speed greater than 40 rad/s, and at about the distance of 0.65D (where D is the pipe diameter) between deflector’s eye and turbine. EndNote will place undefined reference types into a Generic category. Insert only those reference types in a category that you need. It was also found that such turbines were generally more efficient at slightly higher rotational speeds, i.e. EndNote treats a reference type as plain text (not as a reference) in the bibliography if you apply any text style to it. However, there was an increase in pressure difference, head, and available theoretical power with the increase in rotational speed for all the positions. The results suggest that the performance characteristics of drag-type turbine are erratic, thus leaving little space to draw a firm conclusion about the turbine’s performance. Despite the generous number of references types on offer, many reference types in EndNote seem to be lacking. The numerical study was performed for a hollow-type drag turbine at 6 different rotational speeds and 10 different turbine positions. The research aims to predict the behavior of larger diameter pipelines for commercial installation based on the result obtained from this study. Despite the generous number of references types on offer, many reference types in EndNote seem to be lacking. The study was performed for a 160 mm diameter pipeline and a 126 mm turbine height. This research encompasses a numerical study of the in-pipe hydroelectric power generation turbine to identify the optimal position of the turbine from the deflector. However, the effect of the turbine’s position relative to the upstream deflector on its performance has not been studied so far. Several researchers worldwide have studied the optimal turbine type, the optimal number of blades in turbine, introduction of suitable deflector, etc. This new clean energy technology has been identified to be feasible after successful commercial installation in different parts of the world. In-pipe hydroelectric power generation is a relatively new clean energy power generation technology.
0 Comments
Leave a Reply. |