Controlling air pollution from coal power plants in China: incremental change or a great leap forward.

C is in the midst of the largest and fastest period of economic growth in global history. While this growth at 9 10% GDP per year has lifted hundreds of millions of people from poverty, the all out prioritization of economic prosperity has created serious air and water pollution that are affecting the health of the local population, and also have increasing global climate impacts. A World Health Organization (WHO) report estimated that diseases triggered by indoor and outdoor air pollution kill 656 000 Chinese citizens each year. In addition to local criteria air pollutants like sulfur dioxide (SO2) and nitrogen oxide (NOx), China is now the largest emitter of greenhouse gases (GHGs) in the world. Strategies and policies to control air pollutants have been on the books for decades, but shifting local government focus away from the sole prioritization of economic growth and including environmental protection has proven very challenging. China has been implementing the single pollutant control strategy and focus on short-termmain pollution control target. From the early to take soot as the main control object to total pollution control of SO2 since 9th five-year plan. After years of effort, pollution control achieved some success. Thermal power plants have been effectively controlled dust emission since 2000, while sulfur dioxide also reached its turning point of decline in 2007 and reduced 14.3% of SO2 during the 11th five-year plan period (see Figure 1). Although control of sulfur dioxide has made great progress, other kinds of air pollution and CO2 increased a lot in the past decade. The NOx, mercury, and CO2 from thermal power sector in 2010 were 1.51 times that of 2005. The rapid development of China will not stop. In the next 10 years, China’s GDP will increase to 4 times that of 2010. Without new pollution control policies, the NOx, mercury, and CO2 from thermal power industry sector will be 1.28 times that of 2010. Since 12th fiveyear plan, China starts to control NOx and target to reduce 10% of NOx. In addition, the international pressure on carbon reduction push China to promised to reduce its carbon intensity— the amount of CO2 it emits for each dollar of economic output— by 45%. There are significant advantages of a pollutant by pollutant approach, which allows operators and designers to target system design and hone operational features of new technologies. The single pollution control target will induce enterprises invest on end-of-pipe pollution control. In such condition, technology innovation and multipollution control technologies will be less cost-effective than single pollution control. During the 11th fiveyear plan period (2005 2010), China has installed 500000 MW desulfurization that 86% units have flue gas desulfurization (FGD) systems. However, the end-of-pipe pollutant controls will increase other pollutions, for example, controlling SO2 increases coal use, which increases associated CO2, mercury, and NOx. The used 600 MW unit in China should use average 1.58% auxiliary electricity for desulfurization. That is the removal of 1 kg SO2 will bring 6.1 kg CO2 and 0.015 kg NOx. In addition, the significant reductions in SO2 emissions will reduce the cooling impact of reflective aerosols. Thus, the single pollution control strategy will press the bottle gourd, but played a gourd ladle. In addition, with the increasing pollution control types, resulting in continued expansion of pollutant purification equipment, regardless of investment or operating costs, the complexity of purification systems are facing great difficulties. Meanwhile, since air pollutants and GHGs often derive from the same sources—fossil fuel combustions—there is an opportunity to address the two problems simultaneously. Control technologies that are capable of simultaneously reducing emissions of multiple pollutantsmay also offer the potential to achieve this at lower cost and reduced footprint when compared to conventional controls. Taking other air pollution and GHGs’ environmental impact into consideration, the total costs of coalfired plants will be not lower than nuclear power, hydropower, or wind power. Thus, one of most important implication of