OPERATING DEFLECTION SHAPE AT FIXED COUPLING SHAFT DUE TO MISALIGNMENT PROBLEM

OPERATING DEFLECTION SHAPE AT FIXED COUPLING SHAFT DUE TO MISALIGNMENT PROBLEM

Rotating machinery is critical component in production process. One of the rotating machinery problem is the centerline of the driver shaft does not coincide with <br /> <br /> <br /> the centerline of the driven shaft. This problem is known as misalignment. Condition Based Maint...

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Main Author: ARNANTO PUTRO (NIM : 13105062); Pembimbing : Prof. Dr. Ir. Komang Bagiasna, IWAN
Format: Final Project
Language:Indonesia
Online Access:https://digilib.itb.ac.id/gdl/view/16133
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:16133
spelling id-itb.:161332017-09-27T10:40:47ZOPERATING DEFLECTION SHAPE AT FIXED COUPLING SHAFT DUE TO MISALIGNMENT PROBLEM ARNANTO PUTRO (NIM : 13105062); Pembimbing : Prof. Dr. Ir. Komang Bagiasna, IWAN Indonesia Final Project INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/16133 Rotating machinery is critical component in production process. One of the rotating machinery problem is the centerline of the driver shaft does not coincide with <br /> <br /> <br /> the centerline of the driven shaft. This problem is known as misalignment. Condition Based Maintenance can be used to detect failure caused by misalignment early. One of the methods is Operating Deflection Shape (ODS). This <br /> <br /> <br /> method is based on measuring magnitude and phase at some points on structure. In this research, phase is get from keyphasor as signal reference. With processing data, <br /> <br /> <br /> the deflection of those points is obtained. Data processing and ODS visualization are generated by using Mechanical Engineering Scope Visual Engineering Series 4.0 (ME’scopeVES 4.0) software. <br /> <br /> <br /> This research is focused on ODS analysis at fixed coupling shaft that suffered parallel misalignment. Some parallel misalignment condition at horizontal direction is given so there will be some specifics deflection at the setup. Parallel misalignment has amplitude at 2xRPM higher than 1xRPM. So that in this research, there are comparison between shaft ODS at 1xRPM’s frequency and shaft ODS at 2xRPM’s frequency. One of the results is at 2xRPM’s frequency, the shape of the shaft between driven inboard bearing and driven coupling looks like a sinusoidal signal. Even though at 1xRPM’s frequency, the shape of the shaft between driven inboard bearing and driven coupling looks like a half sinusoidal signal. 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
description Rotating machinery is critical component in production process. One of the rotating machinery problem is the centerline of the driver shaft does not coincide with <br /> <br /> <br /> the centerline of the driven shaft. This problem is known as misalignment. Condition Based Maintenance can be used to detect failure caused by misalignment early. One of the methods is Operating Deflection Shape (ODS). This <br /> <br /> <br /> method is based on measuring magnitude and phase at some points on structure. In this research, phase is get from keyphasor as signal reference. With processing data, <br /> <br /> <br /> the deflection of those points is obtained. Data processing and ODS visualization are generated by using Mechanical Engineering Scope Visual Engineering Series 4.0 (ME’scopeVES 4.0) software. <br /> <br /> <br /> This research is focused on ODS analysis at fixed coupling shaft that suffered parallel misalignment. Some parallel misalignment condition at horizontal direction is given so there will be some specifics deflection at the setup. Parallel misalignment has amplitude at 2xRPM higher than 1xRPM. So that in this research, there are comparison between shaft ODS at 1xRPM’s frequency and shaft ODS at 2xRPM’s frequency. One of the results is at 2xRPM’s frequency, the shape of the shaft between driven inboard bearing and driven coupling looks like a sinusoidal signal. Even though at 1xRPM’s frequency, the shape of the shaft between driven inboard bearing and driven coupling looks like a half sinusoidal signal.
format Final Project
author ARNANTO PUTRO (NIM : 13105062); Pembimbing : Prof. Dr. Ir. Komang Bagiasna, IWAN
spellingShingle ARNANTO PUTRO (NIM : 13105062); Pembimbing : Prof. Dr. Ir. Komang Bagiasna, IWAN
OPERATING DEFLECTION SHAPE AT FIXED COUPLING SHAFT DUE TO MISALIGNMENT PROBLEM
author_facet ARNANTO PUTRO (NIM : 13105062); Pembimbing : Prof. Dr. Ir. Komang Bagiasna, IWAN
author_sort ARNANTO PUTRO (NIM : 13105062); Pembimbing : Prof. Dr. Ir. Komang Bagiasna, IWAN
title OPERATING DEFLECTION SHAPE AT FIXED COUPLING SHAFT DUE TO MISALIGNMENT PROBLEM
title_short OPERATING DEFLECTION SHAPE AT FIXED COUPLING SHAFT DUE TO MISALIGNMENT PROBLEM
title_full OPERATING DEFLECTION SHAPE AT FIXED COUPLING SHAFT DUE TO MISALIGNMENT PROBLEM
title_fullStr OPERATING DEFLECTION SHAPE AT FIXED COUPLING SHAFT DUE TO MISALIGNMENT PROBLEM
title_full_unstemmed OPERATING DEFLECTION SHAPE AT FIXED COUPLING SHAFT DUE TO MISALIGNMENT PROBLEM
title_sort operating deflection shape at fixed coupling shaft due to misalignment problem
url https://digilib.itb.ac.id/gdl/view/16133
_version_ 1820737629973381120

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