Emission of excited potassium species from an industrial iron catalyst for ammonia synthesis

The angular dependence of potassium emission-desorption is studied from a fused iron catalyst of the type used for ammonia synthesis. The excited species (K^*, K _n ^* , etc.) and positive ions K⁺ have strongly different angular distributions. The bilobular distribution measured for ion desorption is concluded to be either due to excited atoms, so-called Rydberg atoms, or excited clusters. Both types of species have to desorb from the edges of the sample and become field ionized and deexcited just outside the sample, as reported in previous studies on an iron oxide catalyst. The peak in the normal direction measured for excited species is due to excited cluster formation outside the catalyst surface. Similarities with previous results for other catalysts are observed. The possibility that the promoter function of potassium in the ammonia synthesis is due to excited species is pointed out.On leave from Faculty of Chemistry, Jagiellonian University, Ingardena 3, 30-060 Cracow, Poland.     

高分子铁盐絮凝剂制备及其应用研究

研究了以废铁屑和工业硫酸亚铁为原料,在常压和加热条件下,用氯酸钾作为氧化剂制取聚合硫酸铁(PFS)的工艺条件,并在PFS制备的基础上,合成了聚磷硫酸铁(PPFS)和聚氯硫酸铁(PFCS)。将所制备的聚铁用于污水处理实验,结果表明:用该方法制备的聚铁絮凝剂对实际水样具有较好的混凝处理效果,且制备工艺简单、速度快,从根本上消除了用NaNO_2催化氧化法制备聚铁对环境造成的二次污染。     

常温清洁铁系磷化液研究

为使磷化实现一级清洁生产,开发了一种用于钢铁表面涂装前处理的常温清洁铁系磷化液。该磷化液组分所有的成分均参加成膜反应生成磷化膜、水、沉渣或在磷化膜干燥过程中挥发。此磷化液不含亚硝酸盐和重金属,在5~40℃下浸渍磷化5~10 m in,在每平方米即可生成质量约为0.7 g的膜和耐CuSO4溶液点滴时间达90~140 s的彩色磷化膜。且磷化后可免水洗。     

用钛白废酸和废铁屑制备聚合硫酸铁试验研究

利用钛白废酸和废铁屑制备了无机高分子絮凝剂聚合硫酸铁。详细研究了聚合硫酸铁制备过程中各因素对亚铁氧化、三价铁水解和聚合等过程的影响。确定了制备聚合硫酸铁的最佳工艺条件为：(1)氧化过程：pH为1．5，氧化剂与亚铁的物质的量之比为0．3，氧化温度为60℃，氧化时间为3h；(2)聚合过程：硫酸根与全铁的浓度比为1．4，陈化时间为2h。     

Piezoresistivity in Polymer-Ceramic Composites

Composite materials composed of randomly dispersed semiconducting ceramic particles in an insulating polymer matrix show a pronounced change in resistivity with pressure. Different amounts of iron oxide (Fe₃O₄) powder and antimony-doped tin oxide (SnO₂:Sb) powder were dispersed in an epoxy polymer matrix to form pressure-sensitive composites. In each family of materials, an insulator-to-semiconductor transition is observed in agreement with percolation theory. Composites within a certain range of filler content showed substantial piezoresistive effect under both uniaxial and hydrostatic pressure in which sensitivity is controlled by the choice of filler material and the volume fraction. The effect of temperature on the piezoresistance effect was also examined. Piezoresistors made from Fe₃O₄ composites showed larger temperature changes than those filled with Sb-doped SnO₂.     

钢铁件常温黑化工艺的研究

研究改进了现行的钢铁件常温黑化工艺，通过极化曲线测试，耐蚀性测试，寿命测试得到了性能良好的常温亚硒酸体系黑化液，结果表明：适当的向黑化液中引入添加剂A，稳定性N，表面活性剂聚乙二醇（6000）可以提高;黑化液的稳定性以及黑化层的耐蚀性与黑化液的寿命。     

铬铁矿液相氧化的热力学分析

液相氧化法生产铬酸盐技术是对传统火法焙烧技术的突破．在600～900K温度范围内对液相氧化法处理铬铁矿的熔盐体系各反应趋势及物相组成的热力学进行了分析研究，对液相氧化法处理铬铁矿各体系的反应自由能变化（△G°R）与温度（T）关系的计算结果表明，铬铁矿中的（Mg,Fe）（CrO2）2在较低温度下与NaOH、O2具有较强的反应趋势，比传统的火法焙烧方法反应温度降低了873K，节约大量能源;铬铁矿中的杂质相在反应温度下进行一系列副反应，生成硅酸盐、铝硅酸盐等新相．     

铁泥氧化制备颜料铁红的研究

以工业废渣铁泥为原料,经拌酸氧化制备铁红颜料,探讨了酸的种类、浓度及用量和氧化温度及时间对产品质量的影响。结果表明,较佳的工艺条件为:硫酸浓度60%,硫酸与铁泥质量比1∶1.2,氧化温度800℃,氧化时间2.0 h,得铁红产品,质量符合油漆、涂料等对铁红颜料的要求。     

Ammonia volatilization from urea as affected by the addition of iron pyrites and method of application

Laboratory incubations were conducted to determine the ammonia (NH₃) loss from urea as affected by the addition of coarse and ground (fine) pyrites at 1:1, 1:2 and 1:5 urea: pyrite (w/w) ratios and methods of application (surfaceapplication, incorporation and placement). Coarse pyrites (>-2mm) were not effective in reducing NH₃ loss from urea when surface applied even at the highest ratio of pyrite (15.9% vs 18.7% without pyrite). Ground pyrites (0.1–0.25 mm), in 1:1 ratio, had about 5% less NH₃ loss than the urea alone treatment. Higher ratios of pyrites reduced NH₃ loss much more. Ammonia losses were the most with surface-applied urea (18.9%) and the least (13.5%) when placed (2.5 cm) below the soil surface. Addition of ground pyrite to surface-applied urea (1:1 ratio) decreased the loss to 13.2%. Urea+pyrite placed below the soil surface had the least loss (9.8%). Results indicate that combined application of urea and fine pyrite could reduce NH₃ loss.     

A Novel Mixed-Valence Tetranuclear Iron-Oxygen Clusters in the Organically Templated Iron Phosphate [H3N(CH2)2NH3]2 Fe4O(PO4)4 ċH2O

A novel iron phosphate templated with ethylenediammonium cation, [H₃N(CH₂)₂NH₃]₂ Fe₄ O(PO₄)₄H₂O, has been synthesized hydrothermally and characterized by single-crystal X-ray diffraction, thermo-gravimetric analysis, magnetic susceptibility and Mossbauer spectroscopy. The compound crystallizes in the mono-clinic space group C2 with a= 30.3801(5),b= 10.1204(5),c= 10.0977(5) Å, = 107.712(1)°, V = 2957.5(4) ų and Z = 6. The structure contains 5 and 6-coordinated Fe atoms bridged by ₄-oxygen and PO₄ groups to form two types of mixed-valence Fe₄P₄ cubane-like clusters, which are connected via Fe- O- P bonds to give rise to intersecting channels that house the ethylenediammonium cations and water molecules. Room-temperature Mossbauer data confirm the presence of Fe^II and Fe^III.