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Araya Saengkanuk Suporn Nuchadomrong Sanun Jogloy Aran Patanothai Supalax Srijaranai 《European Food Research and Technology》2011,233(4):609-616
A simple spectrophotometric method was developed for the analysis of inulin in Jerusalem artichoke tubers. The inulin was
extracted from the artichoke tuber samples using accelerated solvent extraction method, before subsequent hydrolysis in acid
condition. The hydrolysates were then analyzed for fructose using spectrophotometry. The spectrophotometric method is based
on oxidation of fructose by periodate and evaluation of the remaining periodate by measuring the absorbance at 350 nm of the
tri-iodide complex formed, upon addition of potassium iodide. The optimum conditions for the detection of fructose were 0.1 mmol L−1 periodate and 1.5 mmol L−1 potassium iodide at pH 6.0. The proposed method was validated for its analytical performance parameters including accuracy,
precision, and recovery. The method was applied to the determination of inulin in ten varieties of Jerusalem artichoke grown
in the northeastern part of Thailand. The inulin content in the samples was found to be in the range of 63–75.5% dry weight,
and the degree of polymerization was in the range of 14–20. The inulin contents obtained from the proposed spectrophotometry
were not significantly different (p = 0.05) from those obtained from high-performance anion-exchange chromatography coupled with pulsed amperometric detection.
The results indicated that the present spectrophotometric method can be used as an alternative to chromatographic analysis
for the determination of inulin in plant samples. 相似文献
2.
James D. Hogan John G. Spray Robert J. Rogers Suporn Boonsue Gregory Vincent Markus Schneider 《International Journal of Impact Engineering》2011,38(12):931-939
The dynamic fracture of natural polyphase ceramic (granite) blocks by high-speed impact at 207 m/s, 420 m/s and 537 m/s has been investigated. An electromagnetic railgun was used as the launch system. Results reveal that the number of fragments increases substantially, and the dominant length scale in their probability distributions decreases, as the impact energy is increased. Micro-scale studies of the fracture surfaces reveals evidence of localized temperatures in excess of 2000 K brought on by frictional melting via fracturing and slip along grain boundaries in orthoclase and plagioclase, and via transgranular fracture (micro-cracking) in quartz. The formation of SiO2- and TiO2-rich spheroids on fracture surfaces indicates that temperatures in excess of 3500 K are reached during fracture. 相似文献
3.
Suporn Charumanee Aurawan Titwan Jakkapan Sirithunyalug Petra Weiss‐Greiler Peter Wolschann Helmut Viernstein Siriporn Okonogi 《Journal of chemical technology and biotechnology (Oxford, Oxfordshire : 1986)》2006,81(4):523-529
Molecular encapsulation on a molecular basis can be performed by cyclodextrins. The inclusion of organic molecules into the interior changes the properties of these molecules, which may be used for a broad variety of applications. The affinity of guest molecules for the cavities of various cyclodextrins depends on the stereochemistry and on the interaction forces of the molecules involved. Calculations of the thermodynamic parameters show that the reaction entropy is highly important for the inclusion reaction. Completely different reaction mechanisms are observed for various types of cyclodextrins as some of these reactions show enthalpy–entropy compensation. Others are supported by the reaction entropy or are even entropically controlled. Protonation and deprotonation reactions contribute significantly to the inclusion reaction, as first of all the solubility of the compounds in water is strongly influenced by the acidity of the solution, and, moreover, all tautomeric forms of the compounds show different affinities to various cyclodextrins. Copyright © 2006 Society of Chemical Industry 相似文献
4.
An investigation of the potential use of reverse osmosis for the removal of humic substances in order to remove colour and haloform precursors in small waterworks has been carried out, using three different laboratory scale reverse osmosis units and several different membranes.Membrane pore size was found to be the most important factor that influenced both the permeate quality and the product water flux. Pressure was found to have no significant influence on permeate quality, but was linearly related to product water flux. The concentration of humic substances in the influent was not found to affect product water flux but the transport of humics across the membrane was found to be dependent upon influent concentration. For the selected membranes, the removal of humic substances amounted to 80–100% in terms of colour removal, and 50–99% in terms of permanganate value reduction. The most suitable membranes for the different available units were found to be Osmonics SEPA 89 (permeate flux 251 m−2 h−1 at 15 bars), DDS 865 (permeate flux, 1201 m−2h−1 at 40 bars) and PCI T2A (permeate flux 901 m−2h−1 at 20 bars). At suspended solids concentrations higher than 100 mg 1−1 of bentonite, product water flux was significantly reduced. 相似文献
5.
Influence of sulfur-crosslinking in vulcanized rubber chips on mercury(II) removal from contaminated water 总被引:1,自引:0,他引:1
Danwanichakul P Dechojarasrri D Meesumrit S Swangwareesakul S 《Journal of hazardous materials》2008,154(1-3):1-8
The adsorption of Hg(II) by natural rubber chips was investigated. First, the effect of chip size (5 mmx5 mm and 10 mmx10 mm) on the adsorption kinetics was studied. The pseudo-second-order modeling was found to explain the kinetics well. The smaller chips had higher adsorption rate so they were used for the rest of the research. Next the effects of sulfur, zinc oxide and carbon black on the adsorption capacity of Hg(II) at equilibrium conditions were investigated. The effect of sulfur was studied through different standard vulcanizing systems. The amount of zinc oxide was varied to be 3, 4 and 5 part per hundred parts of rubber (phr) while the carbon black (N-330) loading was varied to be 0, 30 and 50 phr, respectively. It was found that adsorption capacity increased with the degree of crosslink density, generated by sulfur reacting with rubber molecules. In addition, the adsorption capacities of various amounts of zinc oxide corresponded with their crosslink densities while the addition of carbon black seemed to obstruct Hg(II) adsorption. 相似文献
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