Preparation of TiO_2-MoO_3 nano-composite photo-catalyst by supercritical fluid dry method

A series of TiO 2-MoO 3 nano-composite photocatalysts were prepared by supercritical fluid dry method(SCFD) and an impregnation technique with TiCl 4 and (NH 4) 6Mo 7O 24 ·4H 2O as the starting materials. The catalysts were characterized by the means of XRD, TEM and UV-Vis. Methyl orange was used as model compound for the evaluation of their catalytic activities. The results indicated that the photo-catalyst prepared by SCFD had the advantages of small size(12.84 nm), narrow distribution and good dispersivity. The presence of small amount of Mo in composite catalyst gives rise to the red shift of its absorbance wavelength, decrease of its energy gap and increase of the utility of visible light. Furthermore, higher surface acidity of the photo-catalyst was obtained as the result of the addition of MoO 3. Compared with pure TiO 2, the catalytic activity of the TiO 2-MoO 3 nano-composite photo-catalyst was improved significantly. As the doping concentration of the composite catalysts was controlled at 0.6%(molar percentage), 100% degradation of methyl orange was achieved with in 1.2 h irradiation time.

Preparation of (Ti, Sn)O_2 Nano-Composite Photocatalyst by Supercritical Fluid Dry Combination Technology

A series of TiO2-SnO2 nano-sized composite photo-catalysts containing Sn (9.3%-30.1%) were prepared from TiCI4 and SnCl4·5H2O by using sol-gel, supercritical fluid dry and solid-phase reaction (SCFD) combination technology. Characterizations with X-ray diffraction (XRD), transmission electron microscopy (TEM) and Fourier Transform Infrared Spectroscopy (FTIR) showed that, in addition to anatase type TiO2, a new active phase (Ti, Sn)O2 (with particle size of 2.0-4.3 nm) formed, and there were no SnO2 crystals observed in the range of the doping concentration studied. Photo-catalytic reaction of phenol was used as a model reaction to evaluate the catalytic activities of the obtained catalysts. Compared with pure TiO2 or Ti-Sn catalyst prepared with general sol-gel method, Ti-Sn nano-composite photo-catalyst thus obtained showed significant improvement in catalytic activity. The photo-catalytic degradation rate of phenol could reach as high as 93.5% after 7 h. The preparation conditions of the new phase (Ti, Sn)O2 were investigated and its catalytic mechanism was proposed. The photo-catalytic particles prepared using SCFD combination technology exhibited small particle size, large surface area and high activity.

Degumming of Silk Fibers by CO₂Supercritical Fluid

This paper is to study a new method to remove sericin from raw silk fiber. This new process is done using an organic acid as a pretreatment and then using CO2 supercritical fluid to remove sericin from silk fiber. This method would be a huge break from the traditional environmentally unsustainable methods used today. This new processing method keeps the removed sericin in a clean state that can be used as a highly marketable silk protein in the medical and cosmetic industries.

A supercritical CO_2 fluid technique for the preparation and evaluation of rhBMP-2-loaded PLLA microspheres

Introduction The use of supercritical fluids such as supercritical CO2（scCO2） has provided a ’clean’ and effective alternative to traditional methods of protein delivery systems.Here。

CO_(2)干法压裂用支化硅氧烷及含氟聚合物类增稠剂研究现状与应用进展

近年来,CO_(2)干法压裂技术作为一种新型无水压裂技术已成为致密油气藏开发的重要研究方向。经调研发现,CO_(2)干法压裂技术尚未成熟,主要是因液态或超临界CO_(2)黏度低而存在滤失量大、携砂性能差等问题,需要加入增稠剂来提高CO_(2)的黏度。针对硅氧烷类增稠剂需借助大量助溶剂、其他增稠剂而增稠效果不理想、温度压力适应性差等问题,从增稠机理和增稠特性两方面概述了目前支化硅氧烷类(不使用或少量使用助溶剂)及含氟类增稠剂CO_(2)压裂液增稠剂的研究进展,并在增稠特性部分综述了这两类增稠剂的结构特征和性能特点。其次,对国内相关液态CO_(2)和超临界CO_(2)干法压裂技术现场应用进行综述。最后,分别从增稠机理、增稠性能和现场应用方面对干法压裂CO_(2)增稠剂及其压裂液体系未来的研究方向进行了展望。

