US, where firms are already shifting to natural gas or renewables.

鈥淭he reality here in the US is, with the [natural] gas price so low, no one鈥檚 going to build a new coal plant,鈥� Herzog says.

Across the world, it鈥檚 a different picture. The technology could prove useful for China, India, and others that are meeting enormous energy demands with plentiful stores of the carbon-heavy fuel.

鈥淧eople are pretty optimistic,鈥� Herzog says. 鈥淲orldwide, within a few years, we could see five capture and storage plants.鈥