EXPERIMENTAL INVESTIGATION OF FORCED EVAPORATION COEFFICIENT FROM THE DISTURBED SURFACE OF HEATED WATER

IF 0.9 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES
D. Obracaj, M. Korzec, Klaudia Zwolińska
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引用次数: 0

Abstract

This article presents the results of laboratory tests of water evaporation for varying air velocities over the water surface at different water wave heights. Measurements of water evaporation were conducted using the experimental setup, which consists of a wind tunnel covering a bottom-heated water tank. The investigations were carried out for water temperature higher than the intake air temperature in the range of variable air velocity from 0.40 to 0.94 m/s. The measurements were carried out for four series with heights of spatter-free wave 0, 1.5, 3.0 and 5.0 mm, respectively. The conditions were maintained in such a way that the variations in the partial pressure over the water surface were kept to a minimum. The evaporation coefficient was defined, as the water mass transfer coefficient referred to the steady differential of water vapour partial pressures at air and water temperatures. The novelty consists in finding a linear correlation between the evaporation coefficient and the air velocity over the disturbed water surface. However, an increase in the evaporation coefficient is directly proportional to the height of the water wave. By comparing the wave height to the coefficient of pool occupancy, a new formula for predicting evaporation is given for indoor pools.
热水扰动表面强迫蒸发系数的实验研究
本文介绍了在不同水波高度下,水面上不同空气速度下水分蒸发的实验室测试结果。水蒸发的测量是使用实验装置进行的,该装置由一个覆盖底部加热水箱的风洞组成。在0.40至0.94m/s的可变空气速度范围内,对高于进气温度的水温进行了研究。对四个系列进行测量,无飞溅波的高度分别为0、1.5、3.0和5.0mm。以将水面上的分压变化保持在最小的方式来维持条件。蒸发系数被定义为水传质系数,指的是在空气和水温下水蒸气分压的稳定差。新颖之处在于发现了扰动水面上蒸发系数和空气速度之间的线性相关性。然而,蒸发系数的增加与水波的高度成正比。通过将波浪高度与水池占用系数进行比较,给出了室内水池蒸发量的新预测公式。
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来源期刊
CiteScore
1.60
自引率
36.40%
发文量
0
审稿时长
8.6 months
期刊介绍: Environmental Engineering and Management Journal is an international journal that publishes reviewed original research papers of both experimental and theoretical nature in the following areas: environmental impact assessment; environmental integrated management; risk assessment and management; environmental chemistry; environmental protection technologies (water, air, soil); pollution reduction at source and waste minimization; chemical and biological process engineering; cleaner production, products and services; sensors in environment control; sources of radiation and protection technologies; waste valorization technologies and management; environmental biotechnology; energy and environment; modelling, simulation and optimization for environmental protection; technologies for drinking and industrial water; life cycle assessments of products; environmental strategies and policies; cost-profitt analysis in environmental protection; eco-industry and environmental market; environmental education and sustainable development. Environmental Engineering and Management Journal will publish: original communications describing important new discoveries or further developments in the above-mentioned topics; reviews, mainly of new rapidly developing areas of environmental protection; special themed issues on relevant topics; advertising.
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