C_(2)H_(2)/CH_(4)燃烧特性实验及反应动力学研究

随着煤矿开采深度的增加,极易出现瓦斯与煤自燃灾害交织共生现象,增大灾害风险.为阐明煤与瓦斯共生灾害发生时的火焰传播特性,有必要开展煤自燃气体掺混对瓦斯燃烧特性的影响研究.乙炔气体(C_(2)H_(2))是煤高温氧化时产生的主要气体之一,甲烷(CH_(4))是瓦斯的主要成分,本文研究了0~2%体积分数C_(2)H_(2)掺混对CH_(4)层流燃烧速度的影响规律.结果表明,随着C_(2)H_(2)体积分数的增加,C_(2)H_(2)/CH_(4)混合燃料层流燃烧速度增大.层流燃烧速度受质热扩散作用、动力学和热力学效应的综合影响,当C_(2)H_(2)体积分数增加至2%时,混合燃料的(αLe)^(1/2)、T_(ad)分别增加了1.54%、2.98%,T_(a)减少了26.93%,说明动力学效应是C_(2)H_(2)促进CH_(4)层流燃烧速度增加的主导因素.由活性自由基体积分数分析可知,随着C_(2)H_(2)体积分数的增加,H、O、OH和CH_(3)等活性自由基体积分数均出现增加趋势,从而促进了CH_(4)的燃烧.

NaCl/Na_(2)SO_(4)混盐溶液纳滤脱盐分质效果研究

为探究纳滤技术在工业高盐废水处理中的脱盐分质效果,在实验室搭建的纳滤装置上,采用纳滤膜VNF1-4040,研究了NaCl和Na_(2)SO_(4)混盐溶液的脱盐分质过程,考察了在不同质量浓度比混盐进料条件下膜通量、进料质量浓度、进料温度对纳滤脱盐效果的影响.研究结果表明,在所考察工况条件下,纳滤膜对Na2SO4始终有着良好的脱除效果,截留率保持在97.5%以上.对于质量比为1∶9 NaCl/Na_(2)SO_(4)混盐,其Na_(2)SO_(4)截留率均优于相同运行条件下的其它混盐溶液.膜通量越低,进料质量浓度和进料温度越高,NaCl截留率越低,脱盐效果越好.当膜通量、进料质量浓度和进料温度分别为26 LMH、2 g/L和10℃时,Na_(2)SO_(4)截留率最高,分别为98.41%、98.24%和98.80%.纳滤膜对混盐溶液中NaCl的分质效果较好,产水中NaCl的质量浓度占比保持在96%以上.

基于密度泛函的C_(4)F_(7)N/N_(2)/O_(2)三元混合气体击穿及分解特性分析

C_(4)F_(7)N具有优异的绝缘性能和环保特性,是有潜力替代SF_(6)的环保型绝缘气体。目前,主要采用CO_(2)作为C_(4)F_(7)N的缓冲气体,其含量一般大于90%,由于CO_(2)为温室气体,将CO_(2)替换为N_(2)后与C_(4)F_(7)N混合,会使混合气体环保性大大提升。虽然,C_(4)F_(7)N/N_(2)混合气体在放电时可能有固体碳析出情况,严重影响气体绝缘设备正常运行,但是,O_(2)的加入能够改善C_(4)F_(7)N/N_(2)二元混合气体的击穿特性,抑制分解产物的产生。为此,本文基于密度泛函理论计算了O_(2)及C_(4)F_(7)N/N_(2)混合气体的电子亲和能、电负性、不同分子数量的O_(2)和N_(2)与C_(4)F_(7)N气体之间的相互作用能及电荷转移量,得出了C_(4)F_(7)N分子的福井函数、C_(4)F_(7)N/N_(2)/O_(2)各气体分子化学键的解离能,分析了C_(4)F_(7)N与O_(2)放电分解涉及的自由基反应过程,从微观角度研究O_(2)对C_(4)F_(7)N/N_(2)混合气体击穿特性及分解特性的影响。结果表明:相较于N_(2),O_(2)的电子亲和能及电负性更强,加入O_(2)有助于提高C_(4)F_(7)N/N_(2)混合气体的击穿电压。O_(2)-C_(4)F_(7)N的相互作用能约为N_(2)-C_(4)F_(7)N相互作用能的5倍;随着缓冲气体分子数量的增加,缓冲气体与C_(4)F_(7)N之间电荷转移量逐渐增加,使得C_(4)F_(7)N/O_(2)体系中C_(4)F_(7)N得到电子,而C_(4)F_(7)N/N_(2)体系中C_(4)F_(7)N失去电子。C_(4)F_(7)N未发生放电分解时,缓冲气体与C_(4)F_(7)N分子间主要以物理作用为主,O_(2)的加入消耗C_(4)F_(7)N分解产生的CF_(2)·与C·自由基,减少金属电极表面碳单质的附着。综上,O_(2)的加入能够减少碰撞电离,消耗C_(4)F_(7)N分解产生的自由基,抑制分解产物的产生,改善三元混合气体C_(4)F_(7)N/N_(2)/O_(2)的击穿特性及分解特性。

