(191i) Thermal Decomposition Mechanisms of MgCl2•6H2 O and MgCl2•H2 O | AIChE

(191i) Thermal Decomposition Mechanisms of MgCl2•6H2 O and MgCl2•H2 O

Authors 

Huang, Q. - Presenter, East China University of Science and Technology
Lu, G. - Presenter, East China University of Science and Technology
Wang, J. - Presenter, East China University of Science and Technology
Yu, J. - Presenter, East China University of Science and Technology


The thermal decomposition mechanisms and the intermediate morphology of MgCl2?6H2O and MgCl2?H2O were studied using integrated thermal analysis, calcination by a resistance furnace, x-ray diffraction, scanning electron microscope, energy dispersive x-ray spectrum and chemical analysis. The results were different from the previous' and showed that there were six steps in the thermal decomposition of MgCl2?6H2O, producing MgCl2?4H2O at 69°C, MgCl2?2H2O at 129°C, MgCl2?nH2O(1≤n≤2) and MgOHCl at 167°C, and the MgCl2?nH2O(1≤n≤2) converted to Mg(OH)Cl?0.3H2O with dehydration and hydrolysis simultaneously at 203°C, Mg(OH)Cl?0.3H2O dehydrated to MgOHCl at 235°C, MgOHCl directly converted to MgO at 415°C. The morphology of MgOHCl particle was irregular and had porous structure, while Mg(OH)Cl?0.3H2O particle had relatively flat surface, as shown in Figure 1(a, b). MgCl2?6H2O was calcined in HCl atmosphere before 203°C for restraining the hydrolysis of sample to obtain MgCl2?H2O, and then turned off HCl gas. MgCl2?H2O was calcined in the furnace at 203°C continuously. The calcined products were Mg3Cl2(OH)4?2H2O at 203°C and Mg3(OH)4Cl2 at 220°C, respectively, which converted to MgO at 360°C. The reaction temperature for obtaining MgO was lower. Mg3Cl2(OH)4?2H2O particle was irregular and had tiny needle-like structure, while Mg3(OH)4Cl2 particle surface was uneven and had porous, as shown in Figure 1(c, d).