Ni/ZrO_2 Catalysts Synthesized via Urea Combustion Method for CO_2 Methanation

A series of Ni/ZrO_2 catalysts were synthesized by urea combustion method for CO_2 methanation.The effects of zirconium precursors and urea dosage on the structure and catalytic performance of the catalysts were tested.Results showed that the Ni/ZrO_2–O catalyst derived from zirconium oxynitrate hydrate exhibited better catalytic activity than the Ni/ZrO_2 catalyst because of its higher Ni dispersion and smaller Ni particle size.In addition,the urea dosage significantly influenced the low-temperature activity of the catalysts by affecting the metal–support interaction,Ni dispersion,and Ni particle size.The Ni/ZrO_2–O-0.4 catalyst with a urea-to-nitrate molar ratio of 0.4 exhibited the best catalytic activity owing to its moderate metal–support interaction,highest Ni dispersion,and smallest Ni particle size,achieving 69.2% CO_2 conversion and 100% CH_4 selectivity at 300℃,0.1 MPa,and a weight hour space velocity(WHSV)of 50,000 mL/(g·h).Moreover,the urea combustion method can lead to the entire phase transformation from monoclinic ZrO_2 to tetragonal ZrO_2 accompanied by the incorporation of oxygen vacancies in the ZrO_2 lattice.This phenomenon can also be related to the high catalytic activity of the as-prepared catalysts.

Analysis of Urea in Petfood Matrices: Comparison of Spectro-Colorimetric, Enzymatic and Liquid Chromatography Electrospray Ionization High Resolution Mass Spectrometry Methods

Adulteration may consist in non authorized source of nitrogen addition to increase the protein content of some raw materials. Urea which is authorized for feed is a non nutritional source of nitrogen in food and pet food. Adulteration of food or pet food raw material by urea is thus monitored by manufacturer and governmental authorities with official methods which are either enzymatic (Association of Official Agricultural Chemists, AOAC) or spectro-colorimetric (European Community, EC). Each method gives results which are not comparable and spectro-colorimetric methods may result in false-positive urea detection. Liquid chromatographic (LC/UV-DAD) analysis of extracts from spectro-colorimetric method indicates that presence of free amino-acid may interfere with colorimetric detection of urea in the EC method with pet food samples. Liquid chromatography electrospray ionization high resolution mass spectrometry (LC/ESI-HRMS) has allowed to quantify low content (<0.01%) of urea in pet food water extracts for samples which resulted in significant urea detection with colorimetric method and in content below the detection threshold with enzymatic method. This study demonstrates the EC colorimetric method is not applicable to pet food and also food samples which have a complex composition with significant levels of free amino acids. On the other hand we clearly evidenced by means of the LC/ESI-HRMS results that the AOC Enzymatic method is applicable to urea quantification in pet food samples and gives reliable results.

ITSTUDIES ON THE EFFECT OF UREA ON THE COMPATIBILITY OF PMMA/PVC MIXTURES IN DMF BY A DILUTE- SOLUTION VISCOMETRY METHOD

The interaction between poly(methymethacrylate) (PMMA) and poly(vinyl chloride) (PVC) has been studied indilute urea solutions of dimethylformamide (DMF) at 28℃ using a dilute solution viscometry method. The results show thatthe polymer mixtures are compatible in DMF solution in the absence of urea. The influence of urea addition on the degree ofcompatibility of the polymer mixtures has been studied in terms of the compatibility parameters (△b_m and △[η]_m). It wasfound that the compatibility of the polymer mixtures is decreased with increasing urea addition, passing through a minimumat 0.5 M urea.

基于“三步法”的柴油机urea-SCR系统控制设计

为了同时实现较高的NOx转化率和较低的氨逃逸,提出了一种新颖的面向控制的urea-SCR模型,基于三步非线性控制方法——'三步法'设计了控制器。该控制器能够调节时变参数的非线性系统,跟踪理想的氨覆盖率目标。针对测量噪声和系统的不确定性,研究分析了该闭环系统的稳定性。研究基于精确enDYNA模型,在FTP75瞬态测试循环条件下,与蒙特卡罗随机参数法选取的最优PID控制器对比表明,所提出的控制策略具有很大优势。

Synthesis and luminescence properties of nanocrystalline Gd_3Ga_5O_(12):Eu^(3+) by a homogeneous precipitation method

Nanocrystalline Gd3Ga5O12:Eu3+ with cubic phase was prepared by a urea homogeneous precipitation method. X-ray diffraction (XRD), field emission scanning electron microscopy (SEM), Fourier transform infrared spectroscopy (FT-IR), thermo-gravimetric and differential thermal analysis (TG-DTA) and photoluminescence spectra were used to characterize the samples. The effects of the initial solution pH value and urea content on the structure of the sample were studied. The XRD results show that pure phase Gd3Ga5O12 can be obtained at pH =6 and pH =8 of the initial solution. The average crystallite size can be calculated as in the range of 24~33 nm. The average crystallite size decreases with increasing molar ratio of urea to metal ion. The results of excitation spectra and emission spectra show that the emission peaks are ascribed to 5D0→7FJ transitions of Eu3+, and the magnetic dipole transition originated from 5D0 →7F1 of Eu3+ is the strongest; the broad excitation bands belong to change transfer band of Eu?O and the host absorption of Gd3Ga5O12. An efficient energy transfer occurs from Gd3+ to Eu3+.

