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1.
以杜仲叶加工剩余物为原料,研究(比较)了S-8、AB-8、D101和X-5 4种大孔吸附树脂对杜仲中的降血压活性成分京尼平苷酸(GPA)的吸附及脱附性能。以S-8型树脂吸附-水脱附工艺纯化GPA的优化工艺为:脱附剂用量300mL、脱附流速3mL/min、上柱液pH值1.0,脱附过程的最大影响因素为脱附剂流速,GPA的脱附率达89.64%,GPA含量由7.23%提高到45.18%。  相似文献   

2.
建立热脱附-气相色谱-质谱的方法对卷烟包装材料中的酞酸酯(邻苯二甲酸二乙酯、邻苯二甲酸二异丁酯、邻苯二甲酸二正丁酯和邻苯二甲酸正丁正辛酯)进行测定,采用正交实验优化了热脱附条件,优化条件为卷烟包装材料在100℃的热脱附系统(TDS)中热脱附4min,目标物随流量为50mL/min的载气进入-50℃的冷进样系统(CIS4)中冷却,脱附结束后CIS4升温至200℃将目标物挥发进入GC-MS中进行分离和鉴定.采用外标法进行定量,所得校准曲线的线性关系良好,4种酞酸酯在100℃时脱附2min的加标平均回收率范围为80%-90%,相对标准偏差分别为2.07%、3.57%、2.21%和6.38%.该方法样品用量少,前处理简单,重现性较好,可用于卷烟包装材料中酞酸酯的同时测定.  相似文献   

3.
本文基于程序升温脱附(TPD)热重实验对典型多环芳烃,萘,在三种典型介孔碳CMK-3、CMK-5和FDU-15以及传统椰壳活性炭(AC)上的脱附性能进行了研究。采用Kissinger方程预估、Coats-Redfern方程求算、主曲线法校验的组合式热分析方法准确获取了萘在四种吸附剂上的脱附动力学三因子(脱附活化能E_a、指前因子lnA与机理函数)。结果表明,CMK-3、CMK-5和FDU-15对萘的脱附再生性能明显优于椰壳AC,脱附峰值温度排序呈:CMK-5CMK-3≈FDU-15椰壳AC。萘在椰壳AC(E_a=101.5 kJ/mol)上的脱附内扩散阻力最大,CMK-3(E_a=67.0 kJ/mol)居其次,二者均为扩散控速。萘在CMK-5(E_a=58.3 kJ/mol)与FDU-15(Ea=46.5 kJ/mol)上的脱附过程均为反应控速,CMK-5由于微孔较多而E_a较高,但较FDU-15具备更为有序的多类型孔道分布,整体上对萘的脱附性能最佳。  相似文献   

4.
本文对脂松香、石炭酸松香树脂和马林酸松香树脂的红外光谱剖析及鉴别,方法快速,简便,准确。  相似文献   

5.
本文用线性升温热脱附法研究GH39不锈钢及LFM铝的脱附现象。得到它们的主要脱附气体的脱附速率的温度特性,即热脱附谱,脱附反应级数和脱附激活能。可为聚变装置真空室的选材和清洗提供参考。  相似文献   

6.
本文为开展紫外区负离子激光光致脱附实验研究,设计了一套紫外激光光路系统,并对光路进行了性能测试.测试结果表明此光路能够满足负离子激光光致脱附实验的基本要求.该光路系统即将用于负离子光致脱附的物理研究工作中.  相似文献   

7.
用热脱附谱等方法研究了NO分别在清洁和Cs覆盖的Ru(1010)表面上的吸附.结果表明:存在两种NO分子吸附态(a1,a2),脱附温度分别处于325℃和550℃附近.Cs的存在增加了Ru(1010)表面上a2态的吸附位置,提高了该态的脱附温度.Cs在Ru(1010)表面上的存在同时促进了吸附NO分子的分解.NO在Ru(1010)表面上分解后形成吸附O原子和N原子.N原子复合以N2在约500℃附近脱附,同时Cs的存在也促进了N2O的形成.在Cs覆盖的Ru(1010)表面上,N2O的脱附温度约在425℃.  相似文献   

