Aerator Performance Effectiveness To Prevent Cavitation In Steep Channel


Yeri Sutopo, FT Teknik Sipil and Budi S, - and Wignyosukarto, - and Istiarto, - (2016) Aerator Performance Effectiveness To Prevent Cavitation In Steep Channel. International Journal of Engineering and Technology, 8 (2). pp. 1360-1370. ISSN 2319-8613

[thumbnail of Turnitin_Aerator_Performance_Effectiveness_To_Prevent_Cavitation_In_Steep_Channel.pdf]
Preview
PDF
Download (4MB) | Preview
[thumbnail of Aerator Performance Effectiveness To Prevent Cavitation In Steep Channel]
Preview
PDF (Aerator Performance Effectiveness To Prevent Cavitation In Steep Channel) - Published Version
Download (477kB) | Preview

Abstract

The incoming air from the atmosphere into the water flow which reaches the bed of the flow > 7% can prevent the cavitation at the bed of the chute spillway channel. At the time of the concentration of air bubbles in the bed flow cannot naturally reach 7 %, then aerator is required at the bottom of the channel, so that the concentration is increased to > 7%.The purpose of this study was to test the aerator effectiveness in increasing the concentration of air bubbles at the bottom of a steep channel. This study used steep channel whose length is 10 m, width 0.2 m, and height 0.4 m, while slope of steep channel is 20º and25º.The discharge is 20.9 l/s.A set of video cameras was used to take a picture of the movement of air bubbles. A Sony ED210 CCTV whose specifications are: indoor, 1/3 "color CCD, 540 TVL resolution, 0.1 lux was used for documentation purpose. The analysis of air bubbles was conducted using aUlead Video Studio 11 equipped with a ImageJ software version 1.43. The results of this study was on the slope of steep channel bed α = 25°, and Q = 20.9 l/s, at a point 7.2 m from the inlet flume on the condition of artificial air entrainment in the downstream flow region after the first aerator was installed, new aerator unit is not required.

Item Type: Article
Uncontrolled Keywords: Aerator performance, Cavitation prevention, Steep channel, The concentration of air bubbles, ImageJ software version 1.43
Subjects: T Technology > TA Engineering (General). Civil engineering (General)
Fakultas: Pasca Sarjana > Pendidikan Kejuruan, S2
Depositing User: mahargjo hapsoro adi
Date Deposited: 11 Jun 2020 15:13
Last Modified: 11 Jun 2020 15:13
URI: http://lib.unnes.ac.id/id/eprint/36718

Actions (login required)

View Item View Item