应用功率补偿型微量热仪测定磷酸脲的比热容

采用功率补偿型微量热仪连续测量样品在精准控制的升降温过程中的微小能量变化,从而得到准确的比热容数据。对水、蓝宝石、苯甲酸等6种物质(4种固体、2种液体)比热容的测定结果与文献值的偏差在1.2%以内,表明该方法具有较高的测量精度,适用于各种固体和液体比热容的连续测量。以磷酸和尿素为原料,通过络合反应、冷却结晶制备得到了磷酸脲晶体产品。元素组成分析、XRD、红外光谱和熔点测试结果表明,所制备的磷酸脲具有很高的纯度和结晶度。进一步,采用该方法测量了磷酸脲在-20~100℃范围内的比热容,并对测试数据进行了关联和相关热力学函数计算。本工作为磷酸脲在食品加工领域的应用提供了重要数据,也为各类食品添加剂比热容提供了一种新的高效测定方法。

亚微米球形Y_(2)O_(3)粉体及其透明陶瓷的制备

Y_(2)O_(3)以其优良的物理化学性质和在280 nm~8μm宽频段内的高透明性,而广泛应用于激光介质或光学窗口等领域。制备高透明的Y_(2)O_(3)陶瓷是目前的研究热点和难点,而高质量的粉体是制备高透明Y_(2)O_(3)陶瓷的关键,尿素均相沉淀法以其爆发成核和均匀可控的阴离子释放机制成为制备单分散颗粒的主要方法。本工作以硝酸钇和尿素为原料,采用尿素均相沉淀法制备了单分散、亚微米级的球形Y_(2)O_(3)粉体。采用不同方法研究了Y_(2)O_(3)前驱体和煅烧后粉体的结构、物相演变和形貌。前驱体的颗粒尺寸约为330 nm,800℃煅烧2 h得到的Y_(2)O_(3)粉体尺寸约为260 nm。在800℃煅烧后即可得到纯相的Y_(2)O_(3)粉体,粉体呈球形,分散性好,且粒径均匀。以该Y_(2)O_(3)粉体为原料,添加原子分数0.3%的Nb_(2)O_(5)为烧结助剂,在1780℃通过真空无压烧结成功制备了透明Y_(2)O_(3)陶瓷。材料的光学性质优良,即样品(厚度1 mm)的直线透过率在1100 nm处达到76.9%,在400 nm处达到65.6%。本工作为制备性能优良的Y_(2)O_(3)透明陶瓷提供了一种新的方法。

磷酸二氢铵-尿素缩聚生产全水溶聚磷酸铵的工艺研究及水溶肥展望

以磷酸二氢铵和尿素为原料,介绍了缩聚法全水溶聚磷酸铵的生产方法。

尿素废水的处理及资源化

综述了尿素废水处理及回收利用的技术进展,主要包括化学法和生物法两大类。化学法如CeO2和尿素的复合催化剂,在低温无氨条件下实现了高效脱硝;生物法如脲酶水解法和生物水解法,通过微生物的降解作用分解废水中的尿素。然而,现有技术仍面临诸多挑战,如技术提升、经济成本等。因此,未来研究应注重技术创新和成本控制,以实现尿素废水的高效处理和尿素的回收利用,促进环境保护和资源再利用。

利用高纯铝酸洗废渣制备大孔高比表面积拟薄水铝石研究

以硫酸铝、氢氧化钠及高纯铝酸洗废渣为原料,采用双铝法制备拟薄水铝石,研究了pH值、反应温度及尿素添加量对拟薄水铝石的形成及结构的影响与合成条件对拟薄水铝石形成时的物相及结构性能的影响。结果表明,随着反应温度升高,拟薄水铝石比表面积和孔容增大,结晶度提高。pH值6.5~9.5时,可以得到明显的拟薄水铝石物相;pH值达到10.5时,会产生三水铝石相。添加尿素能显著增加拟薄水铝石的比表面积和孔径。

香榧籽油中金松酸提取制备工艺研究

香榧籽油营养丰富,保健功能高。文章旨在探究香榧籽油中金松酸的最适宜的提取工艺。运用尿素包埋法,在单因素试验的基础上,采用响应面法对香榧籽油中金松酸的提取制备工艺进行优化。结果表明,尿素包埋提取香榧籽油中金松酸的最佳实验条件为:结合时间2.07 h、尿素质量33 g、结合温度68.93℃,在此条件下,香榧籽油中的金松酸最佳提取量是4.53 g。

