This is our first year exhibiting at the URTeC Conference, and we’re excited to launch our new Well Pad Planning software.
It’s an easy-to-use, affordable, stand-alone multi-well pad planning tool that eliminates the manual work required to move and adjust pads.
Check out one of our (very short) presentations to see how it works, and make sure you enter for our draw prize giveaway.
Join us for a brief overview of our Well Pad Planning Tool and an economic analysis based on the exported results. Well Pad Planning allows rapid generation and iteration of full field well pad planning including variations in the number of wells, spacing, and horizontal lengths. The exported results can then be easily imported and analyzed in Xiletek’s economic tools to determine the optimal approach to full field development.
This case study shows the correlation between azimuthal vectors derived from azimuthal gathers and frac effectiveness based on breakdown pressures.
Well Pad Planning gives you the automated tools you need to eliminate the manual work traditionally required in pad planning and field development, drastically reducing cycle times. This intuitive tool allows you to run multiple “what if” scenarios and evaluate single pads and full field plans using integrated statistics so you can optimize plans and reduce overall drilling costs. And, collaboration is made easy with dynamic 3D visualization displays available on any desktop.
Well Pad Planning gives you the automated tools you need to eliminate the manual work traditionally required in pad planning and field development, drastically reducing cycle times. This intuitive tool allows you to run multiple “what if” scenarios and evaluate single pads and full field plans using integrated statistics so you can optimize plans and reduce overall drilling costs. And, collaboration is made easy with dynamic 3D visualization displays available on any desktop.
Well Pad Planning gives you the automated tools you need to eliminate the manual work traditionally required in pad planning and field development, drastically reducing cycle times. This intuitive tool allows you to run multiple “what if” scenarios and evaluate single pads and full field plans using integrated statistics so you can optimize plans and reduce overall drilling costs. And, collaboration is made easy with dynamic 3D visualization displays available on any desktop.
This case study shows the correlation between azimuthal vectors derived from azimuthal gathers and frac effectiveness based on breakdown pressures.
Well Pad Planning gives you the automated tools you need to eliminate the manual work traditionally required in pad planning and field development, drastically reducing cycle times. This intuitive tool allows you to run multiple “what if” scenarios and evaluate single pads and full field plans using integrated statistics so you can optimize plans and reduce overall drilling costs. And, collaboration is made easy with dynamic 3D visualization displays available on any desktop.
This case study shows the correlation between azimuthal vectors derived from azimuthal gathers and frac effectiveness based on breakdown pressures.
Join us for a brief overview of our Well Pad Planning Tool and an economic analysis based on the exported results. Well Pad Planning allows rapid generation and iteration of full field well pad planning including variations in the number of wells, spacing, and horizontal lengths. The exported results can then be easily imported and analyzed in Xiletek’s economic tools to determine the optimal approach to full field development.
Well Pad Planning gives you the automated tools you need to eliminate the manual work traditionally required in pad planning and field development, drastically reducing cycle times. This intuitive tool allows you to run multiple “what if” scenarios and evaluate single pads and full field plans using integrated statistics so you can optimize plans and reduce overall drilling costs. And, collaboration is made easy with dynamic 3D visualization displays available on any desktop.
Well Pad Planning gives you the automated tools you need to eliminate the manual work traditionally required in pad planning and field development, drastically reducing cycle times. This intuitive tool allows you to run multiple “what if” scenarios and evaluate single pads and full field plans using integrated statistics so you can optimize plans and reduce overall drilling costs. And, collaboration is made easy with dynamic 3D visualization displays available on any desktop.
This case study shows the correlation between azimuthal vectors derived from azimuthal gathers and frac effectiveness based on breakdown pressures.
Well Pad Planning gives you the automated tools you need to eliminate the manual work traditionally required in pad planning and field development, drastically reducing cycle times. This intuitive tool allows you to run multiple “what if” scenarios and evaluate single pads and full field plans using integrated statistics so you can optimize plans and reduce overall drilling costs. And, collaboration is made easy with dynamic 3D visualization displays available on any desktop.
Well Pad Planning gives you the automated tools you need to eliminate the manual work traditionally required in pad planning and field development, drastically reducing cycle times. This intuitive tool allows you to run multiple “what if” scenarios and evaluate single pads and full field plans using integrated statistics so you can optimize plans and reduce overall drilling costs. And, collaboration is made easy with dynamic 3D visualization displays available on any desktop.
Join us for a brief overview of our Well Pad Planning Tool and an economic analysis based on the exported results. Well Pad Planning allows rapid generation and iteration of full field well pad planning including variations in the number of wells, spacing, and horizontal lengths. The exported results can then be easily imported and analyzed in Xiletek’s economic tools to determine the optimal approach to full field development.
This case study shows the correlation between azimuthal vectors derived from azimuthal gathers and frac effectiveness based on breakdown pressures.
