Abstract

For effective utilization of the residues, calcium sulfate whiskers were prepared from semi-dry desulfurization residues by hydrothermal synthesis reactions. Aiming at collecting the products with a long length and large aspect ratio, the additives, including sodium oleate, sodium dodecyl benzene sulfonate (SDBS), and sodium citrate, were added to control the growth of the crystal. Compared with no additives, whiskers with relatively a longer length and larger aspect ratio could be obtained in the presence of sodium oleate or SDBS. The sodium citrate made the whiskers thicker and shorter. Then, the effects of the additives on crystal growth and the morphology of the hydrothermal products were investigated with the aid of X-ray diffraction (XRD) patterns and molecular dynamics simulations. According to the results of XRD, the diffraction intensity of the crystal face (400) increased under the influence of sodium oleate, promoting crystal growth along the c-axis. The molecular structures of the corresponding faces were built based on the strong peaks shown in the XRD patterns. The atomic distribution on the computed crystal faces was presented. The interaction energies on different faces were calculated to illustrate the different adsorption configurations of the additives. Among the calculated faces, the interaction energies on (400) were both most negative for sodium oleate and SDBS. Therefore, sodium oleate and SDBS preferred to adsorb on (400). As a result, the growth of (400) was thus inhibited and the crystal grew along the c-axis. Compared with sodium oleate and SDBS, the lowest adsorption energy of sodium citrate on the face (310) indicated that sodium citrate has no positive effect on the directional growth of the crystal parallel to c-axis. The molecular simulation results were virtually identical to the crystal faces analysis results.

Highlights

  • Semi-dry desulfurization residues, which are the main byproducts of the semi-dry flue gas desulfurization (FGD) process, are a mixture of CaSO4, CaSO3, and CaO [1,2]

  • The results indicated that sodium dodecyl benzene sulfonate could improve the morphology of the calcium sulfate whiskers

  • With the the products products without without additives, additives, the the length length increased increased while while the the diameter diameter decreased decreased after after sodium sodium oleate and were added separately. When it comes to the products with sodium citrate, oleate and sodium dodecyl benzene sulfonate (SDBS) were added separately

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Summary

Introduction

Semi-dry desulfurization residues, which are the main byproducts of the semi-dry flue gas desulfurization (FGD) process, are a mixture of CaSO4 , CaSO3 , and CaO [1,2]. Coal-fired power plants currently produce tons of semi-dry desulfurization residues each day, so the problem of their utilization has become a focus of attention [3]. Much research has been conducted into utilizing the residues as cement retarders, soil amendments, and building materials [4,5,6,7,8,9]. Desulfurization residue has a complex composition with a high content of sulfur and relatively high CaSO3 content, which seriously limits their applications [10]. Profitably utilizing the large volume of these residues is vital for the sustainable development of coal-fired power plants. As a result of the high content of calcium, desulfurization residues have been used to produce gypsum or to prepare calcium

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