8.
本为开展紫外区负离子激光光致脱附实验研究,设计了一套紫外激光光路系统,并对光路进行了性能测试。测试结果表明此光路能够满足负离子激光光致脱附实验的基本要求。该光路系统即将用于负离子光致脱附的物理研究工作中。  相似文献   

9.
本文采用第一性原理密度泛函理论计算研究了MgH2(110)表面吸附单原子Pd后的氢脱附反应. 计算发现,在吸附一个Pd单原子后,MgH2(110)表面氢脱附反应的能垒可以从1.802 eV显著地降低到1.154 eV,表明Pd单原子对于氢脱附具有很强的催化效应. 并且,Pd单原子催化还可以将氢脱附的温度从573 K显著地降低到了367 K,从而使MgH2(110)表面的氢脱附反应更加容易和快速地发生. 此外,通过MgH2(110)表面氢溢出机制的反向过程来讨论了氢脱附反应的微观过程. 该研究表明Pd/MgH2薄膜在未来的实验中可作为良好的储氢材料.  相似文献   

10.
介绍了利用低能脉冲电子探束研究“气-固”界面的基本原理和方法,并实验研究了室温T=300K、1×10-3Pa真空条件下, O2,N2-Ni,W“气-固”界面的相互作用,即吸附、脱附与置换作用,测量了电子诱导脱附产额、脱附截面和阈值能量,给出了实验结果分析与结论. 关键词: 脉冲电子探束 电子诱导脱附 阈值能量 脱附截面  相似文献   

11.
Effect of ultrasound on desorption kinetics of phenol from polymeric resin   总被引:1,自引:0,他引:1  
Li Z  Xu K  Li X  Xi H  Hua B  Li F 《Ultrasonics sonochemistry》2006,13(3):225-231
This work mainly involves the study of desorption kinetics of phenol from polymeric resins under the influence of an ultrasound field. A new phase equilibrium-kinetics model (PEKM), for estimation of diffusion coefficient was proposed, kinetic experiments of phenol desorption on NKA-II resin in the presence and the absence of ultrasound were separately conducted, and diffusion coefficients of phenol within an adsorbent particle were estimated by means of proposed PEKM. Results showed that the use of ultrasound could enhance the diffusion of phenol within the resin. The diffusion coefficient of phenol in the resin in an ultrasonic field increased by an order of magnitude in comparison with the diffusion coefficient in the absence of ultrasound. The more intense the ultrasonic field the larger was the diffusion coefficient.  相似文献   

12.
Adsorption processes offer the possibility to remove trace impurities of liquid process streams. An important step in adsorption processes is the regeneration of the adsorbent as it does not only affect the adsorption-desorption cycle but also the expenses of the following process steps. In this study, various desorption experiments of a loaded polymeric resin have been conducted. They were performed with cold and hot water as well as with ultrasound at different frequencies and intensities. The results indicate, that an important factor of ultrasound enhanced desorption is the temperature rise due to ultrasonication. But as regeneration is more effective at higher frequencies even though temperatures inside the column are lower, another ultrasonic effect occurs during ultrasonic desorption.  相似文献   

13.
Regeneration of granular activated carbon using ultrasound   总被引:7,自引:0,他引:7  
To evaluate the feasibility of ultrasonic regeneration of granular activated carbon (GAC), desorption of trichloroethylene (TCE) from GAC by ultrasound was investigated at 20 kHz. About 64% of TCE was desorbed from 5 g of GAC loaded with 6.5 mg TCE for 1 h in ultrasonic field and TCE desorbed to liquid phase were rapidly degraded by ultrasound. 34-43% of stoichiometrically calculated chloride, final degradation product of TCE, was observed in liquid phase during ultrasonic treatment. However, there was desorption limitation at 20 kHz ultrasound. Despite of prolonged ultrasonic irradiation, desorption efficiency of TCE did not exceed critical value. And also, the higher percentage of TCE was desorbed when a sample of 2 mg TCE/4 g GAC was treated ultrasonically than that of 2 mg TCE/g GAC under the same experimental conditions. These results indicate that desorption of TCE by 20 kHz ultrasound occurred mainly at a nearby surface of GAC. In conclusion, the ultrasonic regeneration showed a possibility as an alternative to chemical and thermal regenerations of GAC.  相似文献   

