MgO改性HZSM-5型分子筛对合成LPG的影响

以Mg(NO3)2.6H2O乙醇溶液等体积浸渍分子筛HZSM-5进行改性,与自制的甲醇催化剂(MeLi)机械混合制得合成液化石油气(LPG)双功能催化剂。通过NH3-TPD对改性HZSM-5分子筛酸性表征,在固定床单管反应器上,研究MgO在催化剂中含量对一步法合成LPG的影响,并对催化剂进行寿命实验。结果表明,随着MgO在催化剂中含量的升高,HZSM-5的强酸强度随之降低;MgO在HZSM-5中质量分数在0.25%~1.00%时,催化剂的效果最佳。改性HZSM-5作为脱水催化剂,可提高目标产物的含量,同时大幅度提升催化剂的寿命及稳定性。     

Detection of liquid petroleum gas using mixed nanosized tungsten oxide-based thick-film semiconductor sensor

The thick-film semiconductor sensor for liquid petroleum gas (LPG) detection was fabricated using a mixed WO₃-based sensor. We present the characterization of both their structural properties by means of XRD measurements and the electrical characteristics by using gas-sensing properties. The sensing characteristics such as sensitivity, working range, cross-sensitivity and response time were studied by using nanosized WO₃-based mixed with different metal oxides (SnO₂, TiO₂ and In₂O₃) and doped with noble metals (Au, Pd and Pt). The WO₃-based mixed with 5 wt.% In₂O₃ and 0.5 wt.% Pd showed the higher sensing characteristic at low concentration of LPG sensor at an operating temperature 225 °C.     

热分层对蒸汽爆炸过程影响的实验研究

本文针对液化石油气受热侵袭时出现的热分层及其对蒸汽爆炸的影响进行了模拟实验研究。在不同充装度(85％和45％)下的热响应实验证明,当储罐受到外部热源的侵袭时,在气液相区均存在着热分层。通过两种不同的加热形式,分别得到了分层度ξ>1和ξ=1的液化石油气。在此基础上进行了模拟蒸汽爆炸的泄压实验。通过实验数据的比较发现,由于分层区的存在,减小了液化石油气能量和压力泄放过程中的压力反弹,减小了蒸汽爆炸发生的可能。     

镀高折射率纳米膜的长周期光纤光栅特性研究

针对镀高折射率纳米膜的长周期光栅,建立了传感理论模型,研究了长周期光栅的谐振波长与纳米膜厚度及外界折射率的关系,给出不同纳米膜厚度下长周期光栅不同包层模式重组特性.研究发现,当长周期光栅外面镀上一层沿角向均匀分布的纳米膜时,随着膜厚变化会出现包层模分布的明显调制;适当选择镀膜参数和外界介质折射率,最低次包层模式HE1,2会成为镀膜层中的导模,其他的包层模式将会发生模式转换现象;对于较低次包层模式(如HE1.6),在模式转换的时候存在两步转换,而高次的包层模只有一步转换(如HE1.14).同时给出了包层模式转换对外界折射率响应的关系:当膜层厚度增加时,长周期光栅模式转换现象移至低折射率区域.     

Long period grating in/on planar and channel waveguides: A theory description

A comprehensive, complete theory suitable for a long period grating (LPG) on/in a planar or channel waveguide is described on the basis of coupled mode theory. The theory aims at key characteristic parameters with respect to the effect of the LPG, including resonance wavelength, transmission power of the guided mode in the waveguide, full-width at half-maximum (FWHM) of the power attenuation band in transmission spectrum of the guided mode, and coupling coefficient between a guided and a coupled mode. The type of the grating including relief and index modulation, different polarization state combinations of the guided mode and the resonant mode, and slanted grating structure are considered in this theory. The influences of the coupling between two guided modes and between a guided mode and a substrate mode are discussed. The role of cladding layer in a long period waveguide grating is demonstrated in particular. Finally, the expressions for the sensitivity of resonance wavelength as a function of external temperature, pressure and surrounding refractive index are derived.     

