1) three-step precipitation
三步沉淀
1.
Application of complete cycle three-step precipitation treatment process of cyanidation lean solution
三步沉淀法处理含氰贫液全循环工艺的应用
2) fractional precipitation
分步沉淀
1.
On the basis of theoretical analysis of chemical and physical properties of arsenic, the treatment processes of oxidation and co-precipitation and fractional precipitation and separation were proposed, it was proved through practice that the treatment process has achieved a satisfactory result.
对砷的危害、常规处理工艺的利弊进行了阐述 ,并在对砷的物理化学性质理论分析的基础上 ,提出了氧化共沉、分步沉淀分离的处理流程 ,经实践验证 ,该处理流程取得了满意的效果。
2.
The highly pure、superfine and monosize-distribution strontium titanate crys- talline particles have been synthesized by fractional precipitation, when titanium tetrachlo-ride and strontium chloride were used as raw materials and urea and sodium hydroxide asprecipitation agents.
用四氯化钛和氯化锶为原料、尿素和氢氧化钠为沉淀剂,采用分步沉淀法在低温下合成了高纯、超细、单分散性好的晶态钛酸锶粒子。
3.
The waste Ag-Cu contacts were dissolved in acid,then Ag~+,Sn~(2+) and Sn~(4+)in the solution were removed by fractional precipitation.
将Ag-Cu触点废料用酸溶解,再采用分步沉淀法去除Ag-Cu触点中的Ag+、Sn2+、Sn4+,抽滤后得到含CuCl2的溶液,然后采用液相还原法制备微米级铜粉(质量分数≥99。
3) two-step precipitation
两步沉淀
1.
Pure akermanite (Ca_2MgSi_2O_(7)) powders were synthesized by sol-gel method and two-step precipitation method, respectively.
通过溶胶凝胶法和两步沉淀法分别合成镁黄长石(Ca2MgSi2O7)粉体,并通过模拟体液浸泡对这两种方法合成的镁黄长石的体外生物活性进行比较。
2.
BaTiO_3 powders of particle size ranged from 14~160nm and cubic phase structure were prepared by a two-step precipitation route, a sonochemical method and a solvothermal process, respectively, in which TiCl_4, Ba(OH)_2·8H_2O and NH_3·H_2O were used as raw materials, and ethanol、water and the mixture of them as reactive medium.
本文以TiCl_4、Ba(OH)2·8H_2O、NH_3·H_2O和NaOH为原料,乙醇、水及其混合液为溶剂,分别采用两步沉淀法、超声化学法和溶剂热法在较温和条件下制备了粒径为14~160nm的立方相BaTiO_3粉体,系统地研究了三种方法的工艺参数,并对所得粉体的性能进行了表征。
4) synchronous precipitation
同步沉淀
1.
Application of the synchronous precipitation of phosphorus to biological wastewater treatment;
同步沉淀除磷在污水生物处理中的应用
5) multistep deposition process
多步沉淀法
6) two-step precipitation
两步沉淀法
1.
Methanol synthesis catalyst prepared by two-step precipitation combined with addition of surfactant;
添加表面活性剂两步沉淀法制备甲醇催化剂
补充资料:分步沉淀法提铷铯
分步沉淀法提铷铯
extraction of rubidium and cesium by fractional precipitation process
一协分矾在水中的溶解度如表1。分步沉淀过程是向含枷或到纯净物,可分别将两种沉淀物于水或稀盐酸中进行艳的硫酸盐溶液中,加入所需量的硫酸铝并加热,经冷重结晶。最后分别将两种锡复盐溶于水并加热,加入氢却后即沉淀出铝铆矾或铝艳矾。分离除去母液,所得矾氧化钱,使复盐水解成氯化枷或氯化艳和偏锡酸及氯重复用水加热溶解、冷却结晶沉淀,可获得纯铝枷矾或化钱。过滤分离后,溶液经蒸发浓缩得到氯化枷或氯化铝艳矾。铝枷矾或铝艳矾经处理则得铆、艳盐。铝铆矾、艳同氯化钱的混合盐。再经加热挥发除去氯化按即得铝艳矾一次沉淀的金属回收率在94%以上。铝艳矾分到纯氯化枷或氯化艳。这是从锉云母提锉后的混合碱步沉淀过程的净化效果和回收率优于铝铆矾。母液提枷、艳常用的有效方法。 表1铝钾矾、铝物矾、铝艳矾在水中的溶解度(%)表2钾、枷、艳的锡氮酸盐在293K水一藏苍下芯丁蔽不厂可蔺获爪茄瓦下花获几妥瓦万和盐酸中的溶解度(%) 。,。}。。,,,。O。、},,。{。。。锑氧酸盐分步沉淀锑氯酸盐(锑艳复盐,3CsCI· }_}}ZSbC13)分步沉淀是盐酸法处理艳榴石制取艳盐的重 I一1}要方法之一。向含氯化艳的水溶液中加入SbC13,便会二兰习‘竺二二立二匕习一一二兰二生成氯化艳一氯化锑复盐沉淀,复盐分子式为3CsCI· Zsbel,或esssbZel。。借此可将艳从大量的杂质中分离 锡氮酸盐分步沉淀铆或艳的氯化物在稀盐酸溶出来。锑艳复盐在盐酸溶液中的溶解度如表3。不同液中均可同sncl‘作用生成溶解度较小的锡氯酸铆sbcl。浓度对锑艳复盐溶解度的影响如表4。中国和美(R bZsncl6)或锡氯酸艳(c sZsncl。)复盐沉淀。钾、枷、国都曾用盐酸法处理过艳榴石(见艳榴石盐酸法分艳的锡氯酸盐在293K温度水和盐酸溶液中的溶解度解)。矿石经浓盐酸分解后用水浸出,经过滤得到约含如表2。向锉云母提铿后的混合磷酸碱母液中通入csclls%的溶液。向溶液中加入一定量的sbcl3,使氯c02,将其中70%的钾以碳酸氢钾沉淀除去,然后加入化艳以3cscl·Zsbcl。,复盐沉淀,借此从溶液中分离盐酸将铆、艳等转化为氯化物并调整溶液酸度。按含艳出来。用沸水分解沉淀后过滤,往滤液加入氢氧化钱和量计算,加入稍过量的snCI‘,使艳以csZSnCI。沉淀析碳酸钱使铁、铝、钙、锑等杂质沉淀而被除去。经过滤出,铆仍留在溶液中。经分离后,再向溶液中加入按含分离出沉淀后,用盐酸酸化滤液,再次用sbcl。将氯化伽量计算过量的snCI‘,使溶液中的枷以RbZSnC16沉艳以3CsCI·ZsbC13复盐沉淀出来。沉淀出来的已是淀析出。由于在csZSnCI。和RbZSnCI。沉淀过程中都较纯的复盐。这种复盐再经热水分解、过滤、滤液蒸干,有一定过量的sncl4,导致csZsnCI。中有少量加盐酸除去少量氨,通HZs除锑,再浓缩、蒸干、脱RbZsnel。,而RbZsnel。中有一定数量的KZSncl。。为得水得纯氯化艳。
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参考词条