HP40合金在H2_O/H_2和空气中氧化行为的研究

在H2O/H2和空气的状态下,HP40合金试样表面氧化出不同的复合氧化层,对比研究在不同的氧化条件下试件表面氧化物的组成。用XRD、EDS和SEM分别对两种环境下的试样表面氧化层的情况进行了对比分析。结果表明,在H2O/H2气氛下,试样表面生成了包含尖晶石的氧化层,随温度的升高,由针状变为颗粒状;在空气条件下,随着温度升高,形成了致密颗粒状富铬氧化物,并且逐渐长大,部分高温氧化下,试样表面氧化层出现了剥落。不同氧化对HP40钢表面氧化影响较大,不同金属氧化物在氧分压不同时,表现出稳定性不同。

H_2S-HCl-H_2O腐蚀体系中低温缓蚀剂的影响因素研究

研究3种低温缓蚀剂在常减压装置"三顶"冷凝冷却系统腐蚀环境中的缓蚀效果及影响因素。研究结果表明,3种缓蚀剂的缓蚀性能依次为HS03≈E1573>HS401KM,缓蚀剂的缓蚀性能随缓蚀剂质量分数和腐蚀体系pH值的升高而增加,腐蚀体系中H_2S的含量对缓蚀剂的缓蚀性能影响不大。另外通过电化学测试研究发现,添加缓蚀剂后,腐蚀体系的自腐蚀电位发生正移,缓蚀剂对碳钢腐蚀反应的阴极、阳极过程都有所抑制;3种缓蚀剂对阴极和阳极腐蚀电流密度的降低幅度依次为E1573≈HS03>HS401KM。

C_2H_2/CO/H_2O、C_2H_2/CO_2/H_2等离子体聚合物薄膜的结构、表面形态及性能的研究

用红外光谱、元素分析、电子显微镜等技术研究了C_2H_2/CO/H_2O、C_2H_2/CO_2/H_2的等离子体聚合物薄膜的结构和表面形态,广角X射线衍射实验研究其结晶情况,分析观察了这两种等离子体聚合物的溶解性和热稳定性。结果表明,这两种等离子体聚合物薄膜具有高交联、支化程度,且分子链排列完全无序。

H_2O和SO_2对甲烷在金属铁表面还原NO的影响

为考察烟气中H2 O和SO2对甲烷在金属铁表面还原NO的影响，采用程序控温电加热水平陶瓷管反应器，在N2气氛和模拟烟气气氛中、300~1100℃下进行了脱硝实验研究，并对反应后铁样品的组成进行了X光衍射（ XRD）、场发射扫描电镜（ ESEM）和X 射线能谱（ EDX）分析。结果表明：在N2气氛中H2 O及SO2在高温下与NO竞争和金属铁反应，对金属铁还原NO有轻微的抑制作用。在加入甲烷的模拟烟气中，H2 O和SO2共存对甲烷在金属铁表面还原NO有一定促进作用。水蒸气在高温下对金属铁的氧化过程中，会生成更多相对疏松的Fe2 O3氧化层，有利于NO向内扩散与金属铁反应。加入7% H2 O和0.02% SO2的模拟烟气，反应段过量空气系数SR1＝0.7和燃烬段过量空气系数SR2＝1.2时，在1000℃，有、无H2 O及SO2时脱硝效率分别为96.9%和90.6%。

20Ni2Mo抽油杆钢在湿H_2S环境中的腐蚀速率

文章对20N i2Mo抽油杆钢在不同浓度及温度下的H2S腐蚀行为进行了研究,并进行了表面腐蚀形貌和扫描电镜分析,为油田选材和防腐实践提供理论依据。结果表明,温度和H2S浓度对20N i2Mo钢的腐蚀具有交互作用,相同温度条件下H2S浓度增加了20N i2Mo钢的腐蚀速率,而在同样的H2S浓度下,20N i2Mo钢的腐蚀速率随温度的增加而增加。

次甲基硅SiH与H_2X(X=O,S)反应的热力学及动力学性质研究(英文)

在量子化学对SiH与H2O和H2S反应计算的基础上,运用统计热力学和Wigner校正的Eyring过渡态理论,计算了上述两反应在200～2000K温度范围内的热力学函数、平衡常数、频率因子A和速率常数随温度的变化。计算结果表明,两反应在低温下具有热力学优势,而在高温下具有动力学优势。比较两反应的计算结果发现,在相同的温度下,SiH与H2O反应比SiH与H2S反应放热较多,但速率常数却较小。SiH与H2O反应和前文报道的SiH与HF反应的比较表明,SiH与H2O反应放热较少,而且在相同温度下,速率常数也较小。

