Open AccessInvestigation of the draft tube variations against the first stage and the second stage flow of banki turbine
Author(s) -
S Sirojuddin,
Lukman K. Wardhana,
A Kholil
Publication year - 2021
Publication title -
iop conference series. materials science and engineering
Language(s) - English
Resource type - Journals
eISSN - 1757-899X
pISSN - 1757-8981
DOI - 10.1088/1757-899x/1098/6/062077
Subject(s) - draft tube , water turbine , casing , flow (mathematics) , turbine , trajectory , stage (stratigraphy) , tube (container) , inflow , head (geology) , mechanics , marine engineering , power (physics) , mechanical engineering , simulation , engineering , geology , physics , paleontology , quantum mechanics , astronomy , geomorphology
Cross Flow Turbine usually for micro hydro-electrical power plant application especially for isolated areas. Increasing power efficiency still the most interesting topic for researches. One of the method to increase it was to control the inflow of water from the first stage to the second stage of banki blades to be a good flow trajectory and did not strike the shaft using a draft tube. This research aimed to investigate the draft tube length variations against the flow from the first stage to the second stage of Banki turbine, so that good flow trajectory, uniform color velocity contour and avoid shaft struck could be obtained. There were 2 variants runner casing and 3 variants length of draft tube, 140 mm, 240 mm, and 340 mm. The 2D and 3D geometry were drawn in CAD software, while Flow Simulation test using Solidwork Flow Simulation with a discharge of water 2 m 3 /min and head 5.5 m. From simulation results, shown that the second variant C2-2 was the highest efficiency and the best flow trajectory.