油品中硫对金属影响及光催化氧化脱硫研究

考察了航煤中不同硫的存在形态对不同金属的腐蚀,以溶胶-凝胶法制备了纳米TiO_2并以TiO_2光催化深度去除油品中噻吩,实验发现单质硫对铜片腐蚀影响较大,较小浓度时就使航煤铜片腐蚀不合格,而噻吩较大浓度时铜片腐蚀仍然合格,单质硫对铝片或镁片腐蚀影响非常大,腐蚀程度随着硫单质的量的增加而增加,易腐蚀倾向顺序是铜片、镁片和铝片。采用了汞灯和氙灯两种光源模拟紫外光和可见光光催化脱硫,汞灯脱硫效果优于氙灯。

远红外辐射黑瓷板研制及其性能研究

以提钒尾渣为主要原料制造的黑瓷远红外辐射板,具有宽泛的烧结温度、突出的着色作用和优良的成瓷性能,第四周期过渡金属氧化物的含量大于80%,辐射率高达0.95,经过2 000 h、650℃加速老化试验,辐射率无变化,黑瓷板表面层不会脱落。通过扫描电镜对素坯板和黑瓷板的断口形貌和显微组织进行观察发现,素坯板主要由钛铁矿、板钛铁矿和拉长石等矿物组成,颗粒间呈机械混合状态,黑瓷板由晶粒、玻璃体和气孔组成,原料中大部分金属氧化物转移到晶粒中富集,形成堇青石、锂辉石、锆英石等矿物,被玻璃体紧密包围,热冲击性优良,化学稳定性好,无毒无害无放射性,是一种成本低、寿命长、效率高的远红外辐射体。

一种新型的瓷-铝复合太阳能板

研发了一种新型高效的瓷-铝复合太阳能板,由铝合金基体板、导流汇集管和纳米结构吸热涂层等组成。铝合金基体板为循环管与曲翅板集成化一体结构,采用6063耐蚀铝合金通过型材挤出机一次挤制成型;循环管和导流汇集管内壁涂覆厌水涂层,防止管道吸附水垢,增强耐蚀性能;将黑瓷粉、消光剂和树脂结合剂等原料粉末合成纳米黑瓷复合粉料,通过静电喷涂和高温固化工艺制成纳米结构吸热涂层,阳光吸收率高达0.96。实验结果表明,纳米结构吸热涂层热稳定性好,阳光长期照射下不会导致吸热涂层剥落;集成化结构的瓷-铝复合太阳能板导热性能优良,导热效率高达0.98;瓷-铝复合太阳能集热器的热效率约为43.6%,高于传统的太阳能集热器,制造成本比传统太阳能集热器平均低约14%。瓷-铝复合太阳能集热器在成本、寿命和效率方面更具优势,可用于建造大面积太阳能集热系统,能够满足当前太阳能产业发展的需要,具有良好的经济和社会效益,推广应用前景广阔。

Correlation between mixing enthalpy and structural order in liquid Mg−Si system

The mixing enthalpies and structural order in liquid Mg−Si system were investigated via ab-initio molecular dynamics at 1773 K.By calculating the transferred charges and electron density differences,the dominance of Si−Si interactions in the chemical environments around Si was demonstrated,which determined that the mixing enthalpy reached the minimum on Mg-rich side.In terms of Honeycutt and Anderson(HA)bond pairs based on the partial pair correlation functions,the attraction between Si−Si pairs and Mg atoms was revealed,and the evolution of structural order with Si content was characterized as a process of constituting frame structures by Si−Si pairs that dispersed Mg atoms.Focusing on tetrahedral order of local Si-configurations,a correlation between the mixing enthalpy and structural order was uncovered ultimately,which provided a new perspective combining the energetics with geometry to understand the liquid Mg−Si binary system.