61 research outputs found
Volume reduction of municipal solid wastes contaminated with radioactive cesium by ferrocyanide coprecipitation technique
Municipal solid wastes (MSW) with elevated concentrations of radioactive cesium (rad-Cs hereafter) have been generated in some areas of Japan in the aftermath of the Fukushima Daiichi Nuclear Power Plant (F1 hereafter) accident. Both recycling and final disposal of the contaminated MSW have become a difficult problem in the affected areas, resulting in accumulation of treated residues in the treatment facilities. The rad-Cs in MSW, especially fly ash, often showed a high leaching rate. Extraction of contaminated MSW with water or hot oxalic acid followed by selective removal of rad-Cs from the extract using ferrocyanide (Fer hereafter) coprecipitation technique could be an ultimate solution for waste volume reduction. The MSW extracts contain various metal components as well as chelating reagents like oxalic acid, and are often very saline. The composition of the extract varies widely depending on waste sources, applied treatment techniques, and rad-Cs extraction method etc. The applicability of the Fer coprecipitation technique had to be tested and validated before it could be applied for actual treatment. In this work, we applied the Fer technique and observed removal of cesium (Cs) from water and oxalic acid extracts (all spiked with rad-Cs tracer or stable Cs) of various MSW samples collected from uncontaminated areas. Finally, the Fer technique was applied on site for removal of rad-Cs in the extracts of contaminated MSW. By modifying coprecipitation conditions according to solution matrix, Cs removal rates of higher than 95 % could be obtained
Mouse Chromosome 3
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/46995/1/335_2004_Article_BF00648421.pd
Efficacy of ultraviolet radiation and hydrogen peroxide oxidation to eliminate large number of pharmaceutical compounds in mixed solution
Ultraviolet photolysis and ultraviolet and hydrogen peroxide oxidation
of fourteen commonly used pharmaceutical compounds and two personal
care products in mixed solution using low pressure ultraviolet lamp was
investigated in laboratory batch experiments. Removal of the compounds
followed the first-order reaction kinetic. Three distinct impacts of
hydrogen peroxide on ultraviolet and hydrogen peroxide oxidation of the
compounds (positive, negative and no significant effect) were observed.
Removal behavior of the several tested compounds in mixed solution
varied significantly than their respective behavior in absence of
coexisting compounds. Clofibric acid, diclofenac, fenoprofen,
isopropylantipyrine, ketoprofen, phenytoin and triclosan were removed
very efficiently (> 96 %) by ultraviolet photolysis alone. Residual
hydrogen peroxide during ultraviolet and hydrogen peroxide oxidation
was quantitated for the first time. Hydrogen peroxide addition to
ultraviolet photolysis was not worthy for majority of the tested
compounds as their removal did not increase significantly and very big
fractions (> 85 %) of the added hydrogen peroxide (0.29 ~ 1.47 mM)
remained unused presumably due to small fluence of the lamp, very small
molar absorption for hydrogen peroxide at 254 nm (27.06 /M.cm) and
acidic pH of reaction solution (< 5.7). Further exploration on
ultraviolet and hydrogen peroxide oxidation with higher fluence lamp
and alkaline solution pH will clarify usefulness of the method to treat
pharmaceutical contaminated waters
Variation in grain yield, fodder quality and animal intake in two dual purpose legume crops: Mungbean and vegetable soybean grown in semi-arid tropical India
Twenty six lines each of two legume crop species: mungbean [Vigna radiata (L.) R. Wilczek] and vegetable soybean [(Glycine max (L.) Merr.)] were evaluated for grain yield and fodder traits during 2013 in Hyderabad, India. Mungbean line, ML 818 was the best for nitrogen content and was also among the better performers for in vitro organic matter digestibility (IVOMD). Vegetable soybean line, Swarna Vasundhra registered high values for nitrogen content, haulm yield, pod yield and seed yield, while GC 84501-32-1 recorded high value for nitrogen content. In-vivo parameters such as dry (DMI) and organic matter intake (OMI), dry (DMD) and organic matter digestibility (OMD) and nitrogen (N) balance were determined after feeding sheep with haulms from selected lines of mungbean and vegetable soybean as supplements to a sorghum stover based ration. Vegetable soybean line, Swarna Vasundhra recorded the highest OMD while the mungbean line, VC 6510-151-1 recorded the highest nitrogen balance
Arterial spin labeled carotid MR angiography: A phantom study examining the impact of technical and hemodynamic factors.
PURPOSE: To quantify the accuracy of three-dimensional (3D) radial arterial spin labeled (ASL) magnetic resonance angiography (MRA) using vascular models of carotid stenosis.
METHODS: Eight vascular models were imaged at 1.5 Tesla using pulsatile flow waveforms at rates found in the internal carotid arteries (100-400 mL/min). The impacts of the 3D ASL imaging readout (fast low angle shot (FLASH) versus balanced steady-state free precession (bSSFP)), ultrashort echo time imaging using a pointwise encoding time reduction with radial acquisition (PETRA), and model stenosis severity on the accuracy of vascular model display at the location of stenosis were quantified. Accuracy was computed vis-à-vis a reference bSSFP volume acquired under no flow. Comparisons were made with standard-of-care contrast-enhanced MRA (CEMRA) and Cartesian time-of-flight (TOF) MRA protocols.
RESULTS: For 50% and 70% stenoses, CEMRA was most accurate (respective accuracies of 81.7% and 78.6%), followed by ASL FLASH (75.7% and 71.8%), ASL PETRA (69.6% and 70.6%), 3D TOF (66.6% and 57.1%), ASL bSSFP (68.7% and 51.2%), and 2D TOF (65.1% and 50.6%).
CONCLUSION: Flow phantom imaging studies show that ASL MRA can improve the display of hemodynamically significant carotid arterial stenosis compared with TOF MRA, with FLASH and ultrashort echo time readouts being most accurate. Magn Reson Med 75:295-301, 2016. © 2015 Wiley Periodicals, Inc
- …