中国有色金属学报
中國有色金屬學報
중국유색금속학보
THE CHINESE JOURNAL OF NONFERROUS METALS
2013年
7期
2055-2060
,共6页
刘桂华%齐天贵%田侣%周秋生%彭志宏%李小斌
劉桂華%齊天貴%田侶%週鞦生%彭誌宏%李小斌
류계화%제천귀%전려%주추생%팽지굉%리소빈
氧化镁%铝酸钠%石灰%脱硅%钠硅渣
氧化鎂%鋁痠鈉%石灰%脫硅%鈉硅渣
양화미%려산납%석회%탈규%납규사
magnesium oxide%sodium aluminate%lime%desilication%sodium aluminosilicate hydrate
通过分析含硅铝酸钠溶液脱硅过程二氧化硅浓度、脱硅渣成分和物相,研究氧化镁在铝酸钠溶液中的反应行为。结果表明,在95~100℃的常压脱硅条件下,氧化镁在铝酸钠溶液中易形成水合碳铝酸镁,对溶液基本无脱硅效果,氧化铝损失较多,但氧化镁能显著促进石灰的脱硅作用,且在石灰用量一定时随氧化镁添加量的增加,溶液的脱硅率显著升高;在190℃的高压脱硅条件下,氧化镁对铝酸钠溶液石灰脱硅作用的促进不明显,但它可使脱硅渣的钠硅比(质量比)显著降低;无论是单独采用石灰(CaO),还是采用石灰和氧化镁混和物脱硅,含硅铝酸钠溶液高温脱硅渣中均含有钠硅渣相,这与热力学分析结果一致。
通過分析含硅鋁痠鈉溶液脫硅過程二氧化硅濃度、脫硅渣成分和物相,研究氧化鎂在鋁痠鈉溶液中的反應行為。結果錶明,在95~100℃的常壓脫硅條件下,氧化鎂在鋁痠鈉溶液中易形成水閤碳鋁痠鎂,對溶液基本無脫硅效果,氧化鋁損失較多,但氧化鎂能顯著促進石灰的脫硅作用,且在石灰用量一定時隨氧化鎂添加量的增加,溶液的脫硅率顯著升高;在190℃的高壓脫硅條件下,氧化鎂對鋁痠鈉溶液石灰脫硅作用的促進不明顯,但它可使脫硅渣的鈉硅比(質量比)顯著降低;無論是單獨採用石灰(CaO),還是採用石灰和氧化鎂混和物脫硅,含硅鋁痠鈉溶液高溫脫硅渣中均含有鈉硅渣相,這與熱力學分析結果一緻。
통과분석함규려산납용액탈규과정이양화규농도、탈규사성분화물상,연구양화미재려산납용액중적반응행위。결과표명,재95~100℃적상압탈규조건하,양화미재려산납용액중역형성수합탄려산미,대용액기본무탈규효과,양화려손실교다,단양화미능현저촉진석회적탈규작용,차재석회용량일정시수양화미첨가량적증가,용액적탈규솔현저승고;재190℃적고압탈규조건하,양화미대려산납용액석회탈규작용적촉진불명현,단타가사탈규사적납규비(질량비)현저강저;무론시단독채용석회(CaO),환시채용석회화양화미혼화물탈규,함규려산납용액고온탈규사중균함유납규사상,저여열역학분석결과일치。
The reaction behavior of MgO in the desilication process of sodium aluminate solution was studied by analyzing SiO 2 concentration variation in solution and compositions and phases of the desilication slag. The results indicate that under desilication conditions of 95?100 ℃ and normal pressure, MgO can react with SiO 2-containing sodium aluminate solution to form the magnesium hydroaluminocarbonate and cause the loss of alumina. MgO has almost no desilication effect in the normal pressure desilication process, but it can promote the desilication rate of CaO significantly and the desilication rate increases with the increase of MgO amount when the dosage of CaO is constant. Under desilication conditions of 190 ℃ and high pressure, MgO has little effect on the desilication rate of CaO, but it can decrease the mass ratio of soda to silica of desilication slag. The sodium aluminosilicate hydrate is one of the main phases of the slags produced from high temperature desilication process with either MgO or mixture of MgO and CaO as desilication agent, which agrees with the result of thermodynamic calculation.