New research set to ‘scrub’ carbon dioxide from fossil-fuel emissions
27 June 2013
Many researchers around the world are seeking ways to ‘scrub’ carbon dioxide (CO2) from the emissions of fossil-fuel power plants as a way of curbing the gas that is considered most responsible for global climate change.
But most such systems rely on complex plumbing to divert the steam used to drive the turbines that generate power in these plants, and such systems are not practical as retrofits to existing plants.
Now, researchers at the Massachusetts Institute of Technology (MIT) have come up with a scrubbing system that requires no steam connection, which can operate at lower temperatures and would essentially be a ‘plug-and-play’ solution that could be added relatively easily to any existing power plant.
The new electrochemical system is described in a paper that has been published online in the journal Energy and Environmental Science. It was written by MIT doctoral student Michael Stern and chemical engineering professor T. Alan Hatton, along with former MIT research scientist Fritz Simeon and Howard Herzog, a senior research engineer at the MIT Energy Initiative.
The system is a variation on a well-studied technology that uses chemical compounds called amines, which bind with CO2 in the plant’s emission stream and can then release the gas when heated in a separate chamber. But the conventional process requires that almost half of the power plant’s low-pressure steam be diverted to provide the heat needed to force the amines to release the gas. That massive diversion would require such extensive changes to existing power plants that it is not considered economically feasible as a retrofit.
In the new system, an electrochemical process replaces the steam-based separation of amines and CO2. This system only requires electricity, so it can easily be added to an existing plant.
The system uses a solution of amines, injected at the top of an absorption column in which the effluent gases are rising from below. The amines bind with CO2 in the emissions stream and are collected in liquid form at the bottom of the column. Then, they are processed electrochemically, using a metal electrode to force the release of the CO2; the original amine molecules are then regenerated and reused.
As with the conventional thermal-amine scrubber systems, this technology should be capable of removing 905 of CO2 from a plant’s emissions, according to the researchers. But while the conventional CO2-capture process uses about 40% of a plant’s power output, the new system would consume only about 25% of the power, making it a much more attractive option.
In addition, while steam-based systems must operate continuously, the all-electric system can be dialed back during peak demand, providing greater operational flexibility, according to Stern. “Our system is something you just plug in, so you can quickly turn it down when you have a high cost or high need for electricity,” he said.
REDUCE COMPLEXITY AND INEFFICIENCY
Another advantage is that this process produces CO2 under pressure, which is required to inject the gas into underground reservoirs for long-term disposal. Other systems require a separate compressor to pressurise the gas, creating further complexity and inefficiency.
The chemicals themselves — mostly small polyamines — are widely used and easily available industrial materials, according to Hatton, who is the Ralph Landau Professor of Chemical Engineering Practice. Further research will examine which of several such compounds works best in the proposed system.
So far, the research team has done mathematical modeling and a small-scale laboratory test of the system. Next, they hope to move on to larger-scale tests to prove the system’s performance. They believe that it could take five to 10 years for the system to be developed to the point of widespread commercialisation.
Because it does not rely on steam from a boiler, this system could also be used for other applications that do not involve steam — such as cement factories, which are among the leading producers of CO2 emissions, according to Stern. It could also be used to curb emissions from steel or aluminum plants.
It could also be useful in other CO2 removal, Hatton believes, such as in submarines or spacecraft, where carbon dioxide can accumulate to levels that could endanger human health, and must be continually removed.
The work was supported by Siemens AG and by the US Department of Energy through the Advanced Research Projects Agency for Energy. Credit: David L. Chandler, MIT News Office.http://www.engineersjournal.ie/2013/06/27/new-research-set-to-scrub-carbon-dioxide-from-fossil-fuel-emissions/http://www.engineersjournal.ie/wp-content/uploads/2013/06/Coal-station-1024x679.jpghttp://www.engineersjournal.ie/wp-content/uploads/2013/06/Coal-station-300x300.jpgChemelectricity,energy,fossil fuel,MIT