助晶剂辅助尿素富集百香果籽亚油酸

以百香果籽油为原料,通过酒石酸辅助尿素包合富集纯化亚油酸。采用单因素实验和正交实验研究了酒石酸与尿素比例、尿素与乙醇比例、脂肪酸与尿素比例、包合温度和包合时间对尿素包合富集亚油酸的纯度与收率的影响。研究结果表明,在酒石酸与尿素质量比1∶5、混合脂肪酸与尿素质量比1∶2、尿素与乙醇质量比1∶7、包合温度5℃、包合时间12 h的工艺条件下,可将百香果籽油的亚油酸含量从68.13%提高到96.61%,收率为78.00%。

尿素醇解法合成碳酸二甲酯的研究进展

碳酸二甲酯是一种绿色、环保、性能优良的新型有机化工原料及合成中间体,应用范围十分广阔。尿素醇解法是碳酸二甲酯合成法之一,其具有原料廉价易得、过程安全及绿色环保等优点,受到了学术界及工业界的青睐。尿素醇解法合成碳酸二甲酯主要分为直接合成法和间接合成法。目前,直接法因存在转化率低等问题,还未实现工业化应用;然而,间接法合成碳酸二甲酯取得了重大突破,并已有多个企业建成了年产万吨级的生产车间,并投入到工业化生产中。本文对近年来尿素醇解法合成碳酸二甲酯的研究进展进行了综述。

折光率法车用尿素检测仪的校准及结果不确定度评定

阐述了折光率法车用尿素分析仪的的工作原理、结构,提出仪器示值误差、重复性的校准方法,评定了该方法校准结果的不确定度。经评价,方法科学合理,简便易行,可操作性强,可为仪器日常的校准工作提供参考。

双氰胺及其尿素法工艺探讨

介绍了双氰胺及其生产工艺,特别是近年来受到关注的尿素法生产双氰胺工艺,探讨了尿素法生产双氰胺一些工艺问题,并就尾气处理工艺提出了建议。

尿素包合法提纯亚麻籽油中α-亚麻酸工艺的优化研究

本文以亚麻籽油为原料油,α-亚麻酸为提取目标产物,采用单因素法研究了不同尿素溶液与脂肪酸体积比、包合温度、包合时间以及尿素-乙醇溶液浓度等对α-亚麻酸提取率的影响,优化了α-亚麻酸的提取工艺。实验结果表明,当脂肪酸与尿素溶液体积比为1∶45、尿素-乙醇溶液浓度为1mol·L^(-1)、包合温度为-15℃、包合时间为24h时,α-亚麻酸提取率可达81%。并通过液相色谱对提纯的α-亚麻酸进行表征,α-亚麻酸在12.5min出峰,符合α-亚麻酸的出峰位置。

液相法合成三聚氰酸体系热力学分析

以二元醇为循环剂液相法合成三聚氰酸是一个由醇解、消去和环加成反应构成的连串反应体系。采用基团贡献法计算了该反应体系中各组分热力学数据以及各步反应的焓变、Gibbs自由能变和平衡常数,依据热力学计算结果并结合已有文献实验数据分析反应路径的可行性及难易程度。结果表明:醇解和消去反应为吸热反应,升温有利于反应,但反应平衡常数小;环加成反应为放热反应且进行较为完全,适当强化条件下三步连串反应可顺利进行。计算及分析结果可为该体系的工业放大工艺过程开发提供理论指导。

NiMn MOF尿素氧化辅助电解海水的研究

为解决海水电解过程中氯离子对电极的腐蚀与析氯竞争反应的问题,通过水热法和退火处理在泡沫镍上制得一种耐腐蚀的NiMn MOF-300/NF来作为尿素氧化的电催化剂,并利用氧化电位更低的尿素氧化反应来代替阳极氧化反应,可有效抑制析氯反应并显著降低海水电解能耗。该催化剂在200 mA/cm2的电流密度下所需电位仅为1.37 V,比单纯电解海水的过电位低340 mV,在50 mA/cm2的电流密度下可连续反应48 h而催化性能无明显衰减,展现出优良的电催化活性与稳定性。该方法为海水电解的大规模实际应用提供了新的思路。

高浓度氨水中低含量尿素测定方法探讨

工业氨水要求氨含量在20%~22%,尿素含量需小于2%,分析工业氨水中尿素含量的方法属于常量分析。当前常量尿素分析方法有对二甲氨基苯甲醛比色法以及甲醛比色法两种,通过对比两种方法,选出最为恰当的分析方法。

柴油车尿素溶液品质在线检测方法研究

选择性催化还原(SCR)是目前满足柴油机排放法规的主流后处理技术。在SCR系统中,尿素水溶液被用作将NOX转化为N2的还原剂,以确保发动机排放达到法规标准。为了实现发动机排放的实时监测,保证尿素品质满足要求,提出了一种基于车载诊断(OBD)系统数据的柴油车尿素溶液品质检测方法。通过对国六柴油车SCR系统工作原理和尿素喷射量计算方法的深入分析,提出了基于NH3影响偏差因子的尿素品质检测方法。通过对一辆柴油车添加三种不同浓度尿素溶液进行实际道路行驶测试,验证了该方法的可行性。结果表明,所提方法能够有效检测尿素品质,并为发动机排放的实时控制提供了可靠的数据支持。