中空纤维膜N_2-H_2分离器

一、膜分离技术的开拓从海水中制取淡水,从空气中获得富氧等过程,对于工业面貌的改变,人民生活的改善都有重要的意义。但过去,只能采用蒸发、吸附等方法,效率低,设备庞大,难以普遍推广。材料科学的兴起,具有分离功能的高分子材料的出现,为一种新型的分离技术──膜分离过程的形成与发展,奠定了基础。

国产中空纤维N_2-H_2膜分离装置的应用

本文从生产应用角度论述了“国产中空纤维氮氢膜分离器装置”的原理、性能、流程。并将本装置与其它提氢装置,以及,国外同类产品进行了比较,以便供众多的研究者作参考。

N_2/H_2辉光放电等离子体电子碰撞电离的Monte Carlo模拟

采用N2/H2直流辉光放电等离子体综合的Monte Carlo模型,通过计算N2/H2混合气体直流辉光放电等离子体电子碰撞电离及离解电离率,电子密度及电子能量分布函数,研究了H2的浓度对氮辉光放电等离子体电子碰撞电离过程的影响.研究结果表明：随着H2浓度的升高,电子的电离及离解电离碰撞率减少;但在一定的放电条件下,加入少量的H2,可以提高电子碰撞电离及离解电离率,即选取合适的放电参数,加入少量的氢,可以提高放电空间的电子及离子的密度.模型考虑了12种和电子相关的反应,在氮气中加氢的比例为0-30%.这些影响能通过放电中发生的碰撞过程及鞘层厚度的改变得到解释.研究结果为认识N2/H2混合气体辉光放电等离子体过程机理提供参考依据.

一种用N_2-O_2-H_2气体混合物Tridyne催化反应的微推力器

在脉冲模式和稳态工作模式下对使用经催化后反应的气体(N_2-O_2-H_2)的10mlb姿态控制推力器进行评估的实验计划已经实施。评估了两种类型的催化剂,其中更具活性的一种(英格哈特MFSA 30目催化剂)已用于飞行级推力器舱的一系列真空模拟试验中。推力器的压力和温度响应特性完全满足典型的航天器要求。当反应气体的温度从环境温度变化到1500℉时,推力实际上保持恒定。利用在精确成形的心轴上电镀镍的方法,加工成飞行级试验硬件。给出了设计研究结果,即装有3个推力器的典型的航天器模块。为提供俯仰、偏航和滚动轴所需的对向推力力偶,设计制造了 4个这样的模块。Tridyne系统与氮气冷气系统相比确实节省了重量,并可与先进的电加热气体系统相媲美。

不同结构聚芳醚的H_2／N_2透过选择性能

研究了一系列聚芳醚的Ｈ_２／Ｎ_２透过选择性能，详细讨论了温度和结构的系列变化对气体透过性能的影响。结果表明，此系列聚合物Ｈ_２和Ｎ_２的透过系数与聚合物的自由体积间有较好的线性相关性，通过结构变化以调节聚合物的自由体积，可以有效地控制聚合物的透Ｈ_２系数和Ｈ_２／Ｎ_２选择系数。

N_2O-C_2H_2火焰原子吸收光谱法测定特规氢氧化钾中钙含量

提出用N2O-C2H2火焰原子吸收光谱法进行特规氢氧化钾中钙含量的测定,并对样品消化处理条件和干扰因素进行了综合考虑.实验表明:该方法具有很高的灵敏度、很好的重现性,同时具有步骤简单、操作容易掌握、干扰少等特点.测定样品含钙量时,其相对标准偏差均小于1.0%,标准加入回收率均为97.0%～100%(n=5),适用于特规氢氧化钾中钙含量的测试,此方法达到了实验室的仪器分析质量与质量控制要求.

