The effect of supplementation with vitamins C and E on cytokine production of healthy adult volunteers was studied in a single-blind trial. Ten subjects in each group received daily vitamin C (1 g ascorbic acid), vitamin E (400 mg dl-alpha-tocopheryl acetate), or vitamins C and E for 28 d. Plasma concentrations of alpha-tocopherol, ascorbate, and lipid peroxides as well as the production of cytokines by peripheral blood mononuclear cells (PBMCs) were measured before, during, and at the end of the supplementation and 1 wk later. PBMCs were cultured in the presence of absence of lipopolysaccharide for 24 h. The interleukin 1 (IL-1), interleukin 6 (IL-6), and tumor necrosis factor alpha (TNF-alpha) in the culture supernates were assayed by enzyme-linked immunosorbent assay methods. Production of IL-1 beta and TNF-alpha in the group supplemented with vitamins C and E was significantly higher (P < 0.05) than that of the groups given vitamin E or vitamin C alone. The enhancing effect of supplementation with a combination of vitamins E and C coincided with peak plasma alpha-tocopherol and ascorbate concentrations and the lowest plasma lipid peroxide concentrations (P < 0.05) on day 14. In addition, an in vitro experiment with PBMCs showed that vitamins E and C reduced lipopolysaccharide-induced prostaglandin E2 production and enhanced TNF-alpha production. These results indicate that combined supplementation with vitamins C and E is more immunopotentiating than supplementation with either vitamin alone in healthy adults.
This study examines air pressure variations along a discharging stack with unsteady discharging flow rates, including the fluctuation frequency, the maximum and average pressures with their respective standard deviations at a drainage stack of an in-use office building. With a modified constant, the maximum air pressure at the drainage stack could be described by the probability density function of the measured data using earlier proposed mathematical expressions for steady discharging flow rates. The average prediction and the maximum under-prediction of the absolute peak pressure were determined with the margin of errors taken within certain confidence levels. The results would be useful for understanding the air pressure in drainage stacks and help increase the potential of installing a real-time monitoring system in a high-rise drainage stack.
Low carbon policies, including those aimed at increasing water efficiency, have been adopted as a crucial strategy for combating global warming and climate change. The green building evaluation system used in Taiwan was first applied in 1999 and initially utilized a building's water efficiency as the threshold index for determining the building's environmental impact. Since 1999, more than a thousand buildings have been certified as green buildings using this evaluation system. The quantitative effects of water conservation efforts should be provided to policy makers as a form of positive feedback. To that end, the present study offers a calculation process for estimating the quantitative volume of water saved by practical green buildings. The baseline water usage for all kinds of buildings was determined to serve as the criterion for determining the water-saving efficiency of individual buildings. An investigation of the average water-saving rate from 2000 to 2013 for 1320 buildings certified as green buildings was also conducted to validate the estimation results and found that these green buildings saved an average of approximately 37.6% compared to the baseline water usage rate for all buildings. Water savings will inevitably follow from the use of water-saving appliances or water-saving designs for buildings. The proposed calculation process can be used to clarify the relationships between specific water-saving concepts and the real water usage efficiency of green buildings.
Abstract:The purpose of this study was to construct a scheme that makes it possible to compare the relationship between water usage, satisfaction, and physical properties in three countries. The physical properties of the shower were measured using physical properties testing apparatus of water-saving standard or scheme for showerheads issued in several water-saving countries and data for users satisfaction evaluation was acquired through bathing experiments. In this paper, we analyzed the result from Taiwanese and Vietnamese individuals to compare them to of Japanese subjects analyzed in the previous study. We compared the physical properties of showers assessed low in satisfaction by Taiwanese, Vietnamese and Japanese subjects. It was assumed that spray pattern tends to decrease satisfaction when the water volume ratio within 100 mm and 150 mm of a measuring device is located a 450 mm distance from the showerhead is low, and that, because all three countries showed the same value, it was imagined that there were no differences in the water volume ratio of high-satisfaction showerheads among three countries. On the other hand, the values of Spray Force-per-Hole, Temperature Drop, and Spray Angle were different among three countries. We speculated that these differences are affected respectively by ethnic differences in pain tolerance, thermoregulatory response and bathing habit.
This study uses cases of practical education to illustrate the process and results of innovative construction methods. The results are as follows: 1. Originating from the nature of materials, development of construction methods through understanding the characteristics of materials can better demonstrate the importance of detailed design. 2. Through the addition of other materials, wood structures can stand out from the conventional form to show an amazing style. 3. Through practices, students can understand the importance of detailed design. Starting from the essence of the material and returning to the overall design through detailed design can indeed create unexpected results. 4. Feedback on teaching to provide reference for subsequent courses.
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