14.
This work described the purification and enrichment of flavonoids from baobab (Adansonia digitata) fruit pulp (BFP) by ultrasound-assisted adsorption/desorption procedure using macroporous resins. Four resins were tested and HPD-500 polar resin exhibited the best adsorption/desorption properties. Based on preliminary experiments and literature reports, the effects of various ultrasonic conditions including high power short time (HPST, 540 W for 5 min), medium power medium time (MPMT, 270 W for 15 min) and low power long time (LPLT, 45 W for 30 min) as well as different temperatures (T = 25–45 °C) on the adsorption of Total Flavonoids Content (TFC) were investigated in comparison with orbital shaking/no sonication (NS). Also, the effect of ultrasound on the desorption capacity and recovery of TFC was determined at different concentrations of ethanol (30–100%). Remarkably, ultrasonic treatment significantly increased the adsorption/desorption capacity and recovery and shortened the equilibrium time. The pseudo-second-order kinetic and Freundlich isotherm models better delineated the adsorption process under ultrasound. Moreover, the adsorption process was both spontaneous and thermodynamically favourable with physical adsorption and multilinear intraparticle diffusion being the predominant mechanisms of the whole process. HPST treatment at 25 °C with 80% ethanol as the desorption solvent most noticeably enhanced the adsorption/desorption of flavonoids and contributed to the highest recovery of TFC, Total Phenolic Content (TPC), and antioxidant capacity in addition to a 5–8-fold reduction in total sugar and acid contents when compared with NS treatment. Moreover, HPLC analysis revealed that the content of nine out of thirteen phenolic compounds from the HPST treatment was the highest, and the individual flavonoids content increased by 2–3-fold compared with the other treatments. Our analyses suggested that ultrasound can be employed as a practical approach to intensify the adsorption and desorption of functional compounds in BFP.  相似文献   

15.
Sediments play a fundamental role in the aquatic environment, so that the presence of contaminants poses severe concern for the possible negative effects on both environmental and human health. Sediment remediation is thus necessary to reduce pollutant concentrations and several techniques have been studied so far. A novel approach for sediment remediation is the use of Advanced Oxidation Processes, which include ultrasound (US). This paper focuses on the study of the ultrasonic effects for the simultaneous reduction of both organic and inorganic contaminants from sediments. To this end, the US technology was investigated as a stand-alone treatment as well as in combination with an electro-kinetic (EK) process, known to be effective in the removal of heavy metals from soil and sediments. The US remediation resulted in higher organic compound degradation, with an average 88% removal, but promising desorption yields (47–84%) were achieved for heavy metals as well. The combined EK/US process was found to be particularly effective for lead. Experimental outcomes highlighted the potential of the ultrasonic technology for the remediation of contaminated sediments and addressed some considerations for the possible scale-up.  相似文献   

16.
The aim of this work is the evaluation of the effects of ultrasound on p-chlorophenol adsorption-desorption on granular activated carbon. Adsorption equilibrium experiments and batch kinetics studies were carried out in the presence and the absence of ultrasound at 21 kHz. Results indicate that the adsorption of p-chlorophenol determined in the presence of ultrasound is lower than the adsorption observed in the absence of ultrasound. Desorption of p-chlorophenol from activated carbon with and without the application of ultrasound was studied. The desorption rates were favoured by increased ultrasound intensity. This rise is more noticeable as temperature increases. The addition of ethanol or NaOH to the system causes an enhancement of the amount of p-chlorophenol desorbed, especially in the presence of ultrasound. A synergetic enhancement of the desorption rate was observed when ultrasonic irradiation was coupled with ethanol chemical regeneration.  相似文献   