H_2-O_2(N_2)混气着火过程非线性特性研究

本文采用基元反应模拟H2-O2(N2)混合气体的着火过程,得到了不同散热和不同燃料-氧化剂初始浓度比条件下着火临界曲线。结果表明: H2/O2摩尔比相同时,不同散热条件下的着火临界曲线非常相似,可近似看成同一曲线在第二区的“延伸线”上滑移。临界曲线第二区的P—T关系符合2k1=ks[Ms]。散热对着火极限的影响和着火延迟时间有密切关系,在临界曲线第二区延迟时间最小,导致散热对该区的影响最弱,从而使着火临界曲线非常相似。

H_2S Sensing Characteristics of Thin Film SnO_2 Sensor with N_2 Treatment

<正>SnO_2 thin film sensors were fabricated by a thermal evaporation method.The sensors were heated for thermal oxidation.For high porosity,SnO_2 thin film sensors were treated in a N_2 atmosphere.The sensors that were treated with O_2 after being treated with N_2 showed 70 % sensitivity for 1×10~ -6) of H_2S,which is higher than the sensors that were only treated with O_2.The Ni metal,as a catalyst,was evaporated on the thin film Sn on the Al_2O_3 substrate.The sensor was heated to grow the Sn nanowire in a tube furnace with N_2 flow.Sn nanowire was heated for oxidation.The sensitivity of SnO_2 nanowire sensor was measured for 500×10~ -9) of H_2S.The selectivity of the SnO_2 nanowire sensor was compared with the thin film and the thick film SnO_2.Each sensor was measured for H_2S,CO,and NH_3 in this study.

00Cr22Ni5Mo3N中合金双相不锈钢的热处理

00Cr22N i5Mo3N中合金双相不锈钢具有优良的耐腐蚀性和较高的强度,但不能热处理相变强化。离子渗氮可大大提高其表面硬度。研究了离子渗氮介质、工艺参数对00Cr22N i5Mo3N钢渗氮层硬度、深度、脆性和均匀性的影响,介绍了已成功应用于该钢的离子渗氮工艺。

Diffusion of H2, CO, N2,O2 and CH4 Through Nanoporous Carbon Membranes

Diffusion of pure H2, CO, N2,O2 and CH4 gases through nanoporous carbon membrane is investigated by carrying out non-equilibrium molecular dynamics （NEMD） simulations. The flux, transport diffusivity and activation energy for the pure gases diffusing through carbon membranes with various pore widths were investigated. The simulation results reveal that transport diffusivity increases with temperature and pore width, and its values have a magnitude of 10^-7 m^2·s^-1 for pore widths of about 0.80 to 1.21 nm at 273 to 300 K. The activation energies for the gases diffusion through the membrane with various pore widths are about 1-5 kJ·mol^-1, The results of transport diffusivities are comparable with that of Rao and Sircar （J. Membr. Sci., 1996）, indicating the NEMD simulation method is a good tool for predicting the transport diffusivities for gases in porous materials, which is always difficult to be accurately measured by experiments.

基于光腔衰荡光谱法检测SF6/N2混合电气设备中特征组分H2S技术

H2S气体是SF6/N2混合电气设备潜伏性故障的特征分解组分之一。现有的现场技术均需标定,腔衰荡光谱法无需标定且能检测到低极限的H2S浓度。根据光腔衰荡光谱的检测原理,对激光器、光隔离器、低损耗光学腔、光电探测器等光路和电路器件进行选型和设计,配合软件设计、编程和数据处理完成了装置的研制,研制的光腔衰荡光谱法检测H2S装置无需光开关,对其进行定性定量试验,光谱图正确,H2S气体检测低限值达到1 μL/L,符合现场检测的需要,为现场检测技术奠定了基础。