水-氢交换氢同位素体系HD/H_2O、DT/D_2O和HT/H_2O分离性能模拟研究

计算模拟应用于氢同位素分离领域,能够方便、快捷地进行工艺条件分析。本工作采用数值模拟的方法对比研究了水-氢催化交换过程中HD/H_2O、DT/D2O和HT/H_2O三种氢同位素体系的分离性能。研究表明:在一定工艺条件下,三种体系均在操作温度为343K时达到最大的分离效果;随着气液比从1.0增大到3.0,最优操作温度均从343K降低到323K,但是在此过程中,HT/H_2O体系的分离效果受温度的影响较小一些;在达到最大分离效果的目标下,HT/H_2O体系需要的理论塔板数比HD/H_2O和DT/D2O体系少,同时,在优化的工艺条件下,三体系气相中氢同位素浓度在交换柱内分布曲线存在一定的差异。

Properties of oxide films grown on 25Cr20Ni alloy in air-H_2O and H_2-H_2O atmospheres

The oxidation kinetics,surface morphology and phase structure of oxide films grown on 25Cr20Ni alloy in air-H2O and H2-H2O atmospheres at 900 ℃ for 20 h were investigated.The anti-coking performance and resistance to carburization of the two oxide films were compared using 25Cr20Ni alloy tubes with an inner diameter of 10 mm and a length of 850 mm in a bench scale naphtha steam pyrolysis unit.The oxidation kinetics followed a parabolic law in an air-H2O atmosphere and a logarithm law in a H2-H2O atmosphere in the steady-state stage.The oxide film grown in the air-H2O atmosphere had cracks where the elements Fe and Ni were enriched and the un-cracked area was covered with octahedral-shaped MnCr2O4 spinels and Cr1.3Fe0.7O3 oxide clusters,while the oxide film grown in the H2-H2O atmosphere was intact and completely covered with dense standing blade MnCr2O4 spinels.In the pyrolysis tests,the anti-coking performance and resistance to carburization of the oxide film grown in the H2-H2O atmosphere were far better than that in the air-H2O atmosphere.The mass of coke formed in the oxide film grown in the H2-H2O atmosphere was less than 10％ of that in the air-H2O atmosphere.The Cr1.3Fe0.7O3 oxide clusters converted into Cr23C6 carbides and the cracks were filled with carbon in the oxide film grown in the air-H2O atmosphere after repeated coking and decoking tests,while the dense standing blade MnCr2O4 spinels remained unchanged in the oxide film grown in the H2-H2O atmosphere.The ethylene,propylene and butadiene yields in the pyrolysis tests were almost the same for the two oxide films.

H_2O_2/H_2O溶液冷冻干燥制备HA多孔陶瓷

以H2O2／H2O结晶体为模板冷冻干燥法，制备出片层孔及圆孔的双孔型羟基磷灰石（hydroxyapatite，HA）支架，观察了支架的双孔形貌，分别研究HA浆料初始固含量和孔隙率、冷冻温度和孔径尺寸之间的关系。结果表明：当初始浆料固含量在20vol％～45vol％之间变化时，可以制得孔隙率在79％～54％的多孔陶瓷支架，孔的连通性较好，支架孔隙率随着浆料固含量的降低而升高；当冷冻温度分别为-20℃、-50℃、-80℃时，平均片层间距及圆形孔孔径尺寸分别为550～1000μm，800—1000μm；450～800μm，550～750μm；330～380μm，450～500μm；支架的孔径尺寸随着冷冻温度的降低而减小，两种形貌孔道在孔壁上呈树枝状相连通，有利于细胞的攀附和生长。

Effects of ZnCl2/H2O/C2H5OH Treatment on the Filter Paper Performance

Bleached softwood kraft pulp (BSKP) fibers were pretreated in a 5 mol/L NaOH aqueous solution at 35℃ for 90 min. The ZnCl2/H2O/ C2H5OH was used to treat the pretreated BSKP fibers, filter papers were then prepared. In the course of processing, the effects of various molar ratios of ZnCl2/H2O/C2H5OH on the filter paper performance were evaluated. SEMEDX was conducted to analyze the physical configuration of the filter papers. Moreover, FT-IR and XPS were performed to further characterize the BSKP, the pretreated BSKP and the filter paper fibers. The results indicated that the fibers treated by ZnCl2/H2O/C2H5OH were swollen and exhibited slight fibrillation, leading to a looser fiber structure and therefore, enhanced filter paper performance. Air permeability increased from 161.7 L/(m2·s) to 1450.4 L/(m2·s) for the filter papers when the molar ratio of ZnCl2/H2O/C2H5OH was 1:14:1. The optimum molar ratio of ZnCl2/H2O/C2H5OH was found to be 1:14:1, and no significant effect of ZnCl2/H2O/C2H5OH on fibers’ functional groups was detected. These results showed that filtration performance of filter papers was improved when treated with the ZnCl2/H2O/C2H5OH solution.