固相法制备Bi_(4)V_(2)O_(11)固体电解质在NH_(3)传感器中的应用

通过固相反应法制备了在中低温下具有高离子导电性的固体电解质Bi_(4)V_(2)O_(11),并以CuV_(2)O_(6)为敏感电极组装成混合电位型NH_(3)传感器。通过X射线衍射仪(XRD)、扫描电子显微镜(SEM)和能谱仪(EDS)分析了固体电解质的相组成和传感器的微观形貌。结果表明,在中低温(300℃~600℃)下Bi_(4)V_(2)O_(11)的电导率高于传统氧离子导体YSZ。传感器测试结果表明,基于Bi_(4)V_(2)O_(11)作固体电解质CuV_(2)O_(6)作敏感电极的传感器能在300℃~500℃的温度范围内对10 ppm~300 ppm的NH_(3)进行检测,而以YSZ作固体电解质的传感器在300℃~350℃性能下降明显;传感器在400℃下有着最高的灵敏度(-59.15 mV/decade),优于相同条件下以YSZ作固体电解质的传感器(-42.89 mV/decade)。传感器具有稳定的响应,传感器的响应值和NH_(3)浓度的对数值呈现良好的正比例关系。

Syntheses, Characterization and Biological Activity of Coordination Compounds of 3-Hydroxy-2-methyl-4<i>H</i>-pyran-4-one and Its Mixed Ligand Complexes with 1,2-Diaminocyclohexane

Coordination compounds of 3-hydroxy-2-methyl-4H-pyran-4-one with iron(III), cobat(III) and chromium(III) were synthesized with M:L (1:2). Mixed ligand coordination compounds of 3-hydroxy-2-methyl-4H-pyran-4-one and 1,2-diaminocyclohexane using the same metal ions were also synthesized M:L1:L2 (1:1:1) where L1 is 3-hydroxy-2-methyl-4H-pyran-4-one and L2 is 1,2-diaminocyclohexane. The coordination compounds obtained were characterized using electronic and infrared spectral analyses, magnetic susceptibility and percentage metal analysis. They were also evaluated for their cytotoxic and antioxidant activities. The result obtained suggested that octahedral geometry was obtained for all the compounds, as a result of additional two molecules of the solvent coordinated to the metal ions. Both the primary and secondary ligands coordinated in a bidentate fashion. The synthesized compounds exhibited moderate cytotoxicity, although none was as active as the standard. The cobalt(III) mixed ligand complex elicited the highest activity. The synthesized compounds all exhibited good to moderate antioxidant activity.

