Ba(OH)_(2)·8H_(2)O复合相变材料蓄热供热可行性研究

针对传统太阳能供热系统储热水箱体积大、储热密度低、温度不恒定、热量损失大等缺点,开展以Ba(OH)_(2)·8H_(2)O为基体的相变蓄热/供热实验研究。在油封环境下,对Ba(OH)_(2)·8H_(2)O放热过程出现的过冷现象,选取了同晶型成核剂Sr(OH)_(2)·8H_(2)O、非同晶型成核剂Na_(2)B_(4)O_(7)·10H_(2)O;对Ba(OH)_(2)·8H_(2)O的相分层现象,选取增稠剂羧甲基纤维素、增稠剂明胶。实验表明,油封环境下向Ba(OH)_(2)·8H_(2)O中添加质量分数为3%的Na_(2)B_(4)O_(7)·10H_(2)O和质量分数为1%的羧甲基纤维素能够较好改善Ba(OH)_(2)·8H_(2)O的过冷现象和相分层。以该研究为基础,制备97 kg Ba(OH)_(2)·8H_(2)O复合相变材料,搭建相变蓄热/供热实验平台。蓄热实验中,温度曲线呈现明确的三阶段性,蓄热总时长1185 min,相变过程首先从底部开始,并逐步向上蔓延。70℃以下蓄热时长为185 min,温升率高,蓄热量少。70~80℃蓄热时长为965min,温升率低,蓄热量大;80~84℃蓄热时长为35min,温升率高,蓄热量少。供热实验无过冷现象,供热总时长602 min,A、B、C三测点温度平缓下降。散热器供水温度范围为60~74℃,回水温度范围为53~65℃,供回水温度符合实际工程要求。供热实验表明Ba(OH)_(2)·8H_(2)O复合相变材料在应用于蓄热供热时具有较好应用价值。

Ba(NO_(3))_(2)预处理对高放废液玻璃固化过程中硫酸盐分相的影响

为抑制高放废液玻璃固化过程中黄相的产生,采用Ba(NO_(3))_(2)对模拟高硫高钠高放废液进行预处理,再利用熔融法制备硼硅酸盐玻璃固化体,研究了预处理对玻璃固化体熔制过程中黄相的形成及其物相组成、显微结构的影响,并对比分析了预处理前后玻璃固化体中的硫含量。结果表明:Ba^(2+)与模拟高放废液中的SO_(4)^(2-)在酸性环境反应生成了BaSO_(4),预处理使玻璃固化体熔制过程中产生的黄相显著减少;预处理前黄相主要成分为Na_(2)SO_(4)和LiNaSO_(4),还含有少量CaMoO_(4)和Na_(2)CrMoO_(4),预处理后黄相中LiNaSO_(4)相衍射峰有所减弱,并出现了BaSO_(4)、BaMoO_(4)和BaCrO_(4)相;预处理前玻璃固化体中的硫含量随温度升高逐渐降低,预处理后玻璃固化体中的硫含量在850~1050℃基本保持不变,随着温度进一步升高,硫含量逐渐降低;当废物中硫酸盐含量较高时,预处理对提高硫酸盐的包容能力尤为显著。

硫分离对模拟高放玻璃固化体黄相形成的影响

为抑制高放废液玻璃固化过程中黄相的形成,采用Ba(NO_(3))_(2)将高放废液中的SO_(4)^(2-)以BaSO_(4)沉淀形式分离后,再采用熔融法制备硼硅酸盐玻璃固化体,探究硫分离对玻璃体熔制过程中黄相形成的影响。结果表明,对于模拟废液掺量为20%的样品,硫分离前在800~1 000℃范围内黄相的量随温度升高逐渐增多,硫分离后则未观察到黄相。硫分离前的黄相主要成分为Na_(2)SO_(4)、BaSO_(4)、Na_(2)MoO_(4)、BaCrO_(4)和Na_(2)CrO_(4),硫分离后的玻璃表面存在少量BaCrO_(4);硫分离后废物包容量28%时仍未观察到黄相,显著高于硫分离前的废物包容量(<16%)。

Use of Different Barium Salts to Inhibit the Thaumasite Form of Sulfate Attack in Cement-based Materials

We investigated the effects of different barium compounds on the thaumasite form of sulphate attack（TSA）resistance of cement-based materials when they were used as admixtures in mortars.Moreover,we analyzed the inhibition mechanisms within different types of barium salts,namely BaCO_3 and Ba（OH）_2,on the thaumasite formation.The controlcement mortar and mortars with barium salts to cement and limestone weight ratios of 0.5%,1.0%,and 1.5% were immersed in 5%（by weight）MgSO_4 solution at 5 ℃ to mimic TSA.Appearance,mass,and compressive strength of the mortar samples were monitored and measured to assess the generaldegradation extent of these samples.The products of sulphate attack were further analyzed by XRD,FTIR,and SEM,respectively.Experimentalresults show that different degradation extent is evident in allmortars cured in MgSO_4 solution.However,barium salts can greatly inhibit such degradation.Barium in hydroxide form has better effectiveness in protection against TSA than carbonate form,which may be due to their solubility difference in alkaline cement pore solution,and the presence of these barium compounds can reduce the degree of TSA by comparison with the almost completely decomposed controlsamples.

邻甲基酚钡的合成及其溶解度的测定

以邻甲基酚和BaCl2为原料合成了邻甲基酚钡．重量法证明，本实验样品的结构式可写为，该化合物新合成的样品和烘干后的样品在水中的溶解度有很大的差别，30℃时溶解度分别是6．60和0．07，50℃时分别是7．59和0．07，表明样品的溶解度随温度变化不大．