Vibration characteristics analysis and structural optimization of bio-organic fertilizer mixer based on finite element method

In order to solve the waste produced by grape planting and cattle and sheep breeding in the Turpan area, this paper puts forward an organic liquid fertilizer mixer, and analyzes the vibration characteristics of the main structure-mixing barrel and auger. The finite element model of the mixer structu...

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Veröffentlicht in:	Journal of physics. Conference series 2024-08, Vol.2815 (1), p.12002
Hauptverfasser:	He, Hualong, Geni, Mamtimin, Tohti, Gulbahar
Format:	Artikel
Sprache:	eng
Schlagworte:	Fertilizers Finite element method Frequency analysis Modal analysis Organic liquids Resonance Resonant frequencies Thickness Vibration analysis
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creator	He, Hualong Geni, Mamtimin Tohti, Gulbahar
description	In order to solve the waste produced by grape planting and cattle and sheep breeding in the Turpan area, this paper puts forward an organic liquid fertilizer mixer, and analyzes the vibration characteristics of the main structure-mixing barrel and auger. The finite element model of the mixer structure is established by Ansys, and the modal analysis is carried out in combination with the actual application. The analysis structure shows that the minimum natural frequency of the mixer barrel is 51.993 Hz, the minimum natural frequency of the auger is 12.601 Hz, in which the natural frequency of the auger is less than its working frequency of 48.5 Hz, and there is resonance risk. To improve this problem, the structure of the mixing auger is optimized, the length of the auger is reduced, and the pipe thickness and diameter are increased. The improved modal analysis shows that the minimum natural frequency of the auger is 50.371 Hz, which avoids the working frequency and will not cause resonance.
doi_str_mv	10.1088/1742-6596/2815/1/012002
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subjects	Fertilizers Finite element method Frequency analysis Modal analysis Organic liquids Resonance Resonant frequencies Thickness Vibration analysis
title	Vibration characteristics analysis and structural optimization of bio-organic fertilizer mixer based on finite element method
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