Growth of Mixed Rare Earth Tartrate Crystals (Y_(1-x)Sm_x)_2(C_4H_4O_6)_3·zH_2O from Silica Gels

Experiments performed on the grwth of mixed crystals of rare earth tartrates (Y1-xSmx)2 (C4H4O6)3.zH2O (0≤x≤1) from silica gels at 35~40℃ and 25~30℃ employing single-diffusion technique. are discussed. The crystals maintain spherulitic morphology, irrespective of the value of x, concentration of upper and lower reactants, gel pH, gel age and gel temperature. Formation Of Liesegang rings in this system is a temperature dependent phenomenon. It is shown that with the increase of the value of x the system passes from Liesegangring phenomenon to singlezone phenomenon. Operative mechanism of crystallization in the higher (35~40℃) and lower temperature ranges (25~30℃) is explained. Seeded growth experiments indicate the possibility of increasing the size of the spherulites in the gel medium

热研2号柱花草和热研4号王草混合青贮对其营养成分及发酵品质的影响

为合理开发和利用热带牧草资源,研究热研2号柱花草和热研4号王草混合青贮对其营养成分及发酵品质的影响,以期筛选出适宜的混合青贮比例,为调制高品质的青贮饲料提供理论依据。本研究将热研4号王草和热研2号柱花草混合青贮比例分别设置为100∶0(CK)、85∶15(A_(1))、70∶30(A_(2))、55∶45(A_(3))4组,青贮30 d后开封取样检测。结果表明:A_(2)组混合青贮感官评价最佳,随着热研2号柱花草比例的升高,pH和氨态氮/总氮(NH_(3)-N/TN)值逐渐升高,A_(1)、A_(2)、A_(3)组与CK组差异显著(P<0.05);乳酸(LA)含量逐渐降低,A_(3)组显著低于CK组(P<0.05);各试验组乳酸/乙酸(LA/AA)值均大于2.6;且A_(2)组丁酸(BA)显著低于其他各处理组(P<0.05)。随着热研2号柱花草比例升高,各处理组粗蛋白(CP)、干物质(DM)和粗脂肪(EE)含量随之升高,且显著高于CK组(P<0.05);水溶性碳水化合物(WSC)含量呈上升趋势,且各试验组差异不显著(P>0.05);中性洗涤纤维(NDF)逐渐降低,且各处理组间差异不显著(P>0.05);各试验组酸性洗涤纤维(ADF)显著降低(P<0.05);与CK相比,各处理组粗灰分(Ash)有所下降,且A_(1)、A_(2)、A_(3)组之间差异不显著(P>0.05);总之,热研2号柱花草和热研4号王草混合青贮可提高青贮饲料的发酵品质和营养价值。从发酵品质和营养价值综合考虑,A_(2)组的混合青贮比例最为适宜。

CuFe_(2)O_(4)改性脱硫渣氧载体与褐煤的反应特性

基于烟气脱硫渣采用改进的提纯工艺和优化参数获得高纯度和反应活性的CaSO_(4),以此作为模板剂结合溶胶凝胶燃烧合成法制备了CuFe_(2)O_(4)改性活化并具有“核-壳”结构的CaSO_(4)-CuFe_(2)O_(4)混合氧载体。在固定床反应器上研究了还原反应温度和循环次数作用下自制CaSO_(4)-CuFe_(2)O_(4)混合氧载体与煤化学链燃烧特性,系统研究了CaSO_(4)副反应与CuFe_(2)O_(4)交互作用下不同气相硫的释放和演化。研究表明,改性脱硫渣与煤反应时,CuFe_(2)O_(4)还原产物Cu、FeO通过未反应CaSO_(4)及已还原的CaS形成的熔融界面获得了其中未能利用的晶格氧,实现了本身的原位氧化,不仅明显提高了改性脱硫渣的反应活性,促进了煤的转化,同时也促进了未反应CaSO_(4)中晶格氧的定向传递和梯级利用。进一步,综合考虑煤的碳转化率以及气相硫的释放特性,确定了改性脱硫渣与煤的最佳反应条件为900℃。而循环实验发现,CaSO_(4)-CuFe_(2)O_(4)氧载体在多次循环中CaSO_(4)副反应不能完全抑制,少量气相硫的逸出加之还原氧载体的部分烧结导致反应活性衰减。

Hot corrosion behavior of Ni–16Cr–xAl based alloys in mixture of Na_2SO_4-NaCl at 600 ℃

