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91.
2-Acetyl-1-pyrroline: A key aroma component of aromatic rice and other food products 总被引:1,自引:0,他引:1
2-Acetyl-1-pyrroline is an aroma compound that gives aromatic rice its characteristic flavor. This compound either is present naturally in various food sources or is generated during certain processing methods, as reported in a number of studies. This review focuses on several sources of 2-acetyl-1-pyrroline, including aromatic rice, and the factors, including chemical and genetic parameters, affecting the formation of 2-acetyl-1-pyrroline. Extensive work has been conducted on the agricultural parameters, postharvest processing, storage, and cooking methods, influencing the concentrations of 2-acetyl-1-pyrroline in different food commodities. This article is an attempt to emphasize the importance of this compound in the food industry as a major aroma compound. 相似文献
92.
93.
以硫酸改性后的硅藻土为载体,Keggin结构磷钨酸为活性组分,通过浸渍法制备出负载型催化剂H3PW12O40/改性硅藻土,并对催化剂进行傅里叶变换红外光谱(FTIR)、X射线衍射(XRD)、扫描电镜(SEM)、X射线能谱(EDS)和N2-程序升温脱附(N2-TPD)表征。结果表明:酸改性后硅藻土的微孔增大增多,比表面积增大。H3PW12O40均匀分布在改性硅藻土载体上,负载后磷钨酸仍保持Keggin结构。以H3PW12O40/改性硅藻土为催化剂催化乙酸和正丁醇液相合成乙酸正丁酯,通过正交试验探索优化工艺条件。在较优工艺条件下,即w(40%H3PW12O40/改性硅藻土)=1.1%(基于反应物质量),n(酸)∶n(醇)=1∶3,125℃反应2.0h,酯化率高达98.1%。催化剂重复催化使用5次,酯化率仍可达86.1%。H3PW12O40/改性硅藻土可作为催化合成乙酸正丁酯的高效催化剂,具有活性高、用量少、价格低廉、制备简单、后处理简便、无废液排放等优点。 相似文献
94.
《Ceramics International》2020,46(13):20788-20797
In this work, BiVO4 composites, containing the tetragonal zircon phase (tz-BiVO4), and monoclinic scheelite phase (ms-BiVO4), were synthesized using the microemulsion method. The effect of pH on phase composition and photocatalytic activity were investigated. Based on X-ray diffraction (XRD), scanning electron microscopy (SEM) and transmission electron microscopy (TEM), a ms/tz-BiVO4 composite forms at pH = 1.0 and pure ms-BiVO4 is obtained in the pH range 4.0–10.0. The three primary steps in preparing BiVO4 were monitored by optical microscopy and the role played by the microemulsion on the phase composition of BiVO4 is explained. Photoluminescence spectroscopy (PL), UV–visible diffuse reflectance spectroscopy (UV-DRS), Brunauer-Emmett-Teller (BET), linear sweep voltammetry (LSV) and electrochemical impedance spectroscopy (EIS) were employed to characterize the physical and chemical properties of BiVO4 composites. The composite formed at pH = 1 exhibited the lowest hole-electron (h+-e-) recombination rate, resulting in the highest photocatalytic activity towards microcystin-LR (MC-LR), with near 100% removal of MC-LR in 5 h. ESR and trapping experiments indicated that MC-LR degradation was mediated primarily by hydroxyl radicals (•OH), superoxide radicals (O2•−) and photogenerated holes (h+). 相似文献
95.
96.
《International Journal of Hydrogen Energy》2020,45(60):35171-35179
The polyvinylidene fluoride (PVDF) drew great attention over time amongst the hydrocarbon polymer membranes because of its high C–F chemical bond strength. In this work is to increase the proton conductivity of the PVDF polymer by doping phosphonated graphene oxide to its structure and investigate the improvement of the membrane. Different amounts of phosphonated graphene oxide additive (0.5%, 1% and 1.5% w/w) were doped to PVDF polymer on the purpose of synthesizing proton exchange composite membranes. Characterization tests, i.e, water uptake, swelling properties, ion exchange capacity, and proton conductivity of the synthesized membranes were investigated. The electrochemical impedance analysis results of synthesized membranes vary between 0.0224 S cm-1 for 0.5% graphene oxide doped PVDF (PVDF/0.5PGO) and 0.0867 S cm-1 for PVDF/1.5GO membrane. The power density values of PVDF/1.5PGO and PVDF/0.5GO are 48 mW cm−2 and 28 mW cm−2 at 0.6 V and 100% relative humidity at 80 °C. The experimental results demonstrate the importance of phosphonated graphene oxide doping into the PVDF composite membrane. 相似文献
97.
