环境空气参数对冷却塔热工性能的影响机理

IF 1.6 4区 工程技术 Q3 ENGINEERING, MECHANICAL
Lei Zhang, Jun Zhou, Simeng Zuo, Guangyao An, Jinhua Lang, Wei Yuan
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引用次数: 0

摘要

摘要随着冷却塔容积的不断增大,环境因素对冷却塔热工性能的影响尚不清楚。因此,为了更全面地研究环境空气参数对自然通风湿式冷却塔热工性能的影响机理,对各区域的气水比、循环水温差、换热等关键参数进行了计算,并对温度场和湿度场进行了研究。结果表明:随着环境温度的升高,循环水温差减小幅度最大,为7.63℃;而大气压使循环水温差减小最小,为0.95℃,导致三区换热分别减小14.9%、10.6%和26.0%。相对湿度和大气压力的增大导致接触换热增大,蒸发传质减小。环境温度的升高使冷却塔的接触传热和蒸发传质减小,最终使冷却塔的传热和传质能力减小。本研究为进一步优化冷却塔的热工性能和节能设计奠定了理论基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect mechanism of ambient air parameters on the thermal performance for cooling towers
Abstract With the increasing volume of the cooling tower, the influence of environmental factors on the thermal performance of the cooling tower is not clear. Therefore, in order to more comprehensively study the influence mechanism of ambient air parameters on the thermal performance of the natural draft wet cooling tower, the key parameters such as gas-water ratio, circulating water temperature difference and heat transfer in each zone are calculated, and the temperature field and humidity field are also investigated. The results show that the circulating water temperature difference decreases most with the increase of ambient temperature, which is 7.63°C. However, atmospheric pressure makes the circulating water temperature difference decrease the least, which is 0.95°C, resulting in the decrease of heat transfer in the three zones by 14.9%, 10.6% and 26.0% respectively. The increase of relative humidity and atmospheric pressure leads to the increase of contact heat transfer and the decrease of evaporative mass transfer. The increase of ambient temperature makes the contact heat transfer and evaporative mass transfer decrease, and finally the heat and mass transfer capacity of the cooling tower decreases. This study establishes a theoretical basis for further optimization of the thermal performance and energy-saving design of cooling towers.
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来源期刊
Journal of Thermal Science and Engineering Applications
Journal of Thermal Science and Engineering Applications THERMODYNAMICSENGINEERING, MECHANICAL -ENGINEERING, MECHANICAL
CiteScore
3.60
自引率
9.50%
发文量
120
期刊介绍: Applications in: Aerospace systems; Gas turbines; Biotechnology; Defense systems; Electronic and photonic equipment; Energy systems; Manufacturing; Refrigeration and air conditioning; Homeland security systems; Micro- and nanoscale devices; Petrochemical processing; Medical systems; Energy efficiency; Sustainability; Solar systems; Combustion systems
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