The hot corrosion behaviors of Ni–16Cr–xAl（x=4.5%, 6.8%, 9.0%, mass fraction） based alloys in Na2SO4–25% NaCl molten salts at 600 °C were investigated. The effects of pre-oxidation and Al content on the resistance to hot corrosion were examined. The hot corrosion resistance of Ni–16Cr–xAl based alloy with Al addition from 4.5% to 9.0% increases with increasing Al content. The alloy with Al content of 9.0% shows the highest hot corrosion resistance among the examined alloys because more β–NiAl phases are obtained to sustain the Al2O3 scale repaired during hot corrosion. Pre-oxidized specimens have a superior hot corrosion resistance compared with the as-cast specimens, due to a protective oxide scale formed after pre-treatment.

PEBA2533/PEG600/CuNaY混合基质膜的制备及对C_(3)H_(6)/C_(2)H_(4)混合气的分离性能

以聚醚嵌段共聚酰胺(PEBA2533)和聚乙二醇(PEG600)共混物为有机基质、自制CuNaY分子筛为添加剂,利用溶液浇注法制备了PEBA2533/PEG600/CuNaY混合基质膜。采用扫描电子显微镜(SEM)、电感耦合等离子体发射光谱(ICP-OES)、衰减全反射傅里叶红外光谱(ATR-FTIR)及差示扫描量热(DSC)等分析方法对PEBA2533/PEG600/CuNaY混合基质膜进行表征,考察了CuNaY分子筛中Cu^(2+)交换度和含量对混合基质膜微结构和C_(3)H_(6)/C_(2)H_(4)混合气(摩尔比50/50)分离效果的影响。结果表明:CuNaY与PEBA2533/PEG600发生物理混合,并使有机基质链的移动性增强;CuNaY分子筛在混合基质膜中质量分数不大于6%时,其分布均一,与有机基质结合良好;极化能力更强的Cu^(2+)取代Na^(+)提高了混合基质膜的分离性能,Cu^(2+)交换度对C_(3)H_(6)选择性存在最佳值,低温有利于提高C_(3)H_(6)/C_(2)H_(4)选择性。在温度-35℃、压力0.2 MPa的条件下,添加CuNaY分子筛质量分数6%、Cu^(2+)交换度12.90%时制备的混合基质膜对C_(3)H_(6)/C_(2)H_(4)混合气的分离性能最佳,C_(3)H_(6)/C_(2)H_(4)选择性可达10.5,C_(3)H_(6)渗透系数为350 barrer。

C_(4)F_(7)N/CO_(2)混合气体特高压母线通流温升特性研究

随着“碳达峰、碳中和”的提出,环保型高压设备的研制迫在眉睫。C_(4)F_(7)N/CO_(2)混合气体作为极具潜力的环保替代气体,目前已经初步应用于高压母线,其通流温升特性作为重要设计指标,尚待深入研究。该文针对1100 kV环保混合气体特高压母线,构建磁-流-热多物理场耦合数值计算模型,并建立C_(4)F_(7)N/CO_(2)混合气体物性参数数据库;搭建通流温升测量试验平台,理论与试验相结合,对比分析负荷电流、充气压力、混合比、结构尺寸等不同因素对母线温升的影响,提出合理的设计方案。研究结果表明:C_(4)F_(7)N/CO_(2)混合气体的换热能力不及SF_(6),增大充气压力和C_(4)F_(7)N的混合比,可有效提高母线通流能力,但依然达不到SF_(6)的水平,在C_(4)F_(7)N/CO_(2)混合气体母线设计时应注意此问题;影响母线温升最主要的结构尺寸为导体外径,在导体外径与壳体内径间绝缘距离不变的条件下,导体外径增大11.5%,通流能力与原SF_(6)母线基本一致,该结论可应用于后续的母线设计。