Recent Progress,Challenges,and Prospects in Two‑Dimensional Photo‑Catalyst Materials and Environmental Remediation

The successful photo-catalyst library gives significant information on feature that affects photo-catalytic performance and proposes new materials.Competency is considerably significant to form multi-functional photo-catalysts with flexible characteristics.Since recently,two-dimensional materials(2DMs)gained much attention from researchers,due to their unique thickness-dependent uses,mainly for photo-catalytic,outstanding chemical and physical properties.Photo-catalytic water splitting and hydrogen(H2)evolution by plentiful compounds as electron(e−)donors is estimated to participate in constructing clean method for solar H2-formation.Heterogeneous photocatalysis received much research attention caused by their applications to tackle numerous energy and environmental issues.This broad review explains progress regarding 2DMs,significance in structure,and catalytic results.We will discuss in detail current progresses of approaches for adjusting 2DMs-based photo-catalysts to assess their photo-activity including doping,hetero-structure scheme,and functional formation assembly.Suggested plans,e.g.,doping and sensitization of semiconducting 2DMs,increasing electrical conductance,improving catalytic active sites,strengthening interface coupling in semiconductors(SCs)2DMs,forming nano-structures,building multi-junction nano-composites,increasing photo-stability of SCs,and using combined results of adapted approaches,are summed up.Hence,to further improve 2DMs photo-catalyst properties,hetero-structure design-based 2DMs’photo-catalyst basic mechanism is also reviewed.

OXIDATION BEHAVIOR OF KOVAR ALLOY IN CONTROLLED ATMOSPHERE

Controlled oxidation experiments were performed on Kovar alloy by changing oxidation atmosphere, temperature, and exposure time to produce films with different oxide type and thickness. The results indicated that single Fe3O4 and single FeO were respectively obtained when Kovar alloy was oxidized in N2-2.31%H2O-0.95%H2 at 500℃ and in N2-2.31%H2O-0.5%H2 at 1000℃, and all kinetic curves followed linear relation; mixed oxides of FeO and Fe3O4 formed when Kovar was oxidized in N2-2.31%H2O at 1000℃and parabolic kinetics were obeyed. Analysis of metallographic cross section of oxides indicated that oxygen diffusion inward through the oxide scale is responsible for intergranular oxide, which had formed beneath the oxide scales when the oxide products were mixed oxides of FeO and Fe3O4, and which did not occur when the oxide was single FeO or Fe3O4. The oxidation model was also established.

Gasbench-IRMS水平衡氢同位素分析方法研究及应用

采用Gasbench-IRMS对水平衡氢同位素质谱分析影响因素进行了研究,确立了分析方法。通过实验室和标准水样GBW04403的分析,验证了该方法具有良好精度和准确度。在此基础上进行了本地饮用水的分析,并结合H2-H2O(l)体系氢同位素分馏平衡方程,实现实验室氢气工作标准气的标定,结果与铬还原法标定值相一致。

油气线20钢弯头腐蚀失效分析

使用近2a(年)油气线20钢弯头产生了腐蚀穿孔和大量的蚀坑。对失效弯头进行了金相检验、X射线成分分析及X射线衍射结构分析,确定腐蚀产物主要是由于原油中含有氯化物和硫化物,其在原油加工中易产生氯化氢和硫铁化合物;其腐蚀机理主要是属于低温HCl-H2O-H2S腐蚀环境下的腐蚀磨损。提出了防范措施,主要以工艺防腐为主,严格控制氯化物和硫化物的含量,并选用有较好的抗HCl-H2O-H2S腐蚀能力的渗铝钢作为20钢的替代产品。

水蒸气和H_2S对白云石循环碳酸化/煅烧过程中CO_2捕获性能的影响

基于水汽变换条件,利用加压热重分析仪研究了温度、压力及煤气中H_2O和H_2S对白云石煅烧/碳酸化循环捕获CO_2性能的影响.研究表明,吸收剂在650和700℃时的吸收反应速率和循环稳定性明显优于550和600℃时;加压促进吸收剂对CO_2的吸收,且有H_2O时促进作用更明显;H_2O能有效改善吸收剂的循环稳定性,提高吸收剂在快速动力学反应控制阶段的吸收能力.650℃时Ca O硫化反应速率远小于碳酸化反应速率,煤气中H_2S对Ca O吸收CO_2的反应动力学特性无明显影响,但硫化产物CaS在吸收剂表面累积会减少用于吸收CO_2的CaO量,而反应过程中H_2O的存在又会减缓CaS的累积.

