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Afternoon Oral Presentations

Sensitivity Analysis of the Main Variables Involved in the Parent-Child EUR Responses using a Comprehensive Numerical Simulation Workflow in the Core of Vaca Muerta
D. Martins Cruz1, M. I. Weimann2, D. Ratcliff3 (1. Iberam, Capital Federal, CABA, Argentina. 2. YPF, Neuquen, Argentina. 3. ResFrac, Houston, TX, United States. )
Utilizing Machine Learning to Improve Reserves Estimation and Production Forecasting Accuracy
A. Sharma1, I. Gupta2, T. Phi3, S. Ashesh4, R. Kumar4, F. G. Borgogno5 (1. Mewbourne school of petroleum and geological engineering, University of oklahoma, Norman, OK, United States. 2. Pioneer Natural Resources, Irving, TX, United States. 3. ChampionX, Houston, TX, United States. 4. Petroleum Development Oman, Muscat, Oman. 5. WellKnows SAS, Ciudad Autonoma de Buenos Aires, Argentina. )
Using Production Quality Flow AI Based Facies With Integrated Multidisciplinary Workflow For BestPotential Landing Targets Evaluation in Delaware Basin
M. Vinassa1, T. Tracey2, D. Handwerger1, J. I. Lashari1, H. Jatoi3 (1. Premier Oilfield Group, Neuquén, Neuquén, Argentina. 2. BTA, Denver, CO, United States. 3. SPE, Richardson, TX, United States. )

Decarbonization of Seismic Survey Acquisitions
M. Naghizadeh1, A. Crook1, M. Monatno1, A. Birce1, M. Hons1, S. Ross1 (1. Optiseis Solutions Ltd., Calgary, AB, Canada. )
Reservoir Characterization for Gas Production and CO2 Sequestration
A. Gordon1, R. Cova1, E. Mutual1, B. Goodway1, S. Leaney1, W. Pardasie1, M. Ng2 (1. Qeye, Calgary, AB, Canada. 2. Advantage Energy, Calgary, AB, Canada. )
Integrating Rock Physics and Borehole Seismic to Understand the Elastic Changes Associated with CO2 Injections: a REAL-LIFE Example from Southwestern Wyoming
G. D'Aubeterre1 (1. Ikon Science, Houston, TX, United States. )

Multi-Realization Reservoir Simulation Modelling Applied to Vaca Muerta Cube Development for Type Curve Generation
D. E. Delgado1, J. Viamontes2, L. Zhang1, P. Zannitto1 (1. Shell Argentina, Buenos Aires, CABA, Argentina. 2. NuTech, Houston, TX, United States. )
The Application of a New Variable Pressure Decline-Curve Analysis Technique to Unconventional Reservoirs in Argentina
L. Ruiz Maraggi1, F. R. Tuero2, M. P. Walsh3, L. W. Lake3 (1. Bureau of Economic Geology, The University of Texas at Austin, Austin, TX, United States. 2. VYP Consulting Services, Buenos Aires, Argentina. 3. Hildebrand Department of Petroleum and Geosystems Engineering, The University of Texas at Austin, Austin, TX, United States. )
Numerical RTA for Dry Gas Wells
M. L. Carlsen1, C. H. Whitson1, M. M. Dahouk1 (1. Whitson AS, Houston, TX, United States. )

Frequency vs Azimuth (FVAZ): the Younger Member of the Family of Seismic Driven Fracture Characterization Methods
J. A. Tavella1, V. Lazzari2, M. Frydman2, N. Herrera3 (1. JT Reservorios, Berisso, Buenos Aires, Argentina. 2. Phoenix Global Resources, CABA, Argentina. 3. Wellfield Services L.T.D.A, CABA, Argentina. )
3D Temperature and Hydrodynamics Modelling in Horizontals to Assess the Fractures Performance
M. Volkov1, E. Loya1 (1. Center of Excellence, TGT Oilfield Services, Fulshear, TX, United States. )
Challenges Related to Oyster Floatstones in Vaca Muerta Development. Visualization on PSTM, PSDM and Diffraction Imaging.
R. L. Roth1, P. F. Alvarez1, G. TARRES2, V. E. MERCHAN JAIMES3, D. T. Licitra2, M. G. Goñi1 (1. Geophysics, YPF SA, Neuquen, Neuquen, Argentina. 2. Geology, YPF SA, Neuquen, Neuquen, Argentina. 3. Geomechanics, YPF SA, Neuquen, Neuquen, Argentina. )

