%0 Journal Article
%T 基于ANSYS Fluent的取暖器温度场仿真分析与结构优化设计
Simulation Analysis and Structure Optimization Design of Heater Temperature Field Based on ANSYS Fluent
%A 史贺喜
%A 程子恒
%A 郑永基
%A 冯继东
%A 李同杰
%A 陶浩浩
%J Instrumentation and Equipments
%P 155-161
%@ 2332-7006
%D 2025
%I Hans Publishing
%R 10.12677/iae.2025.132022
%X 本文通过对合作单位主流的取暖器的结构建模与温度场仿真分析,基于仿真结果优化取暖器,达到最大程度利用取暖器制热散热的目的。首先根据现有取暖器结构建立其三维模型,进而通过ANSYS Fluent软件对取暖器温度场以及风速进行数值模拟分析,得到取暖器制热的热量分布云图以及出风口风速,最后根据热量分布云图优化取暖器结构。模拟仿真显示,优化后的取暖器在制热的过程中使得出风口的风速提高,散热效果较好,显著提升了室内快速升温的效率。
In this paper, through the structure modeling and temperature field simulation analysis of the mainstream heater, the heater is optimized based on the simulation results to achieve the maximum use of the heater to make heat dissipation. First of all, the three-dimensional model is established according to the existing heater structure, and then the temperature field and wind speed of the heater are analyzed by ANSYS Fluent software, and the heat distribution cloud map of the heater heating and the wind speed of the air outlet are obtained. Finally, the heater structure is optimized according to the heat distribution cloud map. The simulation shows that the optimized heater improves the wind speed of the air outlet in the heating process, the heat dissipation effect is good, and significantly improves the efficiency of the indoor rapid heating up.
%K 取暖器,
%K 温度场仿真,
%K 数值模拟
Heater
%K Temperature Field Simulation
%K Numerical Simulation
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=116654