D-23.5/131-143氮氢气循环压缩机气阀改造

D-23.5/131-143氮氢气循环压缩机是四川美丰化工股份有限公司德阳分公司新建200 kt/a合成氨及300 kt/a尿素工程的关键设备之一。该压缩机装机试运行时,电机电流过大,严重影响整个系统的正常运行。通过分析发现,该压缩机气阀通流面积过小,为此,从气阀结构型式、气流通道等方面对该压缩机气阀进行改造。改造后的气阀装机投用后,压缩机电机电流得到较大幅度下降且具有良好的可靠性。

CO_2吸收增强气化制备氨合成原料气的可行性

以煤和低浓度煤层气共气化制备氨合成原料气,煤层气提供合成所需的氮组分,从而取消常规制气的补氮过程或替代空气气化;采用CO2吸收增强制气,在造气工段制得φ(H2)/φ(N2)=3,φ(CO2+CO)≤0.30%,φ(H2)≥70%的粗煤气,可直接进入醇烷化或醇烃化精制岗位.为论证系统的可行性和适宜操作条件,采用热力学平衡模型分析煤气组分随制气反应条件变化的规律,提出可一步制得φ(H2)/φ(N2)=3,φ(CO2+CO)≤0.30%,φ(H2)≥70%的制气反应条件和煤层气流量;根据煤层气温度、压力与爆炸极限的关系,确定催化转化/脱氧反应器的操作参数.结果表明,以合成原料气组分衡量,基于CO2吸收增强气化的煤和低浓度煤层气制气方法可行,且有利于简化调比和气体净化过程.

H_2对N_2直流辉光放电电子行为的影响

通过用MonteCarlo方法模拟N2-H2混合气体直流辉光放电等离子体快电子行为,从不同H2浓度的电子能量分布函数,电子密度以及ef-N2碰撞率等方面,研究了加H2对氮辉光放电等离子体过程的影响.研究结果表明随着H2浓度的升高,电子的平均能量增加,电子密度及ef-N2的各种非弹性碰撞率减小;但在一定的放电条件下,加入少量的H2,可以提高N2的离解和电子激发率,即选取合适的放电参数,加入少量的氢,不仅可以提高电子密度,而且有助于提高重要氮活性粒子(N2,N+,N)的浓度.并得到了有利于粒子(N2,N+,N)产生的H2的最佳浓度.研究结果为认识N2/H2混合气体辉光放电等离子体过程机理,探索提供“氮活化粒子富源”的实验研究提供参考依据.计算的激发态(C3пu)的分布与实验结果进行了比较.

N_2-H_2容性耦合等离子体电非对称效应的particle-in-cell/Monte Carlo模拟

H_2-N_2混合气体电容性耦合射频放电在有机低介电系数材料刻蚀中具潜在研究意义.采用paxticle-incell/Monte Carlo模型模拟了双频(13.56 MHz/27.12 MHz)电压源分别接在结构对称的两个电极上的H_2-N_2容性耦合等离子体特征,研究了其电非对称效应.模拟结果表明,通过调节两谐波间的相位角θ,可以改变其电场、等离子体密度、离子流密度的轴向分布及离子轰击电极的能量分布.当相位角θ为0°时,低频电极(晶片)附近主要离子(H_3^+)的密度最小,离子(H_3^+,H_2^+,H^+)轰击低频电极的流密度及平均能量最高;当θ从0°变化90°时,低频电极的自偏压从-103V到106V近似线性增加,轰击电极的离子流密度变化约±18%,H^+离子轰击低频电极的最大能量约减小2.5倍,轰击电极的平均能量约变化2倍,表明氢离子能量和离子流几乎能独立控制.

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.

