مشخصات پژوهش

خانه /Thermal enhancement analysis ...
عنوان
Thermal enhancement analysis of PCM-filled finned tube heat exchangers using metal foams in building HVAC systems
نوع پژوهش مقاله چاپ‌شده
کلیدواژه‌ها
Finned tube heat exchanger Metal foams Phase change material Building HVAC
چکیده
This study numerically investigates the thermal enhancement of a finned-tube phase change material (PCM) heat exchanger integrated with open-cell metal foams for building HVAC (Heating, ventilation and air conditioning) applications. The novelty of the work lies in a systematic transient CFD-based parametric analysis of metal foam–PCM synergy, considering foam material, porosity, airflow velocity, and fin number simultaneously under realistic HVAC operating conditions. Copper tubes filled with PCM-A27 and equipped with aluminum fins are analyzed, while aluminum and copper metal foams with different porosities are embedded inside the PCM to overcome its inherently low thermal conductivity. The transient simulations are performed using the enthalpy-porosity technique to evaluate melting, liquid fraction formation, temperature variation in PCM, and the outlet air temperature. The findings obtained demonstrate that for copper foam with porosity ε = 0.905, the melting time of PCM can be shortened by 73 % at an air velocity of 3 m/s and 78 % at 5 m/s compared to the melting time in pure PCM. Moreover, the outlet air reaches near inlet temperature after 248 s at 3 m/s and 213 s at 5 m/s, corresponding to reductions of 65 % and 71.8 % in thermal equilibrium time, respectively. A fin number of 90 combined with Cu foam (ε = 0.905) yields the most uniform liquid fraction distribution and the highest outlet air temperature. The findings confirm the strong potential of metal foam–enhanced PCM heat exchangers to significantly improve thermal response and energy efficiency in modern HVAC systems.
پژوهشگران علی اصغر محمدپور (نفر اول)، بهرام جعفری (نفر دوم)، خشایار حسین زاده (نفر سوم)