Dynamic Supercritical Fluid Devolatilization of Polymers

A number of studies have been reported on the applications of supercritical fluids to polymeric processes. The presence of volatiles can affect the end-use properties of polymer materials. Therefore, these volatiles must be reduced to a level below the maximum permissible limit. Conventional heat-relevant techniques for polymer devolatilization sometimes have limited effectiveness. Devolatilization with supercritical fluids, however, can enhance removal of volatiles from polymers. A model for diffusion-limited extraction is used to characterize dynamic supercritical fluid devolatilization of spherical polymer particles. The rate of supercritical fluid devolailization for styrene/polystyrene system is measured at 343 K and 18 MPa and at CO2 flow rate of 1.93, 3.27 and 5.62 L·min^-1, respectively. The model analysis, which is consistent with experimental results, indicates that the supercritical fluid devolatilization is not solubility-limited but diffusion-limited when CO2 flow rate is above 4.00 L·min^-1.

不同渗透率储层超临界CO_(2)改造模拟研究

水力压裂是非常规能源开发中的一种高效储层改造方法,近年来超临界二氧化碳(S-CO_(2))被认为是一种很有前景的压裂液,相比于水基压裂液由于其具有更高的压裂能力而备受关注。但在基质渗透率(RMP)相对较高的储层岩石中,将超临界二氧化碳用于压裂会出现较高的滤失。本文通过离散裂缝网络(DFN)方法对考虑天然裂缝系统的不同储层进行了模拟,对用水压裂(WF)和用S-CO_(2)压裂(SCF)在不同岩石基质渗透率储层中的适用性及压裂能力进行了模拟研究。与常用的水基压裂液相比,在等同条件下S-CO_(2)的黏度和密度较低,更容易使储层岩石破裂并生成更为复杂的裂缝网络。但是在岩石基质渗透率相对较高的储层中,裂缝不断扩展会导致S-CO_(2)滤失量的不断加剧,严重影响裂缝流体压力的提升,并进一步影响到裂缝的扩展。数值模拟结果也呈现了压裂期间裂缝长度增长趋势出现近水平发展拐点,而这一现象恰恰反映流体滤失对裂缝扩展的影响。在这种情况下继续提高压裂液注入速度可以缩短压裂时间,从而有效降低滤失对压裂的影响。计算结果清楚地表明了岩石基质渗透率的重要性,这一结果可以直接用于S-CO_(2)压裂适用性及生产能力的理论指导。

阳春沟区块页岩气超临界CO_(2)增能压裂研究与应用

目的目前,超临界CO_(2)压裂应用前景广阔,为更好地指导现场应用,亟需明确超临界CO_(2)压裂的起裂压力和裂缝扩展规律。方法考虑压裂过程温度变化对CO_(2)物性的影响以及岩石中的热应力作用,建立热流固耦合超临界CO_(2)压裂模型。探究了水平应力差、天然裂缝逼近角以及CO_(2)注入温度对裂缝起裂的影响。结果在阳春沟Y井开展的现场试验表明:与水力压裂相比,超临界CO_(2)压裂可以明显降低裂缝起裂压力,即使在高水平应力差下,仍可以获得复杂的裂缝形态;天然裂缝逼近角增大,起裂压力随之增大,裂缝复杂程度增加;CO_(2)注入温度与地层温差越大,热应力作用越明显,裂缝形态越复杂。结论现场应用显示注入前置超临界CO_(2)可以有效降低起裂压力,有利于提高后续水力压裂的缝内净压力,增强储层改造效果。

Isolation of Organochlorine Pesticide from Ginseng with Supercritical CO_2

The feasibility of removal of the organochlorine pesticides residues of hexachlorocyclohexane(BHC) from radix ginseng with supercritical CO2 was explored. Some factors, such as extraction pressure, extraction temperature, and kinds of co-solvents were investigated. The experimental results indicate that it is possible to reduce BHC residues in radix ginseng to the level of 0.1 × 10^-6 with supercritical CO2 in the presence of suitable amount of co-solvent, such as water.

裂缝内CO_(2)压裂液相态分布特征的数值模拟研究

CO_(2)干法压裂工艺利用纯液态CO_(2)进行携砂压裂施工,对储层进行改造,该技术已实现大量现场应用。但是,CO_(2)压裂液在裂缝内的相态分布尚未进行系统的研究。运用流体模拟软件,建立二维裂缝的物理模型,分析CO_(2)压裂液在造缝过程中的相态分布。研究结果表明,在造缝过程中,CO_(2)压裂液以液态CO_(2)和超临界CO_(2)两种相态存在,并且以超临界CO_(2)的分布为主;CO_(2)压裂液充满裂缝时,随着测点与井口距离的增加,CO_(2)温度先增加,然后趋于稳定;CO_(2)压裂液进入裂缝内,压裂施工完成20 min时,裂缝内CO_(2)的温度达到地层温度;地层温度越低,液态CO_(2)吸热越慢,达到超临界相态所需时间越长,超临界CO_(2)分布区距离缝口越远。

