高硫石油焦制备高储气性能天然气吸附剂

以高硫石油焦为原料,KOH为活化剂,十二烷基苯磺酸钠（SDBS）为表面活性剂制备天然气吸附剂,分析了高硫焦基吸附剂的孔结构和孔分布特征,讨论了高硫焦制备吸附剂的活化机理。结果表明,预活化中加入表面活性剂SDBS可提高KOH与原料的混合均匀度,对活化效果有利。最优活化条件下制备的吸附剂样品GSR3和GSR4的微孔容积分别达到1.0985cm3·g－1 和1.3193cm3·g－1,孔径分布集中在0.9nm~1.5nm;在25℃、充放气压力3.5MPa和0.1MPa下,GSR3、GSR4对甲烷的质量吸附量分别达到0.139和0.145,有效体积脱附量达到111和115。粉体高硫焦基吸附剂的性能非常接近于低硫焦基吸附剂。     

天然气吸附剂的开发及其储气性能的研究：Ⅰ.吸附剂制备与体积 …

报道了天然气吸附剂的基本制备技术,并采用体积法评定了吸附剂的储气性能。结果表明,采用作者开发的吸附剂制备工艺可获得性能优良的天然气吸附剂。以木质素为原料制备的粉状吸附剂,其比表面积可达２９１２ｍ＾２／ｇ,微孔体积可达１．４８ｃｍ＾３／ｇ,平均孔径为１．４８ｎｍ,堆密度为０．３０ｇ／ｃｍ＾３。在６．０ＭＰａ、２５℃下,天然气的吸附储存量可达到１４０Ｖ／Ｖ。天然气吸附剂的储气性能与其比表面,微孔数量,     

天然气吸附剂的开发及其储气性能的研究——Ⅰ-吸附剂制备与体积法评定吸附剂的储气性能

报道了天然气吸附剂的基本制备技术,并采用体积法评定了吸附剂的储气性能。结果表明,采用作者开发的吸附剂制备工艺可获得性能优良的天然气吸附剂。以木质素为原料制备的粉状吸附剂,其比表面积可达２９１２ｍ２／ｇ,微孔体积可达１－４８ｃｍ３／ｇ,平均孔径为１－４８ｎｍ ,堆密度为０－３０ｇ／ｃｍ３ 。在６－０ＭＰａ、２５ ℃下,天然气的吸附储存量可达到１４０Ｖ／Ｖ。天然气吸附剂的储气性能与其比表面、微孔数量、填充密度等参数有重要关系     

稻壳吸附剂提高啤酒稳定性的研究

利用稻壳良好的吸附特性,制备成吸附剂用于提高啤酒的稳定性。稻壳粉碎与稀硫酸混合,240℃密封干馏,再以高温灼烧活化,得到对单宁有较强吸附能力的稻壳吸附剂。以此吸附剂去除啤酒中的部分单宁,以提高酒体的胶体稳定性,试验表明,每100ml啤酒以0．4g吸附剂在15℃下搅拌吸30min,可使酒中单宁量下降16．7％,从而减缓了引起啤酒混浊的缔合反应,使酒体稳定性明显提高。与聚乙烯聚吡咯烷酮比较,具有吸附速度快、吸附单宁更强及成本低廉的优点。     