17.
The use of ultrasound to enhance the regeneration of zeolite 13X for efficient utilization of thermal energy was investigated as a substitute to conventional heating methods. The effects of ultrasonic power and frequency on the desorption of water from zeolite 13X were analyzed to optimize the desorption efficiency. To determine and justify the effectiveness of incorporating ultrasound from an energy-savings point of view, an approach of constant overall input power of 20 or 25 W was adopted. To measure the extent of the effectiveness of using ultrasound, the ultrasonic-power-to-total power ratios of 0.2, 0.25, 0.4 and 0.5 were investigated and the results compared with those of no-ultrasound (heat only) at the same total power. To analyze the effect of ultrasonic frequency, identical experiments were performed at three nominal ultrasonic frequencies of ~28, 40 and 80 kHz. The experimental results showed that using ultrasound enhances the regeneration of zeolite 13X at all the aforementioned power ratios and frequencies without increasing the total input power. With regard to energy consumption, the highest energy-savings power ratio (0.25) resulted in a 24% reduction in required input energy and with an increase in ultrasonic power, i.e. an increase in acoustic-to-total power ratio, the effectiveness of applying ultrasound decreased drastically. At a power ratio of 0.2, the time required for regeneration was reduced by 23.8% compared to the heat-only process under the same experimental conditions. In terms of ultrasonic frequency, lower frequencies resulted in higher efficiency and energy savings, and it was concluded that the effect of ultrasonic radiation becomes more significant at lower ultrasonic frequencies. The observed inverse proportionality between the frequency and ultrasound-assisted desorption enhancement suggests that acoustic dissipation is not a significant mechanism to enhance mass transfer, but rather other mechanisms must be considered.  相似文献   

18.
Ultrasonic processing has attracted increasing attention by people because ultrasonic technology may represent a flexible ‘green’ alternative for energy efficient processes. The major challenges for the power ultrasound application in real situations are the design and development of specific power ultrasonic systems for large-scale operations. Thus, new families of power ultrasonic transducers have been developed in recent years to meet actual needs, and this contributes to the implementation of power ultrasound of application in many fields such as chemical industry, food industry and manufacturing. This paper presents the current state of ultrasonic transducers of magnetostrictiv type and piezoelectric type as well as applications of power ultrasound in various industrial fields including chemical reactions, drying/dehydration, welding, extraction, heat transfer enhancement, de-ice, enhanced oil recovery, droplet atomization, cleaning and fine particle removal. The review paper helps to understand the current development of power ultrasonic technology and its applications in various situations, and induce extended applications of power ultrasound to more and more fields.  相似文献   

19.
The effect of 48-kHz ultrasound on the adsorption and desorption of phenol from aqueous solutions onto coconut shell-based granular activated carbons was studied at 25 degrees C. Experiments were performed at different carbon particle sizes (1.15, 2.5, 4.0 mm), initial phenol concentrations (1.06-10.6 mol/m3), and ultrasonic powers (46-133 W). Regardless of the absence and presence of ultrasound, the adsorption isotherms were well obeyed by the Langmuir equation. When ultrasound was applied in the whole adsorption process, the adsorption capacity decreased but the Langmuir constant increased with increasing ultrasonic power. According to the analysis of kinetic data by the Elovich equation, it was shown that the initial rate of adsorption was enhanced after sonication and the number of sites available for adsorption was reduced. The effect of ultrasonic intensity on the initial rate and final amount of desorption of phenol from the loaded carbons using 0.1 mol/dm3 of NaOH were also evaluated and compared.  相似文献   

20.
It has been an important research topic and a serious applicable issue to extend storage time of fruits and vegetables using advanced scientific and effective technology. Among various approaches, ultrasound has been regarded as one of the most pollution-free and effective technical means to significantly improve the preservation of fruits and vegetables. This paper summarizes the application of ultrasonic technology in fruits and vegetables storage in recent years, including removal of pesticide residues and cleaning, sterilization, enzyme inactivation, effect on physico-chemical indexes. Additionally, we also discussed limitations and negative effects of ultrasonic treatment on fruits and vegetables such as damages to tissues and cells. Furthermore, a proper application of ultrasonic technology has been proven to effectively extend the storage period of postharvest fruits and vegetables and maintain the quality. Moreover, the combination of ultrasound and other conventional preservation technologies can further improve the preservation in a coordinate manner and even have a broader application prospect.  相似文献   

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