Insight into the effect of maleic acid on the preparation of α-hemihydrate gypsum from phosphogypsum in Na2SO4 solution
The control of crystal morphologyis crucial to preparation of α-hemihydrategypsum(α-HH).α-HH was prepared from phosphogypsum(PG)in Na2SO4 solution at different temperatures.The effect of maleic acid(C4H4O4)on the dehydration rate and growth behavior of α-HH was investigated by X-ray diffraction(XRD)and scanning electron microscope(SEM),and the interactions of C4H4O4 molecule with the α-HH surface were studied using density functional theory(DFT)calculations with Materials Studio.The results show that the increase in Na2SO4 concentration and solution temperature can shorten the dehydration time of PG.Maleic acid inhibits the conversion of PG to α-HHby prolonging the crystal growth period.α-HH crystals prefer to grow along the c-axis and present a long columnar crystal.With an increase in the maleic acid concentration from 0.00 to 5.76 mM,the morphology of α-HH evolves from a needle-like whisker to a short equiaxial crystal,and the corresponding aspect ratio decreasesfrom 14.19 to 0.91.The calculation results indicate that the strong interactions between the C4H4O4 molecule and the(1 1 1)crystal plane of α-HH are largely attributable to the bonding of both the single-bond oxygen(O1)and double-bond oxygen(O2)in C4H4O4with the Ca atoms of the(1 1 1)crystal plane and that the chemisorptionof C4H4O4 can occur on the(1 1 1)crystal plane with the lowest adsorption energy of-201.65 kJ/mol.C4H4O4adsorption on the(1 1 0)crystal plane is through a single O2—Ca bond with an adsorption energy of-95.32 kJ/mol.The interaction between the(0 1 0)crystal plane and C4H4O4 is weak.It can be concluded thatmaleic acid can preferentially adsorb on the(1 1 1)crystal plane andretard crystal growth along the c-axis during the preparation of α-HH from PG.
Phosphogypsum Na2SO4 α-hemihydrategypsum Maleic acid Crystal morphology DFT
Xianbo Li Qin Zhang Baolin Ke Xianchen Wang Longjiang Li Xianhai Li Song Mao
College of Materials and Metallurgy,Guizhou University,Guiyang 550025,China;Mining College,Guizhou U Mining College,Guizhou University,Guiyang 550025,China;National & Local Joint Laboratory of Engineer
国内会议
第九届国际分子模拟与信息技术应用学术会议(ICMS&I2018)
太原
英文
186-202
2018-05-01(万方平台首次上网日期,不代表论文的发表时间)