纳米InVO_4的合成及其光解水制氢性能研究

为提高光催化分解H2O制H2的效率,采用模板剂导向自组装法合成了具有较大比表面积的纳米InVO4．光催化剂,通过XRD、TEM、SEM、BET、UV-Vis等表征手段对样品的晶相组成、形貌、比表面积和吸光性进行表征．讨论了无机源与模板剂用量比、pH值、晶化温度、溶剂萃取和煅烧温度对样品结构的影响,并比较了纳米InVO4与锐钛型TiO2,的可见光响应性能．结果表明,通过改变无机源与模板剂的摩尔比或控制煅烧温度,可选择性地合成不同晶型的纳米InVO4光催化剂,其在可见光区的吸光性能比锐钛型TiO2有较大改进,在紫外光激发下的光解H2O制H2性能与固相烧结法所得InVO4相比有较大提高,产H2速率约为16.6 mmol/(h·g)．

CECE水-氢交换工艺

研究了基于Pt-SDB憎水催化剂的CECE水-氢交换工艺,讨论了填料处理工艺、填料规格、反应温度、气液比、塔内径大小等对CECE水-氢交换理论塔板高度的影响和反应温度、气液比对水-氢交换阻力降的影响。结果表明,填料的酸处理方式优于碱处理方式;填料规格2.5 mm×2.5 mm×0.2 mm、填料与催化剂填装比例4.5∶1.0、反应温度70~75℃是内径164 mm CECE水氢交换的合适工艺条件;温度和氢气流速是影响CECE催化交换塔阻力的主要因素;随CECE催化交换塔内径的增大,交换塔表现出明显的放大效应。

铅铋合金气相氧含量控制初步实验研究

由于铅铋共晶合金(LBE)对结构材料具有较强的腐蚀性,为了防止PbO的析出和形成一层稳定的Fe3O4保护层,LBE中的氧需要控制在一个特定的范围内。本研究基于气相氧控的原理,设计和构建了铅铋合金气相氧控静态高温试验装置,用于铅铋合金气相氧控技术研究。初步实验结果显示:氧传感器电动势随着LBE覆盖气体中H2/H2O比(体积比)的增大而升高且响应快速,表明LBE中氧的含量逐渐降低;对特定的H2/H2O比,LBE中氧含量能够稳定在一个特定的范围。因此,通过控制和调节LBE覆盖气体中H2/H2O比可以实现将LBE中的氧含量控制在一个特定的范围。该技术有望应用于铅铋合金与结构材料的相容性实验中,以及在液态铅铋动态回路中用于铅铋合金中氧含量的控制。

电解铝液中氢形成机理

对铝电解过程中铝液中氢的形成机理进行研究。研究结果表明:电解铝所用的原材料(Al2O3和AlF3等)有良好的吸水性能,所携带的水分进入电解液后,或与氟化盐发生水解反应,或被电解成氢和氧,析出的氢通过扩散和Al2O3寄生机制进入铝液,这是电解铝液中氢的主要来源。水分与铝反应所产生的氢通过Al2O3夹杂物-气体寄生机制进入铝液,对电解铝液中氢的形成有重要影响;铝电解过程生成的氢通过扩散和寄生机制对铝液的污染,是短流程工艺影响铝熔体冶金质量的主要根源。

不锈钢三角螺旋高效填料在水-氢交换工艺中的性能研究

对液相水-氢交换工艺中的小型高效三角螺旋填料进行脱脂除油、亲水等进行了表面处理;通过总有机碳方法 TOC分析,处理工艺对填料的脱油效果明显,扫描电子显微镜SEM分析表明该处理工艺明显改善了填料比表面积。在典型的水-氢交换工艺条件下,处理过后的小型高效填料与Pt-SDB催化剂分层填装,该处理方式显著提高了水-氢交换性能,等板高度HETP降低至13.46 cm;进一步实验测定水-氢交换柱流体力学性能:床层持液量为0.03 m3/m3、床层压降为20 Pa/m,与理论计算一致。