H2O and NaCl were stable at these temperatures, and no solid solution between these compounds was found. It was found that the mole fraction of Cl0- in the eutectic composition increased as the temperature raised.Arihiro HAMANOKazunari HAMADA...
The solubilities and densities of the solutions in the ternary system LiCl–NaCl–H2O at 308 and 348 K were determined by the method of isothermal dissolution equilibrium. There are one invariant point, two univariant isotherm dissolution curves, and two crystallization regions corresponding to monohyd...
三元体系LiCl + NaCl + H2O在288.15 K条件下的平衡相图中包含两条等温溶解度单变量曲线、一条共饱和点和两个平衡的固体结晶场。具体的点、线、区的组成如下:(1)两条单变量曲线;(2)一个共饱点(A点):NaCl、LiCl·2H2O共...
25_时NaCl_NH_4Cl_H_2O三元水盐体系相平衡的研究
五元体系LiCl-NaCl-CaCl2-H3BO3-H2O在323.15+K相平衡及硼酸介稳区宽度研 热度: Na2SO4-MgSO4-H2O体系盐水的动态分离工艺研究 热度: (HN4)2SO4-Na2SO4-NH4Cl-NaCl-H2O体系在35℃的溶解度相图 热度: 相关推荐 第38卷第1期 2009年1月 盐业与化工 JournalofSaltandChemicalIndustry NaCl—NH4Cl—H20三元...
‘10 H2O 表 2 Na2CO3_NaCI.H20 2.H20 体系相平衡数据 S aturated solution W et residue of solution/%( wt ) Equilibrium No. Compositi on of liquid phas e / wt) Co mpositionof dry salt/% ( ) /℃ solid phase N副:0 NaC l H 20 2 H20 Na2CO~ Na CI H 20 2 H20 Na2CO3 NaC I ...
The solubilities in the quaternary system (LiCl + NaCl + KCl + H2O) at 288.15 K were investigated with the method of isothermal dissolution equilibrium. The phase diagram includes one cosaturated point, three isotherm dissolution curves, and three crystallization regions corresponding to sodium chlorid...
(I) dry O2 (—○—), (II) H2O + O2 ( ), (III) NaCl + O2 ( ), (IV) NaCl+ corrosion was ascribable to a reaction of solid NaCl and Ti oxide forming on the surface. However, the relevant minetnhteioenxepderpirmodeunct.tsAodfdtihteiorneaalcltyi,otnh(eNma2oTr...
关键词:氯化钠;硫酸铵;三元水盐相图;固溶体中图分类号:TQ131.12;TQ113.73 文献标识码:A文章编号:1006—4990(2009)01—0015—02 Studyoilphaseequilibriumofternarywater—saltsystemNaCI一(NH4)2SO4一H2oat298K WangWeidong-ZuoFang (CollegeofChemistryandEnvironmentalEngineering,HubeiNormalUniversity,Huangshi435002-...
(Supplementary Fig. S3). CO2in the fluids also decreases aH2O(Newton et al.1980), particularly in systems with low carbonation reaction efficiencies. For a single H2O–CO2–NaCl fluid phase, as in our case (Supplementary Fig.S1), aCO2does not simply equal XCO2and tends to decrease in ...