Basri, Hasan (2017) VIBRATION ANALYSIS OF ROTARY CEMENT KILN USING FINITE ELEMENT METHOD. In: SICEST 2016, 9-10 November 2016, Bangka Island-Indonesia.
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Abstract
In this research, the implementation of shell of kiln problem has been discussed. The results obtained in this research are taken based on the simulation and experimental work. This research discusses only the simulation work that are performed to evaluate the fatigue of the shell of a kiln. To validate the characteristic of fatigue problem simulation, the mechanical and thermal load are implemented on the shell of a kiln. The results are analyzed in detail in this research for fatigue life for the shell of a kiln. In this work, the shell of the kiln has been modeled by Solid Works and Fast 2014. All the boundary conditions (mechanical load, thermal load, Young’s modulus, density) must be evaluated such as the actual condition. This simulation showed how the most relevant aspects of the developed work presented in this paper can contribute to the state-of-the-art of the analysis of fatigue life of rotary cement kiln technique with innovative ideas and strategies. It also reviews that the obtained results achieve the proposed objectives. The dynamics of the large scale rotary machine with multiple wheel bearing structures is investigated in this research. Based on the Finite Element Method, the transfer matrices and overall transfer equation are developed to calculate natural frequencies, and response overall motion equation is established for response analysis. The main goal of the work presented in this research is to propose vibration analysis and fatigue life analysis algorithm in the shell of a kiln using finite element method. Due to the dimensionality of the problem addressed, the research specification has to set limits to the applicability of the research by selecting only mechanical load problems in rotary cement kiln tasks and goal-seeking to predict the fatigue life simulation investigated. From the simulation, model and boundary conditions are defined. Crack growth behavior in the rotary kiln was predicted. As the crack grows, the speed of crack depth increase.
Item Type: | Conference or Workshop Item (Paper) |
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Subjects: | T Technology > TA Engineering (General). Civil engineering (General) > TA329-348 Engineering mathematics. Engineering analysis > TA347.F5C4665 Finite Element Method, Computer System Engineering Mathematics, |
Divisions: | 03-Faculty of Engineering > 21201-Mechanical Engineering (S1) |
Depositing User: | Prof.Dr.Ir Hasan Basri |
Date Deposited: | 15 Jun 2020 15:02 |
Last Modified: | 15 Jun 2020 15:02 |
URI: | http://repository.unsri.ac.id/id/eprint/30362 |
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