2014 IPS GALVESTON
- IPS 14-01 The Importance of Pre-Job Shock Modeling as a Risk Mitigation Tool in TCP Operations
- IPS 14-02 Fracture Initiation from Perforations_A Martin
- IPS 14-03 New Shock Sensing Sub Permits Greater Understanding of the Dynamic Response of Perforating Gun Strings_J Wight
- IPS 14-04 Perforating Gunshock Loads Simulation and Optimization in 2014_M Brinsden
- IPS 14-05 Advances in Numerical Modeling of Downhole Dynamics for Perforated Well Completions_D Bale
- IPS 14-06 Simulation of the Dynamics of Perforating for a Selected Charge Analysis of Tunnel Cleanup Based on the Direction of Gravity_G Craddock
- IPS 14-09 HNS Time Temperature Curves Derived from Ampule Testing
- IPS 14-10 Perforation Flow Laboratory An Engineering Workflow to Design and Optimize Perforated Completions
- IPS 14-11 More Than Just Penetration- Perforation Design for Naturally Completed and Stimulated Wells_J Hardesty
- IPS 14-12 Using a Perforation Flow Lab to select Shaped Charges and the Proper Underbalance Technique for Deepwater Subsea Wells Offshore Africa_N Osarumwense
- IPS 14-13 -Stressed Rock Penetration Modelling and Section II Testing for Shaped Charges_L McNelis IPS 14-14 Effect of Initiation Train Configuration on Single Shaped Charge Testing_S Geerts
- IPS 14-15 API Section 1 Data Food for Thought_A Martin
- IPS 14-16 Laboratory perforation and flow testing with reservoir wellcore_B Grove
- IPS 14-17 Preliminary results – Ultrasonic Tomography of Stressed Rock Targets_T Scott
- IPS 14-18 Long Gun Deployment
- IPS 14-19 Perforating In The Direction of Maximum Stress
- IPS 14-20 Customized Dynamic Underbalance Perforations yield much higher productivities than Conventional
- IPS 14-21 Dynamic Underbalance Perforating Practice in Western Siberia Russia_I Savchenko 2
- IPS 14-22 Wireline Perforating Technology Maximizes Well Productivity and Minimizes Operational Risks_R Rahman
- IPS 14-23 Best Practices for Plug and Perf in Acid Fractured Stimulation wells_Z Zaouali
- IPS 14-25 Tripling Well Productivity by applying new perforating job design & Combined perforation technologies
- IPS 14-27 Lead Free (Green Energetic) Time Delay Fuse for TCP Applications
- IPS 14-28 Lead Free (Green Energetic) RF Safe Detonator
- IPS 14-29 Introducing a Game Changing Select Fire System for Wireline and Coiled Tubing
- IPS 14-30 Successful Integrated Investigation process for TCP Partial Misfire_Hanaey Ibrahim
- IPS 14-31 Retrieval of Misfired Perforating System_J. Davidson & J. Barker
- IPS 14-32 Deepwater GoM Propellant Assisted Perforating Incident Review_K. Folse
- IPS 14-33 Innovative Multilateral Technology Eliminates the Need for Perforating While Providing Stimulation with Accuracy
- IPS 14-34 Flow Through Perforating System_S Hilligiest
- IPS 14-35 Stand-alone Wireline Oriented Perforating System Delivers New Production in Multi-Casing Well_A Salsman
- IPS 14-36 Development and Implementation of Side Mounted Gun (SMG) Systems for Intelligent Completions to Perforate Natural Gas Cap
- IPS 14-37 Pump Down Perforating Efficiency Improvements with New Technology_K Harive
- IPS 14-38 Completion evolution The role of perforating in horizontal shale wells_K Daly
- IPS 14-39 Perforating for Hydraulic Diversion Efficiency in Perforation Cluster_G King
- IPS 14-40 P-M Aspects Affect Oil Charges Penetration IPS 14-41 Propellant Disappearing Gun – Concept Trials