牡丹籽油超临界CO_(2)萃取制备工艺优化及其抗氧化功效研究

以牡丹籽为原料,利用正交实验法分析超临界CO_(2)萃取牡丹籽油过程中CO_(2)流量、萃取温度、萃取时间以及分离压力对提取率的影响。结果表明,在萃取过程中,参数设置CO_(2)流量为20 kg/h、萃取时间为2.5 h、萃取温度为45℃以及分离压力为8 MPa时提取率最高,达到92.6%。采用该提取工艺制备的牡丹籽油通过生化分析、细胞生物学技术等手段,以清除DPPH、PTIO自由基能力、细胞氧化损伤存活率评价其抗氧化功效。结果表明,牡丹籽油对DPPH、PTIO自由基具有一定的清除作用,对成纤维细胞的氧化损伤具有很好的保护作用。牡丹籽油作为一种具有抗氧化功效的基础植物油,可被广泛应用于皮肤护理领域。

再生聚酯纱线的超临界CO_(2)萃取除油工艺

再生聚酯在纺纱时需加入纺丝油剂,油剂会影响后续染色过程。为减少油剂对后续染色过程的影响,采用超临界CO_(2)流体萃取法,研究了再生聚酯纱线在超临界体系下的除油效果,选取除油温度、压力、时间、CO_(2)流量作为研究因素,利用响应面法对工艺条件进行优化,采用扫描电镜和红外光谱分析进一步对除油后纱线性能进行探究。结果表明:最佳工艺条件为除油温度64℃,除油压力21 MPa,除油时间60 min,CO_(2)流量415 kg/h,在此条件下再生聚酯纱的除油率可达到78%,超临界CO_(2)除油后的纱线表面油剂有一定减少,纱线物理结构未受到影响。

Supercritical Fluid Carbon Dioxide in the Extraction of Lanolin and Its Alcohol

The use of supercritical fluid carbon dioxide (SFCO2) in extraction of lanolin and its alcohol is superior to the conventional solvent extraction method. Its distinctive advantages include high extractive ratio, nontoxic and nonflammable solvents, and minimal by -product pollution. The resulting refined lanolin and its alcohol have light color and little odor, and can be used as raw materials for high grade cosmetic products.

超临界CO_(2)流体制备发泡聚氯乙烯塑料的研究进展

主要阐述了超临界CO_(2)流体制备发泡聚氯乙烯塑料的原理及发泡过程。根据生产工艺的不同,超临界CO_(2)发泡工艺可分为间歇成型、注塑成型和挤出成型等。同时探讨了影响发泡聚氯乙烯材料的泡孔结构因素,展望了超临界CO_(2)流体制备发泡材料的发展前景。

直通道PCHE内S-CO_(2)与铅铋合金耦合换热特性数值分析

针对超临界二氧化碳(S-CO_(2))与液态铅铋合金在印刷电路板换热器内耦合换热问题,本文建立了“1对2型”直通道印刷电路板换热器换热单元三维模型。采用数值模拟方法对S-CO_(2)与液态铅铋合金耦合换热特性进行了研究。结果表明:冷侧S-CO_(2)对流换热热阻远大于热侧液态铅铋合金热阻,即印刷电路板换热器整体换热更受制于S-CO_(2)的影响,且S-CO_(2)侧的换热强度决定了整体换热的下限。改变S-CO_(2)侧入口质量流速比改变液态铅铋合金侧入口质量流速对印刷电路板换热器换热器单元功率影响程度更大。S-CO_(2)侧入口质量流速每增加1 kg/s,换热功率增加335.77 kW。本文研究结果可为后续液态铅铋合金与S-CO_(2)耦合换热研究和印刷电路板换热器设计提供参考。