脱硫渣-CuFe_(2)O_(4)混合载氧体煤化学链燃烧性能

将脱硫石膏中废弃的CaSO_(4)加以资源化利用,制备成钙基载氧体应用于化学链燃烧,具有原料易得、成本低廉和载氧率高的特点。以脱硫渣为原料,先进行提纯处理,根据课题组采用的模板-溶胶凝胶燃烧合成法制备CaSO_(4)-CuO、CaSO_(4)-Fe_(2)O_(3)、CaSO_(4)-CuFe_(2)O_(4)混合载氧体。在高温固定床反应器上对这4种载氧体与煤进行了5次还原氧化循环试验,研究4种脱硫渣系列煤化学链的反应机理和硫释放规律。试验发现基于提纯后的脱硫渣,制备的脱硫渣-CuO反应活性明显提高,且负载CuO减少了含硫气体的释放;脱硫渣-Fe_(2)O_(3)提高了氧载体反应活性对煤气化的催化作用;脱硫渣-CuFe_(2)O_(4)混合载氧体提高了碳转化率,具有良好的反应活性和循环特性,应用于煤化学链燃烧完全可行;掺入Cu、Fe元素的脱硫渣载氧体,活性明显提高,但在多次循环过程中混合载氧体出现了部分烧结、失活现象;在脱硫渣混合载氧体与煤的副反应中,Cu、Fe元素表现出良好的固硫效果,其中脱硫渣-CuFe_(2)O_(4)混合载氧体与煤副反应中,释放的SO_(2)气体体积分数峰值仅为37×10^(-6)。

基于Radix-4 Booth编码的模2^n＋1乘法器设计

模2n+1乘法(n=8、16)在分组密码算法中比较常见,如IDEA算法,但由于其实现逻辑复杂,往往被视为密码算法性能的瓶颈。提出了一种适用于分组密码算法运算特点的基于Radix-4Booth编码的模2n+1乘法器实现方法,其输入/输出均无需额外的转换电路,并通过简化部分积生成、采用重新定义的3-2和4-2压缩器等措施以减少路径时延和硬件复杂度。比较其他同类设计,该方法具有较小的面积、时延,可有效提高分组密码算法的加解密性能。

NaCl⁃Na_(2)SO_(4)废盐热处理过程中金属耐腐蚀性探究

为探究废盐热化学处理过程中的腐蚀机理,筛选可适用于反应器内的金属材料,选取了316L、Inconel625、Incoloy825、C276、TA2这几种常见的合金材料,在80%NaCl⁃20%Na_(2)SO_(4)混盐中,于800,850,900℃下进行20 h短期腐蚀试验,筛选得到了Inconel625有可能应用于废盐热化学处理装置,并对其进行了10 d的腐蚀试验,通过X射线衍射分析(XRD)、扫描电子显微镜分析(SEM)、能谱分析(EDS)等手段分析腐蚀产物。其主要腐蚀产物为NiO和Cr_(2)O_(3),腐蚀行为遵循“氧化活化理论”和“酸碱熔融模型”腐蚀机理。

基于多孔有机笼的混合基质膜及其CO_(2)/CH_(4)分离性能综合实验研究

天然气是当今最重要的清洁能源之一,为了满足天然气纯化的需求,该文设计了一项综合研究方案,包括孔材料构筑、主-客体组装、薄膜制备、结构表征和性能分析等,实现了新型混合基质膜的创新研究。该实验以多孔有机笼为填料,通过离子液体在其内部的组装来调控孔道尺寸。分离结果表明:经离子液体组装的混合基质膜展现出优异的CO_(2)/CH_(4)分离性能,与聚合物膜和未经离子液体组装的混合基质膜相比,分离性能分别提升了50.4%和245.3%,且具有出色的压力和时间稳定性,为多孔有机笼在分离膜中的应用提供了新的思路,也为天然气纯化膜材料的设计提供了新的方向。

Distinguished discriminatory separation of CO2 from its methane-containing gas mixture via PEBAX mixed matrix membrane

