“This

study was designed to compare the effectiven


“This

study was designed to compare the effectiveness of Aluminium (Al) and Iron (Fe) as electrodes to reduce the polluting nature of Palm Oil Mill Effluent (POME) and simultaneous hydrogen production using electrocoagulation (EC). Electrocoagulation of raw POME and anaerobically pretreated POME was performed using Direct Current (DC) electricity of 2.0, 3.0, and 4.0 volts in a reactor volume of 20 liters. Nutlin-3 The results of raw POME treatment reveal that the chemical oxygen demand (COD) and turbidity was decreased around 57.66% and 62.5%, respectively, using Al electrode. However, the use of iron electrodes could reduce the COD and turbidity of raw POME about 35.3% and 43.10%, respectively. The reduction in polluting factors of the

raw POME was accompanied with the production of 42% and 22.8% of hydrogen gas concentration using Al and Fe electrodes, respectively. On the other hand, the results of Electrocoagulation of POME which was pretreated in anaerobic pond show that the COD was decreased around 62.35% and 59.41% using Al and Fe respectively, and turbidity was reduced up to 90.55% and 76.96% using Al and Fe respectively. The concentration of hydrogen gas yielded as a result of EC of anaerobically pretreated POME was around 31.37% and 25.6% using Al and Fe respectively as electrodes. Removal of pollutants from POME using Electrocoagulation is faster than some other CDK inhibitor existing

processes and requires a relatively small area as compared to the conventional anaerobic treatment in pond system which is potential source of green house gases.”
“Following Ulixertinib the previous work of media layer and adventitia layer construction for vascular scaffold, we developed a suitable intima layer scaffold for endothelialization using novel human-like collagen/hyaluronic acid composite at different mass ratios of 40/1, 20/1 and 10/1 (HLC to HA) by freeze-drying process. The structure, mechanical strength, degradation and biocompatibility of the vascular HLC/HA scaffold were evaluated. The results showed that the 10/1 HLC/HA composited an optimal scaffold with (1) an interconnected porous network with a pore diameter of 12 2 pm and porosity of 89.3%, (2) better mechanical properties with higher stress of 321.7 +/- 15 kPa and strain of 45.5 +/- 0.2% than 40/1,20/1 and pure HLC scaffolds, (3) only 9% degradation upon immersion in PBS for 45 days at 37 degrees C in vitro, and (4) excellent biocompatibility. This study suggests that the 10/1 HLC/HA composite has a broad prospect of application as luminal vascular scaffold in the tissue engineering. Crown Copyright (C) 2013 Published by Elsevier B.V. All rights reserved.”
“The vascular system of vertebrates consists of an organized, branched network of arteries, veins, and capillaries that penetrates all the tissues of the body.

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