超临界CO_(2)流体萃取碱渣中的铀

采用氟化氢铵法全溶解碱渣,并用电感耦合等离子体发射光谱法(ICP-AES)测定了其中铀的含量,得到铀质量分数为(16.7±0.3)%(n=6);采用X射线衍射(XRD)、扫描电镜-能谱(SEM-EDS)结合的分析方法,得到了碱渣中铀的主要赋存形态为UO_(3)单体、氟化物(CaF_(2)、NaF、MgF_(2)、UF_(4)等)、SiO_(2)-P_(2)O_(5)-UO_(3)、Cr_(2)O_(3)-Fe_(2)O_(3)等固体熔融体及UO_(3)被上述固熔体包裹的形式。以磷酸三丁酯(TBP)-HNO 3为配位剂,在超临界CO_(2)流体萃取实验室平台上研究了各因素对萃取过程的影响,建立了最佳萃取条件,即碱渣粒径0.250~0.420 mm、w=25%碱渣的饱和Al(NO_(3))_(3)溶液作为盐析剂、在TBP-HNO_(3)/U摩尔比≥50、萃取温度50℃和压力20 MPa时静态萃取2 h,铀的萃取率可达98.5%。本工作为碱渣中铀的回收再利用提供了一种新方法。

溶剂热法对V_(2)O_(5)电极材料的改性

采用溶剂热法在五氧化二钒(V_(2)O_(5))中掺杂铜离子,研究了不同乙醇与水体积比对产物微观结构和电化学性能的影响。结果表明,随着乙醇与水体积比的增大,首次充放电容量不断增加,移动电荷电阻逐渐减小,产物形貌从片状、球状最终变为棒状。与普通溶剂热法相比,超临界乙醇法制备的产物具有较低的移动电荷电阻(10Ω)和较高的初始放电容量(379 mA·h/g)。

超临界CO_(2)流体对果胶酶处理棉纤维的影响

为探究超临界CO_(2)流体对果胶酶处理棉纤维去除其表层果胶杂质效果的影响,分别在超临界CO_(2)流体和水介质中用果胶酶处理棉纤维,并进行对比分析。借助扫描电子显微镜、分光测色仪、紫外分光光度计、万能强力仪等分别对处理后棉纤维的表面形貌、染色性能、固色性能和拉伸断裂强力等进行了比较和分析。结果显示:果胶酶能有效促使棉纤维表层杂质脱落,相较于传统水介质,超临界CO_(2)流体介质中,果胶酶对棉纤维表层果胶杂质的去除效果更好,测得超临界CO_(2)流体介质中,果胶酶分解的棉纤维表层果胶反应残液中的还原糖质量浓度达到了1.556 g/L。处理后的棉纤维表层出现了剥落和细纹,染色上染程度更深更均匀,K/S值达到1.051,且耐皂洗色牢度、耐摩擦色牢度评级更高,拉伸断裂强力相比未处理的棉纤维有一定下降。

滇红玫瑰精油超临界CO_(2)萃取工艺、挥发性成分及抗氧化活性研究

目的:综合利用云产滇红玫瑰花资源,提高产品附加值。方法:以玫瑰花精油得率为判别指标,通过单因素试验和响应面试验优化超临界CO_(2)萃取玫瑰花精油的提取工艺;通过气相色谱—质谱技术分析不同精油的成分及相对含量,并评价不同玫瑰精油的抗氧化活性。结果:超临界CO_(2)萃取玫瑰花精油的最佳工艺参数为:玫瑰花粉末颗粒40目,萃取压力25.5 MPa、萃取温度45.5℃、萃取时间123 min,CO_(2)流量20 L/h,该工艺条件下玫瑰花精油得率为1.185%;不同产地滇红玫瑰精油中共鉴定出74种挥发性成分,安宁产的滇红玫瑰花精油挥发性物质总量最高;不同产地滇红玫瑰花精油均具有较好的自由基清除能力,但不同产地的抗氧化能力存在明显差异。结论:超临界CO_(2)萃取的滇红玫瑰花精油品质较好,可作为一种天然抗氧化剂应用。

超临界CO_(2)流体温度对粘胶织物结构和性能的影响

为将简单、高效的超临界CO_(2)流体技术用于粘胶纤维基材的功能性加工,考察了超临界CO_(2)流体不同温度(80℃,100℃和120℃)对粘胶织物结构和性能的影响。结果发现,经流体不同温度处理后,扫描电子显微镜显示粘胶纤维表面形态并未产生变化;傅里叶变换红外光谱显示粘胶纤维分子链之间氢键作用强度有一定下降,流体对粘胶纤维起到了增塑膨化作用,但并未改变其化学结构;X射线衍射图谱显示粘胶纤维结晶度由处理前的36.57%分别下降至34.5%,30.78%和26.41%,随着温度升高,流体对粘胶纤维结晶区的破坏更加显著;热重差热综合分析显示粘胶纤维热降解性能并未下降;力学性能测试显示粘胶织物拉伸断裂性能仍保持不变。