学位论文详细信息
Analysis of Binary Fluid Heat and Mass Transfer in Ammonia-Water Absorption
Ammonia/water;Absorption;Heat and mass transfer correlations;Flow visualization;Local variation of absorption rates
Bohra, Lalit Kumar ; Mechanical Engineering
University:Georgia Institute of Technology
Department:Mechanical Engineering
关键词: Ammonia/water;    Absorption;    Heat and mass transfer correlations;    Flow visualization;    Local variation of absorption rates;   
Others  :  https://smartech.gatech.edu/bitstream/1853/19780/1/bohra_lalit_k_200712_phd.pdf
美国|英语
来源: SMARTech Repository
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【 摘 要 】

An investigation of binary fluid heat and mass transfer in ammonia-water absorption was conducted.Experiments were conducted on a horizontal-tube falling-film absorber consisting of four columns of six 9.5 mm (3/8 in) nominal OD, 0.292 m (11.5 in) long tubes, installed in an absorption heat pump.Measurements were recorded at both system and local levels within the absorber for a wide range of operating conditions (nominally, desorber solution outlet concentrations of 5 - 40% for three nominal absorber pressures of 150, 345 and 500 kPa, for solution flow rates of 0.019 - 0.034 kg/s.).Local measurements were supplemented by high-speed, high-resolution visualization of the flow over the tube banks.Using the measurements and observations from videos, heat and mass transfer rates, heat and vapor mass transfer coefficients for each test condition were determined at the component and local levels.For the range of experiments conducted, the overall film heat transfer coefficient varied from 923 to 2857 W/m2-K while the vapor and liquid mass transfer coefficients varied from 0.0026 to 0.25 m/s and from 5.51×10-6 to 3.31×10-5 m/s, respectively.Local measurements and insights from the video frames were used to obtain the contributions of falling-film and droplet modes to the total absorption rates.The local heat transfer coefficients varied from 78 to 6116 W/m2-K, while the local vapor and liquid mass transfer coefficients varied from -0.04 to 2.8 m/s and from -3.59×10-5 (indicating local desorption in some cases) to 8.96×10-5 m/s, respectively.The heat transfer coefficient was found to increase with solution Reynolds number, while the mass transfer coefficient was found to be primarily determined by the vapor and solution properties.Based on the observed trends, correlations were developed to predict heat and mass transfer coefficients valid for the range of experimental conditions tested.These correlations can be used to design horizontal tube falling-film absorbers for ammonia-water absorption systems.

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