不等高填料外区加密布置对火电厂冷却塔热力性能影响的数值模拟

发电技术

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不等高填料外区加密布置对火电厂冷却塔热力性能影响的数值模拟

缪文峰¹，邵建宇¹，朱善会¹，张学伟¹，陈洪明²，高明^2*

1.浙江浙能台州第二发电有限责任公司，浙江省台州市 317109；2.高效储能及氢能利用山东省工程研究中心(山东大学核科学与能源动力学院)，山东省济南市 250061

基金资助:
国家自然科学基金项目(52476206)

Numerical Simulation of Effects of Unequal-Height Filling Denser Layout in Outer Zone on Thermal Performance of Cooling Tower of Thermal Power Plant

MIAO Wenfeng¹, SHAO Jianyu¹, ZHU Shanhui¹, ZHANG Xuewei¹, CHEN Hongming², GAO Ming^2*

1.Zhejiang Zheneng Taizhou Second Power Generation Company Limited, Taizhou 317109, Zhejiang Province, China; 2.Shandong Engineering Research Center for High-Efficiency Energy Storage and Hydrogen Energy Utilization (School of Nuclear Science, Energy and Power Engineering, Shandong University), Jinan 250061, Shandong Province, China

Supported by:
Project Supported by National Natural Science Foundation of China (52476206)

摘要/Abstract

摘要： 【目的】以某电厂配置的自然通风湿式冷却塔为研究对象，针对不等高布置时外区空气速度过高，传热传质效率下降问题，提出一种外区加密布置优化方法，以改善气流分布与热力性能。【方法】首先，将外区30 mm片距填料替换为26 mm片距填料，获得5种不同加密高度的布置方案；然后，建立三维数值模型，对各方案温度场及外区与整体热力性能进行模拟分析；最后，对比不同季节典型工况下的性能指标，确定相对较优的填料加密方案。【结果】填料加密可提升塔内温度场均匀性。在设计工况下，随加密高度增加，水温降和冷却数增大，但增幅逐渐趋缓。不同季节典型工况下的较优加密方案存在差异，经综合比较，外区填料底部加密1.00 m为较优选择，在设计工况下可使水温降和冷却数分别增大0.135 ℃和0.09，且在各季节与运行条件下均可到达明显的优化效果。【结论】该优化方法能够显著提升冷却塔热力性能，可为冷却塔填料布置优化提供理论依据和工程参考。

关键词: 火力发电, 自然通风湿式冷却塔, 填料区, 不等高填料, 外区优化, 加密布置, 热力性能, 数值模拟

Abstract: [Objectives]　Taking a natural draft wet cooling tower in a power plant as the research object, this study addresses the problem of excessive air velocity in the outer zone under the unequal-height layout, which leads to reduced heat and mass transfer efficiency. Therefore, an optimization method involving a denser layout in the outer zone is proposed to improve airflow distribution and thermal performance. [Methods]　First, the filling with a spacing of 30 mm in the outer zone is replaced by filling with a spacing of 26 mm to design five denser layout schemes with different heights. Then, a three-dimensional numerical model is established to simulate and analyze the temperature field, as well as the thermal performance of both the outer zone and the whole tower under each scheme. Finally, by comparing the performance indicators under typical operating conditions in different seasons, a relatively optimal filling denser layout scheme is determined. [Results]　The results show that the filling denser layout can improve the uniformity of the temperature field inside the cooling tower. Under design operating conditions, both the water temperature drop and Merkel number increase with greater denser layout height, but the rate of increase shows a diminishing trend. The optimal denser layout schemes differ under typical operating conditions in different seasons. Through comprehensive comparison, densifying the bottom 1.00 m of the filling in the outer zone is identified as a relatively optimal scheme. Under design operating conditions, this scheme can increase the water temperature drop and the Merkel number by 0.135 ℃ and 0.09 respectively, and can achieve significant optimization effectiveness under different operating conditions in different seasons. [Conclusions]　This optimization method can effectively enhance the thermal performance of cooling towers, thereby providing a theoretical basis and engineering reference for research on optimizing filling layout in cooling towers.

Key words: thermal power generation, natural draft wet cooling tower, filling zone, unequal-height filling, outer zone optimization, denser layout, thermal performance, numerical simulation

缪文峰, 邵建宇, 朱善会, 张学伟, 陈洪明, 高明. 不等高填料外区加密布置对火电厂冷却塔热力性能影响的数值模拟[J]. 发电技术.

MIAO Wenfeng, SHAO Jianyu, ZHU Shanhui, ZHANG Xuewei, CHEN Hongming, GAO Ming. Numerical Simulation of Effects of Unequal-Height Filling Denser Layout in Outer Zone on Thermal Performance of Cooling Tower of Thermal Power Plant[J]. Power Generation Technology.

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