壳聚糖吸附剂的制备及其性能

本文以壳聚糖为主要原料，分别经过悬浮交联和复合制备得到壳聚糖（Ｃｈｉｔｏｓａｎ）树脂吸附剂（简称ＣＳ吸附剂）和壳聚糖—活性炭（Ｃｈｉｔｏｓａｎ－Ａｃｔｉｖｅｃａｒｂｏｎ）复合吸附剂（简称ＣＳ—ＡＣ吸附剂）。研究影响制备吸附剂的诸因素；测定两种吸附剂的性能；探讨两种吸附剂对印染废水的脱色和对有毒金属离子的去除。研究结果表明：本研究条件下制得的ＣＳ和ＣＳ—ＡＣ吸附剂比表面积分别为８２．９Ｍ２／ｇ和９３７．３Ｍ２／ｇ；对亚甲基蓝溶液（５００ｍｇ／Ｌ）的静态吸附量为１４１．２ｍｇ／ｇ吸附剂和８３５．１ｍｇ／ｇ吸附剂；ＣＳ吸附剂对印染废水的动态脱色量为１２６．９ｍｇ／ｇ吸附剂；两种吸附剂对有毒重金属Ｐｂ（２＋）的去除率均达９０％以上，而且耐酸、碱性能较好，均为优良的颗粒状吸附剂。     

新型亲和吸附剂的研究（I）：吸附剂的制备及其配体固定化

以醋酸乙烯酯为单体，三烯丙基异氰尿酸酯为交联剂制得大孔交联共聚物，以其为载体，氨基酸为配体制得一系列亲和吸附剂，探讨了溶剂用量和性质，反应时间和温度等条件对配体固定化的影响，并确定了最佳制备条件。     

树脂填充EVAL纤维吸附剂的制备及其吸附性能表征

采用具有亲水性的乙烯-乙烯醇共聚物(EVAL)作为纤维吸附剂基质材料,粉末型Lewatit阳离子交换树脂CNP80ws为功能材料,采用可控相分离方法,制备了不同表面形态结构的树脂填充EVAL吸附剂.当使用外部液体调控相分离过程时,在纤维的表面形成了粗糙的开孔结构,并且随树脂的填充量提高纤维表面的粗糙度与开孔度有所提高.研究结果表明:树脂填充EVAL纤维吸附剂具有较大的吸附容量与较高的脱附率,其吸附容量不低于53.9mg BSA/g吸附剂(树脂填充量50%).     

球形纤维素固定化DNA制备免疫吸附剂

以球形纤维素为载体,经环氧氯丙烷活化后共价键联小牛胸腺DNA,制备DNA免疫吸附剂,通过血液灌流能够治疗系统性红斑狼疮.对病人血清的吸附实验结果表明,每毫升吸附剂与3mL病人血清混合,于37℃保温1 h,可吸附除去40%～70%致病抗体     

空气净化吸附剂的制备及其吸附性能研究

随着现代工业的迅速发展，有毒废气严重危害人们的健康，治理废气污染已经成为环境保护的热点之一。本文介绍合成二个系列大孔共聚物GT和GTD，经功能基化，制得具有净化空气中的过量的CO2、SO2和NO2的吸附剂。     

大孔球形纤维素吸附剂的制备及性能研究

本课题以天然棉纤维为原料,通过碱化、老化、碳化以及溶解,制得纤维素粘胶,按一定比例加入Ca-CO3,然后,采用反相悬浮再生法,制备纤维素球,在HCl-NaCl-CaCl2。混合溶液中除去CaCO3后,得大孔球形纤维素经SEM对整体结构和表面结构进行了表征。这种大孔球经环氧化后,制备了一种开链氮杂冠醚化大孔球形纤维素吸附剂（PSC-OCAC）,测定了PSC-OCAC对几种常见金属离子的吸附性能,并应用到江河水体中几种金属的分离、富集,建立起PSC-OCAC-分离富集-火焰原子吸收分光光度法,测定水体中痕量重金属总量的方法,测定了南充境内两河、嘉陵江水体中的几种常见重金属含量。     

Nanoporous carbons as promising novel methane adsorbents for natural gas technology

Nanoporous carbons were synthesized using furfuryl alcohol and sucrose as precursors and MCM-41 and mordenite as nanoporous templates.The produced nanoporous carbons were used as adsorbent for methane storage.The average pore diameter of the samples varied from 3.9 nm to 5.9 nm and the BET surface area varied from 320m2/g to 824m2/g.The volumetric adsorption experiments revealed that MCM-41 and sucrose had better performance compared with mordenite and furfuryl alcohol,correspondingly.Also,the effect of precursor to template ratio on the structure of nanoporous carbons and their adsorption capacities was investigated.The nanoporous carbon produced from MCM-41 mesoporous molecular sieve partially filled by sucrose shows the best methane adsorption capacity among the tested samples.     