固相萃取采样和气相色谱-质谱检测液化石油气中的芳烃杂质（英文）

建立石墨化碳(GCB)为吸附剂的动态采样系统,可实现液化石油气(LPG)中芳烃杂质的采样和同步萃取富集。LPG中的芳烃杂质(苯、甲苯、二甲苯、苯乙烯和萘)被快速捕集后,进行气相色谱-质谱(GC-MS)定性定量分析。与C18和苯乙烯二乙烯苯吸附剂(PS-DVB)相比,GCB填充柱对芳烃杂质的萃取效率最高。评价了基于GCB填充柱采样的吸附效率、重现性和贮存稳定性。采样和分析方法对氮气模拟气流中8种芳烃的定量分析线性范围为15~1 000μg/m~3。所开发的方法具有回收率高(92.9%~109.0%)、检出限低(1.0~6.2μg/m~3)、准确性好(相对标准偏差为0.6%~5.8%)和准确度高(标准偏差为0.8%~8.2%)等优点。     

HZSM-5/SAPO-11负载Cr_2O_3催化转化LPG制低碳烯烃活性研究

SAPO-11晶化液中预置HZSM-5合成了HZSM-5(核)/SAPO-11(壳)复合分子筛。以复合分子筛为载体负载10%Cr_2O_3,研究了其孔分布、酸性质及其对液化石油气(LPG)转化制乙烯和丙烯反应的催化性能。结果表明,复合分子筛由HZSM-5表面包覆不同厚度的SAPO-11微晶组成,随着晶化时间延长,复合分子筛壳层厚度增加。复合分子筛负载Cr_2O_3催化剂的介孔率先增加后降低;弱酸量先增加后降低,强酸强度增加,强酸量先降低后增加,强酸密度减小。复合分子筛载体在LPG选择转化反应中催化性能优于单个分子筛和机械混合分子筛,其中,晶化12 h合成样品负载Cr_2O_3用于LPG转化反应对原料总转化率和乙烯+丙烯选择性最高,分别为42.63%和65.89%,CH_4和C_(5+)选择性分别为6.32%和15.48%。通过控制晶化时间可调变壳层厚度、复合分子筛介孔率以及酸性质,改善产物分布。     

复合催化剂上合成气一步法制备液化石油气的研究

合成气一步法制备液化石油气(LPG)可在甲醇合成催化剂和分子筛组成的复合催化剂上实现.本实验选用与Y分子筛孔径相近的SAPO-5分子筛(0.73 nm × 0.73 nm)作为研究对象,在335 ℃、3.0 MPa、空速1 500 h^-1、Cu-Zn-Al/Pd-SAPO-5质量比为1/2的条件下获得了73.9%的CO转化率和73.0%的LPG选择性,该结果进一步证实了较大孔径的分子筛有利于LPG的合成.此外,研究结果还表明,合成气一步法制备LPG过程中甲醇/二甲醚向烃类的转化遵循烃池机理.     

GM3018脱硫剂在LPG深度脱硫中的开发和应用

M30 1 8脱硫剂是将原料气中的无机硫催化转化为单质硫 ,生成单质硫后沉积在脱硫剂中 ,而有机硫则被催化转化为硫和硫酸根 ,沉积在脱硫剂中。脱硫效果的好坏实际上取决于硫的转化。脱硫剂需定期更换 ,回收处理     

Synthesis of nanorods and mixed shaped copper ferrite and their applications as liquefied petroleum gas sensor

Present paper reports the preparation and characterization of nanorods and mixed shaped (nanospheres/nanocubes) copper ferrite for liquefied petroleum gas (LPG) sensing at room temperature. The structural, surface morphological, optical, electrical as well as LPG sensing properties of the copper ferrite were investigated. Single phase spinel structure of the CuFe₂O₄ was confirmed by XRD data. The minimum crystallite size of copper ferrite was found 25 nm. The stoichiometry was confirmed by elemental analysis and it revealed the presence of oxygen, iron and copper elements with 21.91, 12.39 and 65.70 atomic weight percentages in copper ferrite nanorods. The band gap of copper ferrite was 3.09 and 2.81 eV, respectively for nanospheres/nanocubes and nanorods. The sensing films were made by using screen printing technology and investigated with the exposure of LPG. Our results show that the mixed shaped CuFe₂O₄ had an improved sensing performance over that of the CuFe₂O₄ nanorods, of which a possible sensing mechanism related to a surface reaction process was discussed. Sensor based on mixed shaped copper ferrite is 92% reproducible after one month. The role of PEG in the synthesis for obtaining nanospheres/nanocubes has also been demonstrated.