Design and Investigation of a Nonlinear Damper Based on Energy Dissipation through Shock and Dry Friction to Suppress Critical Self-Excited Vibrations in Drilling Systems

Autor:	Andreas Hohl, Georg-Peter Ostermeyer, Vincent Kulke
Jazyk:	angličtina
Rok vydání:	2021
Předmět:	Materials science Article Subject media_common.quotation_subject QC1-999 Inertia Article Drill string Damper Harmonic balance ddc:531 Veröffentlichung der TU Braunschweig ddc:5 Civil and Structural Engineering media_common business.industry Mechanical Engineering Physics Structural engineering Dissipation Geotechnical Engineering and Engineering Geology Condensed Matter Physics Shock (mechanics) Vibration Nonlinear system Mechanics of Materials ddc:53 Publikationsfonds der TU Braunschweig business
Zdroj:	Shock and Vibration, Vol 2021 (2021) Shock and Vibration : special issue Nonlinear Dynamics in Drilling Engineering 2021, id 5089213. https://doi.org/10.1155/2021/5089213--https://doi.org/10.1155/3148--https://www.hindawi.com/journals/sv/--http://www.iospress.nl/journal/shock-and-vibration/--http://www.bibliothek.uni-regensburg.de/ezeit/?2070162--1875-9203--1070-9622
ISSN:	1070-9622
DOI:	10.1155/2021/5089213
Popis:	In this paper, a passive damper based on energy dissipation through shock and dry friction (shock-friction damper) is investigated regarding its design and effectiveness for damping self-excited torsional vibrations similar to those occurring in deep drilling. The results are compared to the results of conventional friction dampers. The effectiveness of the damper for different operational drilling parameters that change during the drilling process, such as the weight on the bit and the rotary speed of the bit, is analyzed. Two linear reduced order models of a drill string that are based on a complex finite element model are set up. One is reduced using the component mode synthesis and one is reduced to the identified critical mode. A lumped mass represents the inertia of a forcedly connected nonlinear damper. A combined reduced order model of the complex system and the inertia damper is introduced to investigate its dynamic motion and stability. Particular focus is on the energy flow within the dynamic system and on the change of the dissipation energy in the contact. A semi-analytical solution is derived using the harmonic balance method that is used to investigate the damping effect for various designs and operational parameters. Herein, the modal properties as well as parameters of the damper are examined regarding the damping effect and the stability of the system. Finally, the capability of the mechanism to suppress the self-excitation due to the bit–rock interaction in a drilling system is discussed, and recommendations are made with respect to the design parameters and placement of the damper.
Databáze:	OpenAIRE
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