Thermodynamic performance study on the novel efficient flow pattern global construction evaporator

Tianming Zhong,Haoxian Bai,Shu Chen, Junrong Yang, Zhilin He,Lixing Ding, Haokun Li

CASE STUDIES IN THERMAL ENGINEERING(2024)

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Abstract
Based on the fluid-efficient flow pattern global construction heat transfer enhancement mechanism, a novel evaporator, called the efficient flow pattern global construction evaporator (EFGE), is presented to improve the in -tube evaporation heat transfer at low quality. The numerical analysis and experimental study of EFGE's thermodynamic performance are performed. Results show that the temperature distribution characteristic of the fluid-efficient heat transfer flow pattern construction is better than that of the initial fluid. The evaporation heat transfer coefficient (HTC) of EFGE is 0.34-1.04 times that of a common parallel flow evaporator (PFE), and the pressure drop of EFGE is only 80%-116 % of that of a common PFE at the quality of 0.9. The theoretical nonuniformity of the evaporation HTC between low- and high-quality flow is approximately 12%-67 %, which is 55%-72 % of the pressure drop. The numerical analysis results agree with the finding that EFGE has better thermodynamic performance than PFE in terms of friction power reduction and minimum entropy generation number.
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Key words
Heat transfer enhancement,Full nucleate boiling,Numerical analysis,Thermodynamic performance,Efficient flow pattern global construction evap-orator
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