Preparation of adsorbents from sugarcane manufacturing by-product filter-mud by thermal activation

A series of experiments with thermal activation were carried out on filter-mud waste from the sugarcane refining process in a rotary reactor. The influence of activation parameters on the agro-industrial waste by varying the operation temperature of 600–800 °C was determined. The variations of pore properties as well as the change of chemical characteristics in the resulting solids (FM series) were also studied. The results show that the resulting samples are type IV with hysteresis loops corresponding to type H3 from nitrogen adsorption–desorption isotherms, indicating slit-shaped mesoporous characteristics (BET surface areas of 57–132 m² g⁻¹). The results also show that the surface areas of the unwashed products and water-washed products are lower than those of the washed products because of residues left in the crude products. The adsorption of paraquat on FM sample was preliminarily evaluated. The isotherm showed that the FM adsorbent had a high affinity for this herbicide and can be well fitted by Freundlich model. Thus, the agro-industrial waste is one resource for producing the mesoporous materials, and it may be applied to the water treatment for the removal of organic contaminants.     

Comparison of three methods for natural gas dehydration

This paper compares three methods for natural gas dehydration that are widely applied in industry:(1) absorption by triethylene glycol, (2) adsorption on solid desiccants and (3) condensation. A comparison is made according to their energy demand and suitability for use. The energy calculations are performed on a model where 105 Nm3/h water saturated natural gas is processed at 30 °C. The pressure of the gas varies from 7 to 20 MPa. The required outlet concentration of water in natural gas is equivalent to the dew point temperature of -10 °C at gas pressure of 4 MPa.     

Principles of methane adsorption and natural gas storage

The adsorption amount of methane on 16 different kinds of materials at 3.5 MPa and 298 K holds a linear relation with the specific surface area. The linear relationship implies that gases are adsorbed monolayerly on the surface of adsorbents at above-critical temperatures. Determination of surface area and calculation of storage capacity of a material are explicitly discussed. It is indicated that methane storage is different from natural gas storage and the difference affects the development of storage material. Natural gas is a mixture and all components other than methane cannot be desorbed when the tank pressure released to atmospheric at ambient temperature, therefore, a storage mechanism other than adsorption might be more suitable.     

基于金属氧化物脱硫剂的天然气深度脱硫

确立了基于GC-MS和GC-SCD的天然气中超微量硫化物定性定量分析方法与条件,并分析了北京城市天然气中的硫化物。结果表明,天然气中含有三种硫化物,主要成分为四氢噻吩(THT),占总硫的94.2%。采用共沉淀法制备了ZnO/Al₂O₃脱硫剂,采用浸渍法制备了ZnO/γ-Al₂O₃、CuO/γ-Al₂O₃和CuO-ZnO/γ-Al₂O₃脱硫剂,并进行了天然气中THT深度脱除的实验研究。结果表明, 采用浸渍法制备的CuO/γ-Al₂O₃和CuO-ZnO/γ-Al₂O₃脱硫剂同时具有良好的低温活性和高温活性,可在50~500℃的宽温下将THT脱除至物质的量分数10×10^-9以下,从而能够满足以天然气为燃料的分布式质子交换膜燃料电池电站对脱硫深度和脱硫温宽的要求。     

Enhancing gas adsorption and separation capacity through ligand functionalization of microporous metal-organic framework structures