Highly selective separation of CO_2 from its methane-containing binary gas mixture can be achieved by using Poly(ether-block-amide)(PEBAX)mixed matrix membranes(MMMs).According to FESEM and AFM analyses,silica-based nanoparticles were homogenously integrated within the polymer matrix,facilitating penetration of CO_2 through the membrane while acting as barrier for methane gas.The membrane containing 4.6 wt% fumed silica(FS)(PEBAX/4.6 wt%FS)exhibits astonishing selectivity results where binary gas mixture of CO_2/CH_4 was used as feed gas.As detected by gas chromatography,in the permeate side,data showed a significant increase of CO_2 permeance,while CH_4 transport through the mixed matrix membrane was not detectable.Moreover,PEBAX/4.6 wt%FS greatly exceeds the Robeson limit.According to data reported on CO_2/CH_4 gas pair separation in the literature,the results achieved in this work are beyond those data reported in the literature,particularly when PEBAX/4.6 wt%FS membrane was utilized.

Physico-Chemical Properties and Catalytic Behavior of LnSrNiO_4 Mixed Oxides for NO Decomposition

A series of LnSrNiO_4(A_2BO_4, Ln=La, Pr, Nd, Sm, Gd) mixed oxides with K_2NiF_4 structure, in which Asite(Sr) was partly substituted by individual light rare earth element, was prepared. The solid state physicochemical properties including crystal structure, defect structure, IR spectrum, valence state of Bsite ion, nonstoichiometric oxygen, oxygenous species, the properties of oxidation and reduction etc. as well as the catalytic behavior for NO decomposition on these mixed oxides were investigated. The results show that all of these mixed oxide catalysts have high activity for the direct decomposition of NO(at 900 ℃ the conversion of NO is more than 90%). The effect of the substitution of light rare earth elements at Asite on catalytic behavior for NO decomposition was elucidated.

2-氰基-4’-甲基联苯的合成研究

Under the catalysis of anhydrous manganous chloride,p-methylphenylmagnesium chloride couplied with 2-chlorobenzonitrile to obtain high yield of 2-cyano-4′-methylbiphenyl in mixed solvent of THF and toluene,and the mixed solvent was recycled efficiently.

亚铁法测定HNO_3-H_2C_2O_4混合液中的NO_3^-

对测定TRPO流程H2 C2 O4反萃液中的NO3- 的分析条件进行了研究。在H2 SO4介质中 ,Fe2 +与NO3- 作用 ,定量释放出NO ,并立即同过量Fe2 +反应生成有色的亚硝酰配合物 ,利用这种性质用分光光度法或容量法测定NO3- 浓度。实验结果表明 :在氨磺酸存在下 ,质量比R(NO2 - /NO3- ) =3和R (C2 O42 - /NO3- ) =1 90时 ,对NO3- 的测定无影响。分光光度法测定NO3- 的检测下限为 0 1mg/L ,相对标准偏差为 3% ,重加回收率为 97%～ 1 0 3%。

温度、气压对C_(4)F_(7)N/CO_(2)混合气体局部过热分解特性的影响机制

C_(4)F_(7)N气体被认为是最具潜力替代SF_(6)气体的环保型气体绝缘介质。目前,国内外对C_(4)F_(7)N-CO_(2)混合气体热稳定性及分解特性的相关研究较少。文中试验研究了C_(4)F_(7)N-CO_(2)混合气体在不同温度、气压条件下的热分解特性。研究发现,0.15 MPa下5%C_(4)F_(7)N-95%CO_(2)混合气体的热分解起始温度为350℃,首先生成C_(3)F_(6)和CO,随温度升高还能够检测到CF_(4)、C_(2)F_(6)、C_(3)F_(8)、CF_(3)CN、COF_(2)、(CN)_(2)等产物。温度低于450℃条件下,C_(3)F_(6)、(CN)_(2)含量随着温度的升高而增加,温度超过500℃开始下降。在350~500℃温度下,CO、C_(3)F_(8)、CF_(3)CN、COF_(2)含量随温度升高而增加。温度超过500℃后能够检测到CF_(4),C_(2)F_(6),该两种成分可以作为严重过热故障的特征。相关研究成果揭示了C_(4)F_(7)N-CO_(2)混合气体在不同温度和气压条件下的热分解特性,为C_(4)F_(7)N-CO_(2)混合气体的工程应用提供了参考。