采用水热法制备双钙钛矿催化剂Sr_2FeNiO_6,考察不同浓度KOH溶液(4 mol·L~(-1)、6 mol·L~(-1)、8 mol·L~(-1)、10 mol·L~(-1)、12 mol·L~(-1)、14 mol·L~(-1))对催化剂性能的影响,利用X射线衍射、比表面积测定、程序升温还原和扫描电镜等对样品进行性能表征,并以催化甲烷燃烧为目标,考察催化剂催化性能。结果表明,矿化剂KOH浓度对样品性能影响较大,当浓度为10 mol·L~(-1)时,起燃温度最低,T_(10%)为430℃;浓度为8 mol·L~(-1)时,样品比表面积最大,为19.0 m~2·g~(-1),完全燃烧温度最低,T_(90%)为610℃。 相似文献
98.
《International Journal of Hydrogen Energy》2020,45(11):6425-6436
Graphitic carbon nitride (g-C3N4) is a promising metal-free photocatalyst for solar photocatalytic hydrogen gas (H2) generation from water. In particularly, high-crystalline g-C3N4 (GCN-HC) material with fewer structural defects possesses the fast photoexcited electron-hole pair's separation efficiency as comparison with bulk g-C3N4 (GCN-B) powders, leading to the drastic improvement of photocatalytic activity. However, the fabrication of such GCN-HC photocatalyst by a simple and economical synthesis approach still remains a challenge. Herein, we firstly develop a one-step rapid polymerization strategy for synthesizing the GCN-HC, that is direct calcination of melamine at 550 °C not only without the early heating process, but also without the assistance of any additive or salt intercalation. As a result, the GCN-HC exhibits an obviously boosting visible-light-induced photocatalytic H2-generation performance, which is over 2.06-folds much greater than that of GCN-B. Our work provides an available one-step synthetic strategy for the large-scale preparation of high performance GCN-HC towards sustainable solar-to-chemical energy conversion. 相似文献
99.
《International Journal of Hydrogen Energy》2020,45(11):6278-6290
Recently, the methanol production has received a lot of attraction in the process industries due to its wide applications in the synthesis of many commercial chemicals and fuels. Most of the coal to methanol processes suffers from higher water consumption, greenhouse gas (GHG) emissions and lower yields. The aim of this study is to develop a novel energy efficient and economic viable process that may not only increase the methanol production capacity but also offers the less energy requirements with improved process economics. In this study, coal gasification process is sequentially integrated in the parallel design configuration with the natural gas reforming technology to enhance the heating value of the resulting syngas for methanol production. To achieve this aim, two case studies have been developed and compared in terms of overall process performance and economics. Case 1 represents the conventional coal to methanol process, whereas, case 2 represents the conceptual design of integrating the gasification and reforming technologies for enhanced methanol production. The process efficiencies calculated for case 1 and case 2 is 63.2% and 70.0%, respectively. It has been seen from results that the methanol production energy for case 1 and case 2 is 0.69 kg/W and 0.76 kg/W, respectively. In terms of process economics, the methanol production cost for case 1 and case 2 has been estimated as 250 €/tonne and 234 €/tonne, respectively. The comparative analysis showed that the case 2 design not only offers higher process performance but also enhances the process feasibility compared to the conventional coal based processes. 相似文献
100.
《Ceramics International》2020,46(1):576-583
Ti3SiC2 has the unique properties integrating the advantages of metals and ceramics, and good open pore structure when alloyed with Al. In this work, porous Ti3SiC2 compounds with different Al/Si atom ratios were prepared through the reactive synthesis of elemental powders at 1300 °C. The results indicate that the phase compositions are determined by Al element mole number, and that the pore structure can be controlled through varying Ti particle size. The MAX phase transits from Ti3SiC2 with Al element mole number no more than 0.6 to Ti3AlC2 with Al element mole number in the range of 0.8–1.2. When Al element mole number is 0.6, the porous compound has a single MAX phase of Ti3SiC2 with uniform microporous structure and high bending strength. Porous Ti3SiC2 alloyed with 0.6Al has a slow linear increase rate of 0.0083%/μm in open porosity with increasing Ti particle size, and a strict linear relationship between the maximum aperture and Ti particle size with the increase rate of 0.0342 μm/μm. The pore structure formed by the phase transition mechanism for porous MAX phase has the smallest tortuosity factor compared with that formed by the clearance mechanism and the Kirkendall effect. 相似文献