Hydroxyl- and amino- functionalized [Zn(BDC)(TED)(0.5)]·2DMF·0.2H(2)O leads to two new structures, [Zn(BDC-OH)(TED)(0.5)]·1.5DMF·0.3H(2)O and [Zn(BDC-NH(2))(TED)(0.5)]·xDMF·yH(2)O (BDC=terephthalic acid, TED=triethylenediamine, BDC-OH=2-hydroxylterephthalic acid, BDC-NH(2)=2-aminoterephthalic acid). Single-crystal X-ray diffraction and powder X-ray diffraction studies confirmed that the structures of both functionalized compounds are very similar to that of their parent structure. Compound [Zn(BDC)(TED)(0.5)]·2DMF·0.2H(2)O can be considered a 3D porous structure with three interlacing 1D channels, whereas both [Zn(BDC-OH)(TED)(0.5)]·1.5DMF·0.3H(2)O and [Zn(BDC-NH(2))(TED)(0.5)]·xDMF·yH(2)O contain only 1D open channels as a result of functionalization of the BDC ligand by the OH and NH(2) groups. A notable decrease in surface area and pore size is thus observed in both compounds. Consequently, [Zn(BDC)(TED)(0.5)]·2DMF·0.2H(2)O takes up the highest amount of H(2) at low temperatures. Interestingly, however, both [Zn(BDC-OH)(TED)(0.5)]·1.5DMF·0.3H(2)O and [Zn(BDC-NH(2))(TED)(0.5)]·xDMF·yH(2)O show significant enhancement in CO(2) uptake at room temperature, suggesting that the strong interactions between CO(2) and the functionalized ligands, indicating that surface chemistry, rather than porosity, plays a more important role in CO(2) adsorption. A comparison of single-component CO(2), CH(4), CO, N(2), and O(2) adsorption isotherms demonstrates that the adsorption selectivity of CO(2) over other small gases is considerably enhanced through functionalization of the frameworks. Infrared absorption spectroscopic measurements and theoretical calculations are also carried out to assess the effect of functional groups on CO(2) and H(2) adsorption potentials.     

预混天然气在多孔介质燃烧器中的燃烧与传热

在一台小型渐变型多孔介质燃烧器上进行了预混天然气燃烧与传热试验研究,探讨了天然气速度和多孔介质厚度对多孔介质燃烧室的温度分布、排烟温度和流动阻力的影响。结果表明,天然气在渐变型多孔介质燃烧器中燃烧稳定,燃烧室与水冷夹套间的换热受天然气速度和多孔介质厚度影响,换热效果比空管中燃烧明显增强,同时预混天然气通过多孔介质的进出口压差随着天然气速度和多孔介质厚度的增加而增加。     

固定床天然气与煤共气化火焰区温度影响因素的研究

用实验室固定床反应器模拟合成气制备炉，考察了该工艺中不同因素对火焰区温度的影响。实验中首先确定了使火焰区温度最低时的甲烷和氧气相对入口位置，然后在此条件下分别考察了进料中H2O/O2和CH4/O2摩尔比变化对火焰区温度的影响。结果表明，甲烷和氧气相对入口位置平齐时火焰区温度最低，火焰区温度均随进料中CH4/O2和H2O/O2摩尔比的增大而降低。     

火焰原子吸收光谱法测定天然气转化催化剂中的氧化钾

建立火焰原子吸收光谱法测定天然气转化催化剂中氧化钾的分析方法。该方法将催化剂样品和助溶剂四硼酸锂熔融后再用盐酸溶解定容,采用火焰原子吸收光谱仪对样品溶液进行测定。在优化的实验条件下,钾离子的质量浓度在0.05~0.50 mg/L范围内与吸光度呈良好线性关系,相关系数为0.9995。钾的方法检出限为0.001 mg/L,定量限为0.01 mg/L,测定结果的相对标准偏差为2.6%~4.3%(n=6),样品加标回收率为97.8%~102.3%。与HG/T 3543-2014中的酸溶制样法相比,该方法能够将催化剂样品中的难溶钾盐溶出,分析结果准确度更高,可用于天然气转化催化剂中氧化钾含量的测定。