With varying composition of the raw materials, it is observed that the average porosity and pore size of the membrane varied between 2330% and 0.45 to 1.30 mu selleck screening library m. For all membranes, the flexural strength varied within the range of 10-34MPa. Chemical stability tests indicate that the membranes are stable in both acidic and basic media. The hydraulic permeance of M1, M2, and M3 membranes is about 3.97×106, 2.34×106, and 0.37x106m3/m2skPa, respectively. Further, the performance of these membranes was studied for the microfiltration of synthetic oily wastewater emulsions. Amongst all membranes, membrane, M2 performance is satisfactory as it provides oil rejection
of 96%, with high permeate flux of 0.65x104m3/m2s at a lower transmembrane pressure differential of 69kPa for the oil concentration of 200mg/L.”
“The use of a low-cost tractor-mounted scanning
Light Bcl-2 lymphoma Detection and Ranging (LIDAR) system for capable of making non-destructive recordings of tree-row structure in orchards and vineyards is described. Field tests consisted of several LIDAR measurements on both sides of the crop row, before and after defoliation of selected trees. Summary parameters describing the tree-row volume and the total crop surface area viewed by the LIDAR (expressed as a ratio with ground surface area) were derived using a suitable numerical algorithm. The results for apple and pear orchards and a wine producing vineyard were shown to be in reasonable agreement with the results derived from a destructive leaf sampling method. Also, good correlation was found between manual and sensor-based measurements of the vegetative
volume of tree-row plantations. The Tree Area Index parameter, TAI, gave the best correlation between destructive and non-destructive (i.e. LIDAR-based) determinants of crop leaf area. The LIDAR system proved to be a powerful technique for low cost, prompt and non-destructive estimates of the volume and leaf-area characteristics of plants. (C) 2008 IAgrE. Published by Elsevier Ltd. All rights reserved.”
“Study Objectives: Drowsiness is a major risk factor for motor vehicle and occupational accidents. Real-time objective indicators of drowsiness could potentially identify signaling pathway drowsy individuals with the goal of intervening before an accident occurs. Several ocular measures are promising objective indicators of drowsiness; however, there is a lack of studies evaluating their accuracy for detecting behavioral impairment due to drowsiness in real time. Methods: In this study, eye movement parameters were measured during vigilance tasks following restricted sleep and in a rested state (n = 33 participants) at three testing points (n = 71 data points) to compare ocular measures to a gold standard measure of drowsiness (OSLER).