All Day Poster Presentations

Driving Forces for the Highly Productive Low Gas to Oil Ratio (GOR) Black Shale Oil in Vaca Muerta (VM)
S. Wu1, Y. Tang1, A. Sneddon2, H. Ostera3 (1. Power Energy and Environmental Research Institute, Covina, CA, United States. 2. Midcon Well Logging Inc., Norman, OK, United States. 3. DTP Laboratorios, Buenos Aires, Argentina. )
Two Superior Shale Oil Enhanced Recovery Methods for the Vaca Muerta Shale
R. Downey1, M. Whitelock2, S. Olmos3, L. A. Pons3, F. R. Tuero4, A. Martinez5, A. Lopez Gibson6, S. Grasso4 (1. Shale Ingenuity LLC, Centennial, CO, United States. 2. IPT Well Solutions, Golden, CO, United States. 3. Reservoir Engineering, Tecpetrol, Buenos Aires, Buenos Aires, Argentina. 4. VYP Consulting Services, Buenos Aires, Buenos Aires, Argentina. 5. Rock Flow Dynamics, Houston, TX, United States. 6. Darcy Partners, Houston, TX, United States. )
Potential Formation Damage Complications in Supercritical CO2 Storage
C. Palencia1, Y. C. Araujo de Itriago1, P. Singletary1 (1. Intertek, Houston, TX, United States. )
High Pressure Supercritical Carbon Dioxide Cyclic Injection in Low Permeability Shale for Oil Mobility Improvement Through Oil Swelling
B. Abdeltawab1, L. Sameh1, S. Fakher1, A. Elsayed1, H. Ibrahim1 (1. Petroleum and Energy Engineering, The American University in Cairo, Cairo, Egypt. )
Flow Characteristics of Oil-Water Two-Phase Seepage after Fracturing Fluid Intrusion in Tight Reservoirs
S. Li1, L. Zhong1, Y. Hu1, H. Zhang2, Q. Lin2, J. He2, M. Zhang2 (1. China University of Petroleum (Beijing), Beijing, Beijing, China. 2. Daqing Oilfield Co. Ltd., Daqing, China. )
Application of Foamers in Unconventional Oil Well with Low Water Cut
J. Villanova1, F. Iuliano2, J. López1, V. Emiliani2, M. Bragagnolo2 (1. PECOM Energía, Centenario, Neuquén, Argentina. 2. Pan American Energy, Neuquén, Argentina. )
Application of Nanoparticle to Enhance Foamy Oil Performance
Y. LI1, Z. Du1, H. Qing1, Y. Gu1, F. Zeng1 (1. Petrolumn System Engineering, University of Regina, Regina, SK, Canada. )
Mechanistic Study of the Prospects of Binary Surfactant Systems in Carbonate Formations
A. Bello1, A. Ivanova1, A. Rodionov1, A. Cheremisin2 (1. Eco Energy LLC, Moscow, Russian Federation. 2. LabAdvance LLC, Moscow, Russian Federation. )

Maturity, Gas to Oil Raio (GOR) and PVT Simulation of the Prolific Vaca Muerta (VM) Shale Oil Resources
S. Wu1, H. Ostera3, Q. Su2, A. Zhong2, Y. Tang1 (1. Power Energy and Environmental Research Institute, Covina, CA, United States. 2. Shengli Oil field, Sinopec, Dongying, Shandong, China. 3. DTP Lab, Buenos Aires, Argentina. )
Using Production Quality Flow AI Based Facies With Integrated Multidisciplinary Workflow For Best Potential Landing Targets Evaluation in Delaware Basin
M. Vinassa1, T. Tracey2, D. Handwerger1, J. I. Lashari1, H. Jatoi3 (1. Premier Oilfield Group, Neuquén, Neuquén, Argentina. 2. BTA, Denver, CO, United States. 3. SPE, Richardson, TX, United States. )

3D Pore Pressure Estimation Using Induced Seismicity Related to Shale Gas Hydraulic Fracturing
Y. Tan1, J. Qian2, J. Hu3 (1. Ocean University of China, Qingdao, China. 2. Hohai University, Nanjing, China. 3. Chengdu University of Technology, Chengdu, China. )
Results of Seismic Evaluation on a Faulted Zone to Allow Successful Drilling and Completion of Wells in a Multilanding Development in the Vaca Muerta Fm.
M. Castellani1, M. Garcia Torrejon1, A. Rasgido1 (1. Pan American Energy, Buenos Aires, Argentina. )
Broader Spectrum Seismic after Seismic Inversion via Neural Network Solutions: Its Contribution to Seismic Interpretation
L. Vernengo1, J. A. Tavella2, M. Garcia Torrejon1 (1. Pan American Energy, Ciudad Autonoma de Bs As, Buenos Aires, Argentina. 2. Geofisika, Berisso, Argentina. )
Exploration and Development based on RTH Technology and AI
G. N. Erokhin1, M. Erokhina1, K. Safran1, A. Iakovlev1 (1. R&D, Geomex Technologies, Puerto Vallarta, Jalisco, Mexico. )