Abstract
Impacting systems that can move during their operation have many practical
applications in science and engineering, and there are different theoretical models describing their motion. A general issue arising for this kind of system when
applied to drilling is how to obtain optimum control parameters for high penetration rate with different types of rock. Pavlovskaia et al. [1] theoretically
showed how to model and calculate penetration rates by using a drifting oscillator. Wiercigroch et al. [2] proved experimentally for ultrasonic percussive
drilling that the material removal rate is a function of static load and has local and global maxima. Cavanough et al. [3] revealed the relationship between
static load, rotational torque, and penetration rate also in a percussive drilling
experiment. All these studies have demonstrated the existence of the optimal set
of parameters and a need for a self-optimizing control system capable of choosing
its static load to obtain optimal regime drilling conditions.
applications in science and engineering, and there are different theoretical models describing their motion. A general issue arising for this kind of system when
applied to drilling is how to obtain optimum control parameters for high penetration rate with different types of rock. Pavlovskaia et al. [1] theoretically
showed how to model and calculate penetration rates by using a drifting oscillator. Wiercigroch et al. [2] proved experimentally for ultrasonic percussive
drilling that the material removal rate is a function of static load and has local and global maxima. Cavanough et al. [3] revealed the relationship between
static load, rotational torque, and penetration rate also in a percussive drilling
experiment. All these studies have demonstrated the existence of the optimal set
of parameters and a need for a self-optimizing control system capable of choosing
its static load to obtain optimal regime drilling conditions.
Original language | English |
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Title of host publication | Proceedings of Second International Colloquium on Nonlinear Dynamics and Control of Deep Drilling Systems (ICNDCDS 2012) |
Editors | Nathan van de Wouw, Emmanuel Detournay |
Place of Publication | Eindhoven, The Netherlands |
Publisher | Technische Universiteit Eindhoven |
Pages | 87-92 |
Number of pages | 6 |
Publication status | Published - 1 Jan 2012 |
Event | 2nd International Colloquium on Nonlinear Dynamics and Control of Deep Drilling Systems - Eindhoven , Netherlands Duration: 15 May 2012 → 16 May 2012 |
Conference
Conference | 2nd International Colloquium on Nonlinear Dynamics and Control of Deep Drilling Systems |
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Abbreviated title | ICNDCDS 2012 |
Country/Territory | Netherlands |
City | Eindhoven |
Period | 15/05/12 → 16/05/12 |