An experimental study of a film cooling with swirling flow on the endwall of a high loaded 1st nozzle

摘要

This paper describes an experimental study on film cooling effectiveness of circular and fan-shaped film cooling holes with a swirling film coolant injected through the endwall of a high-loaded 1st nozzle. The experiments have been conducted by using a two dimensional vane cascade, designed based on the first-stage vane of E3 (Energy Efficient Engine) engine studied by a NASA project. The film cooling effectiveness on the endwall of the enlarged 1st nozzle of E3 turbine was measured by using pressure sensitive paint (PSP) techniques. It appeared from the experimental results that the film cooling effectiveness of a circular hole was improved by increasing the angle 9 of two impingement jets inside the cavity, which is used both to cool internal wall and to produce a swirling motion of film coolant. On the other hand, it was found that there exists an optimal jet angle between θ= 10 to 15 degrees in the case of a fan shaped film cooling hole. Thus the new film cooling method with swirling cooling air has been demonstrated to maintain its high film cooling effectiveness even under such a complicated flow field.