Add to ORKGThe authors present results on the use of the discrete element method (DEM) for the simulation of drilling processes typical in the oil and gas exploration industry. The numerical method uses advanced DEM techniques using a local definition of the DEM parameters and combined FEM-DEM procedures. This paper presents a step by step procedure to build a DEM model for analysis of the soil region coupled to a FEM model for discretizing the drilling tool that reproduces the drilling mechanics of a particular drill bit. A parameter study has been performed to determine the model parameters in order to maintain accurate solutions with reduced computational cost
Percussive rotary drilling is recognized as the most efficient method for hard rock drilling. Despit...
Percussive rotary drilling is recognized as the most efficient method for hard rock drilling. Despit...
Percussive rotary drilling is recognized as the most efficient method for hard rock drilling. Despit...
We present recent developments in the Discrete Element method (DEM) for analysis of drilling mechani...
We present recent developments in the Discrete Element method (DEM) for analysis of drilling mechani...
Optimization of costly drilling operations is essential to reduce the overall costs of oil and gas e...
Optimization of costly drilling operations is essential to reduce the overall costs of oil and gas e...
Optimization of costly drilling operations is essential to reduce the overall costs of oil and gas e...
This study attempts to build a framework within the Discrete Element Method (DEM) to produce a relia...
This study attempts to build a framework within the Discrete Element Method (DEM) to produce a relia...
During the oil recovery a hole is drilled, the sandstone is left unsupported next to the cavity and ...
This is an accepted manuscript of an article published by Springer in Environmental Earth Sciences o...
The method of percussive rotary drilling is recognized as the most efficient method for hard rock dril...
The method of percussive rotary drilling is recognized as the most efficient method for hard rock dr...
The method of percussive rotary drilling is recognized as the most efficient method for hard rock dril...
Percussive rotary drilling is recognized as the most efficient method for hard rock drilling. Despit...
Percussive rotary drilling is recognized as the most efficient method for hard rock drilling. Despit...
Percussive rotary drilling is recognized as the most efficient method for hard rock drilling. Despit...
We present recent developments in the Discrete Element method (DEM) for analysis of drilling mechani...
We present recent developments in the Discrete Element method (DEM) for analysis of drilling mechani...
Optimization of costly drilling operations is essential to reduce the overall costs of oil and gas e...
Optimization of costly drilling operations is essential to reduce the overall costs of oil and gas e...
Optimization of costly drilling operations is essential to reduce the overall costs of oil and gas e...
This study attempts to build a framework within the Discrete Element Method (DEM) to produce a relia...
This study attempts to build a framework within the Discrete Element Method (DEM) to produce a relia...
During the oil recovery a hole is drilled, the sandstone is left unsupported next to the cavity and ...
This is an accepted manuscript of an article published by Springer in Environmental Earth Sciences o...
The method of percussive rotary drilling is recognized as the most efficient method for hard rock dril...
The method of percussive rotary drilling is recognized as the most efficient method for hard rock dr...
The method of percussive rotary drilling is recognized as the most efficient method for hard rock dril...
Percussive rotary drilling is recognized as the most efficient method for hard rock drilling. Despit...
Percussive rotary drilling is recognized as the most efficient method for hard rock drilling. Despit...
Percussive rotary drilling is recognized as the most efficient method for hard rock drilling. Despit...