SIMULATION OF FLOATING RING BEARING ON REDUCER GEARS OF ROLLER MILL

SIMULATION OF FLOATING RING BEARING ON REDUCER GEARS OF ROLLER MILL

Floating ring bearings generally have a simple construction, especially when compared to other bearings such as ball bearings and journal bearings that consist of many components that need to be precisely arranged. These bearings are used in reducer gears on roller mills in cement plants. In this...

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Main Author: Siena Pari, Hagi
Format: Final Project
Language:Indonesia
Subjects:
Teknik (Rekayasa, enjinering dan kegiatan berkaitan)
Online Access:https://digilib.itb.ac.id/gdl/view/70119
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:70119
spelling id-itb.:701192022-12-26T11:24:26ZSIMULATION OF FLOATING RING BEARING ON REDUCER GEARS OF ROLLER MILL Siena Pari, Hagi Teknik (Rekayasa, enjinering dan kegiatan berkaitan) Indonesia Final Project Floating Ring Bearing, simulation, Simscale, Ansys. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/70119 Floating ring bearings generally have a simple construction, especially when compared to other bearings such as ball bearings and journal bearings that consist of many components that need to be precisely arranged. These bearings are used in reducer gears on roller mills in cement plants. In this reduser, there is a floating ring bearing system that is used to facilitate the rotation of the planetary gear system around a shaft. The reducer system is designed to run for 170,000 hours, but failed after only 17,400 hours on the planetary gear. This study used a suitable simulation application to analyze the cause of roller mill reducer failure based on the design of the bearing and found whether the bearing would work properly or fail before the designed service life. Simulations were carried out with Simscale, Ansys CFX, and Ansys Fluent applications on 3 floating ring bearing models. The parameters used to test the success of the simulation include: stability of the solver graph for the outlet domain at the end of the simulation, fluid area velocity, velocity magnitude, velocity distribution, pressure gradation and visualization. The results obtained were that the Ansys Fluent application is more suitable for simulating floating ring bearings because it can produce more realistic simulation results than the Simscale application with the same model and parameters. There were obstacles in the process of making the bearing model mesh caused by the thin volume of fluid between the bearing components, mesh conflicts at the meeting area with different cell volumes and dimensions, and the complex shape of the bearing model. It is recommended in future research to make the pieces of the model separately and then put them together to form the desired model. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
topic Teknik (Rekayasa, enjinering dan kegiatan berkaitan)
spellingShingle Teknik (Rekayasa, enjinering dan kegiatan berkaitan)
Siena Pari, Hagi
SIMULATION OF FLOATING RING BEARING ON REDUCER GEARS OF ROLLER MILL
description Floating ring bearings generally have a simple construction, especially when compared to other bearings such as ball bearings and journal bearings that consist of many components that need to be precisely arranged. These bearings are used in reducer gears on roller mills in cement plants. In this reduser, there is a floating ring bearing system that is used to facilitate the rotation of the planetary gear system around a shaft. The reducer system is designed to run for 170,000 hours, but failed after only 17,400 hours on the planetary gear. This study used a suitable simulation application to analyze the cause of roller mill reducer failure based on the design of the bearing and found whether the bearing would work properly or fail before the designed service life. Simulations were carried out with Simscale, Ansys CFX, and Ansys Fluent applications on 3 floating ring bearing models. The parameters used to test the success of the simulation include: stability of the solver graph for the outlet domain at the end of the simulation, fluid area velocity, velocity magnitude, velocity distribution, pressure gradation and visualization. The results obtained were that the Ansys Fluent application is more suitable for simulating floating ring bearings because it can produce more realistic simulation results than the Simscale application with the same model and parameters. There were obstacles in the process of making the bearing model mesh caused by the thin volume of fluid between the bearing components, mesh conflicts at the meeting area with different cell volumes and dimensions, and the complex shape of the bearing model. It is recommended in future research to make the pieces of the model separately and then put them together to form the desired model.
format Final Project
author Siena Pari, Hagi
author_facet Siena Pari, Hagi
author_sort Siena Pari, Hagi
title SIMULATION OF FLOATING RING BEARING ON REDUCER GEARS OF ROLLER MILL
title_short SIMULATION OF FLOATING RING BEARING ON REDUCER GEARS OF ROLLER MILL
title_full SIMULATION OF FLOATING RING BEARING ON REDUCER GEARS OF ROLLER MILL
title_fullStr SIMULATION OF FLOATING RING BEARING ON REDUCER GEARS OF ROLLER MILL
title_full_unstemmed SIMULATION OF FLOATING RING BEARING ON REDUCER GEARS OF ROLLER MILL
title_sort simulation of floating ring bearing on reducer gears of roller mill
url https://digilib.itb.ac.id/gdl/view/70119
_version_ 1822991313774051328

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