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某高层建筑空调室外机通风效果模拟研究 被引量:2

Numerical Simulation of Ventilation Effect of Outdoor Units in Air Conditioning System for High-rise Building
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摘要 利用流体计算软件针对某"H"形高层建筑对称的形状特点,采用空调室外机迎面布置方式来排除热量的通风方式进行了模拟,研究了不同的排风速度对通风效果的影响,得出8 m/s为合理的排风速度,并对原有的排风口布置方案进行了优化:内侧排风口应当尽量远离内侧墙壁布置,避免贴附射流效应对通风效果的影响。 Using the fluid calculation software to simulate the outdoor units ventilation effect of multi-couple units air conditioning system for H-shape high-rise buildings by blowing face to face in a concave space, the influence of blowing speed on the ventilation effect has been studied. The results indicate that 8 m/s is the reasonable blowing speed which can guarantee the effective performance of the outdoor units. Also, a better scheme to arrange the air outlets in the wall of the outdoor unit room has been provided. A conclusion has been drawn that the inside air outlets should be arranged far away enough to the inside wall of the concave space to avoid the wall-attached jet effect which will deteriorate the ventilation effect.
作者 贾雪峰 刘东
机构地区 同济大学机械工程学院
出处 《建筑热能通风空调》 2010年第1期69-72,76,共5页 Building Energy & Environment
关键词 高层建筑 对吹气流 多联空调机室外机 排风速度 通风效果 high-rise building, blowing face to face, outdoor units in multi-couple units air conditioning system, the reasonable blowing speed, ventilation effect
分类号 TU834 [建筑科学—供热、供燃气、通风及空调工程]
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  • 1赵彬,李先庭,彦启森.暖通空调气流组织数值模拟的特殊性[J].暖通空调,2004,34(11):122-127. 被引量:36
  • 2Clifford M J, Everitt P J, Clarke R, et al. Using computational fluid dynamics as a design tool for naturally ventilated buildings[J]. Building and Environment, 1997, 32 (4): 305-312.
  • 3Lee M M. Application of CFD to improve the design of high rise estates[G]//HKIE Trans, 2001, 8 (1): 13-22.
  • 4Chen D, Lo S M, Lu W, et al. A numerical study of the effect of window configuration on the external heat and smoke spread in building fire[J]. Numerical Heat Transfer, Part A: Application, 2001, 40(3) : 821- 839.
  • 5Chow T T, Lin Z. Prediction of on-coil temperature of condensers installed at tall building re-entrant[J]. Applied Thermal Engineering, 1999, 19(4) : 117 - 132.
  • 6Chow T T, Lin Z, Wang Q W. Effect of building re-entrant shape on performance of air-cooled condensing units [J]. Energy and Buildings, 2000, 32(2): 143-152.

共引文献36

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建筑热能通风空调
2010年 第1期

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