Effects of Reaction Conditions on Performance of Ru Catalyst and Iron Catalyst for Ammonia Synthesis

Activated carbon-supported Ru-based catalyst and A301 iron catalyst were prepared,and the influences of reaction temperature,space velocity,pressure,and H2/N2 ratio on performance of iron catalyst coupled with Ru catalyst in series for ammonia synthesis were investigated.The activity tests were also performed on the single Ru and Fe catalysts as comparison.Results showed that the activity of the Ru catalyst for ammonia synthesis was higher than that of the iron catalyst by 33.5%-37.6% under the reaction conditions：375-400 °C,10 MPa,10000 h-1,H2︰N2 3,and the Ru catalyst also had better thermal stability when treated at 475 °C for 20 h.The outlet ammonia concentration using Fe-Ru catalyst was increased by 45.6%-63.5% than that of the single-iron catalyst at low tem-perature （375-400 °C）,and the outlet ammonia concentration increased with increasing Ru catalyst loading.

二氧化碳置换法开采天然气水合物研究进展

应用CO_(2)置换法开采天然气水合物被认为是一种极具潜力的提高CH_(4)采收率和CO_(2)埋存率的技术。论述了CO_(2)及其混合气置换法开采天然气水合物的机理,梳理了CO_(2)混N_(2)/H_(2)及地热辅助CO_(2)提高水合物中CH_(4)采收率的技术进展。研究表明:①应用纯CO_(2)置换开采天然气水合物时,CH_(4)的采收率较低,而将CO_(2)与N_(2)、H_(2)以不同比例混合后注入天然气水合物藏中进行CH_(4)开采,能够有效提高CH_(4)的采收率。②CO_(2)与N_(2)或H_(2)混合注入水合物层时,多种气体分子在竞争吸附作用下降低了CH_(4)分子与水合物分子笼之间的范德华力,同时降低了混合气中CO_(2)的分压,导致水合物相平衡曲线上移,抑制了置换过程中CO_(2)水合物的生成速率,减轻了包裹作用的不利影响,从而提高CH_(4)采收率。③CO_(2)混合N_(2)注入开采水合物时,N_(2)的混入虽然能够减轻包裹作用的影响,但新形成的N_(2)水合物会堵塞CO_(2)进入水合物分子笼的通道,因此提高CH_(4)采收率效果有限。④在水合物层条件下H_(2)并不会形成新的水合物,而且混入少量的H_(2)又会与N_(2)发生吸附竞争,从而抑制N_(2)水合物的形成,故将低浓度的H_(2)气混入CO_(2)与N_(2)的混合气中能够进一步提高对水合物中CH_(4)的置换率,从而提高CH_(4)的采收率。因此,混入H_(2)被认为是提高CO_(2)置换开发水合物效果的重要途径。⑤混合气周期注气方式可明显提高水合物中CH_(4)的采收率和CO_(2)水合物藏封存率。⑥应用地热辅助CO_(2)开采水合物的方法也能够降低新形成水合物的包裹作用,同时实现CO_(2)在地热层和水合物层的两次埋存,在提高CH_(4)采收率的同时,大大提高CO_(2)在地层中的埋存率。

Effect of Addition of Nitrogen to a Capacitively Radio-Frequency Hydrogen Discharge

A hybrid PIC/MC model is developed in this work for H2-xN2 capacitively coupled radio-frequency （CCRF） discharges in which we take into account 43 kinds of collisions reaction processes between charged particles （e-, H3＋, H＋, H＋, N＋, N＋） and ground-state molecules （H2, H＋ N2）. In addition, the mean energies and densities of electrons and ions （ 3, H＋, H＋）, and electric field distributions in the H2-N2 CCRF discharge are simulated by this model. Furthermore, the effects of addition of a variable percentage of nitrogen （0-30%） into the H2 discharge on the plasma processes and discharge characteristics are studied. It is shown that by increasing the percentage of nitrogen added to the system, the RF sheath thickness will narrow, the sheath electric field will be enhanced, and the mean energy of hydrogen ions impacting the electrodes will be increased. Because the electron impact ionization and dissociative ionization rates increase when N2 is added to the system, the electron mean density will increase while the electron mean energy and hydrogen ion density near the electrodes will decrease. This work aims to provide a theoretical basis for experimental studies and technological developments with regard to H2-N2 CCRF plasmas.