Abstract
Chemical agglomeration can reduce the particulates (including PM2.5) concentration emitted from fly ash particulates and the wet flue gas desulfurization (WFGD) system. However, the calcium-based slurries affect the regulation of agglomeration compared to water, in particular, the wettability of the particulates and the viscosity of the calciumbased slurry. The wettability and the viscosity are the important factors affecting agglomeration, conversely. This manuscript studied the two factors affecting the calcium-based slurries. The sessile drop method was used to measure the contact angle. Four kinds of calcium-based slurries (CaCO3, CaSO3, CaSO4, Ca(OH)2) respectively were mixed with five kinds of wetting agents’ wet particles, and the wetting regulation was studied. The viscometer was used to measure the viscosity of the calcium-based slurry with the wetting agents, and the variation of the viscosity was analyzed as well. The results showed that the smaller the particle size was, the more it is difficult to be wet, and the wetting agents could enhance the wettability greatly, but the effect was related to the properties of the calcium-based material and the wetting agents. There were variable viscosities of different calcium-based slurries after adding the wetting agents. Overall, the Compound No. 3 had the optimal qualities in improving particle wettability and maintaining the calcium-based slurry with a high viscosity. Therefore, the Compound No. 3 is considered the optimal in facilitating chemical agglomeration.
Highlights
PM2.5 from coal-fired power plants is one of the important sources in the Chinese atmosphere [1,2]
The configured calcium-based slurry was heated to 38 oC in the water bath and stirred for at least 3 minutes, the liquid drops were quickly titrated on the particles surface with pipettes when the temperature dropped to 30oC accurately
Fig. (3a) presents the characteristic curve of the contact angle of CaCO3 slurry mixed with wetting agents wetting particles
Summary
PM2.5 from coal-fired power plants is one of the important sources in the Chinese atmosphere [1,2]. The Chinese government has implemented the most strict emission standard of the world with regards to the air pollutants for the power plants since 2012, which is called as close to zero emission. The Chinese government has been encouraging these plants to satisfy the gas turbines emission standard since 2014. A substantial reward has been given by the Chinese government to those plants that satisfied gas turbines emission standard, since 2015. The wet electrostatic precipitators (WESP) can further collect PM2.5, and it requires much investment and land occupation. The number of concentration of PM2.5 is still up to several hundred thousand per cubic centimeter even though the emission standard is satisfied [4], which is harmful to human health
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