Hart Energy Webinars

Transform Waterflood Management Practices
Using Physics-Informed Spatio-Temporal Graph Neural Network

Available On-Demand

Waterflooding is an important method in optimizing field development, and best-in-class waterflood management practices increase the economic value of the field, and zero waste management efforts. Mature waterfloods often present significant reservoir management challenges. Conventional approaches such as operational spreadsheets and reservoir simulation are ineffective for actively managing waterflooding; either too simplistic or challenging to (re)calibrate in a short timeframe for operational decision-making.

In this webinar, an in-depth look is taken at how an AI-driven, cloud-native waterflood management technology optimally blends physics-based and data-driven approaches for fast and reliable subsurface modeling. The application characterizes the reservoir through a heterogeneous, dynamic, directed graph, depicting connections between injector and producer nodes. These super-fast simulations are generated using a graph neural network (GNN). The GNN captures spatial and temporal patterns and leverages critical physics to improve model accuracy and generalization.

The proposed methodology was successfully applied to many reservoirs worldwide and delivered significant value in terms of CAPEX/OPEX reduction and overall improvement in reservoir operations. In this webinar, the results are presented for a carbonate field with more than 150 wells, 60 years of history, and a 50% water cut. The GNN model was trained with test-set (the last 12 months of production history was held out a test set) accuracy of 90% and then used to optimize the waterflooding strategy for the next six months. The optimal scenario resulted in a 26,100 STB/D increase in oil production without a drastic change in water production level, only by adjusting the injection rates and producers' operational conditions without drilling or major workovers.

The modeling approach presented in this webinar has many benefits for actively managing waterflooding and significantly improving workflow efficiencies:

compared to conventional workflows, the time spent building and (re)training the model is demonstrated to be 90% faster
super-fast simulations with GNN
improved model accuracy/generalization leveraging a physics-informed machine learning
more robust decision-making through uncertainty quantification
significantly shorter decision cycles in waterflood operations for well control optimization to increase oil recovery and/or reduce water production

GET TO KNOW OUR GUEST SPEAKERS

Chris Robart
Chief Commercial Officer
Ambyint

Chris is an entrepreneur at heart and a champion of change, with a massive passion for driving technology innovation. For the past 15 years he has served as an investor and advisor to a range of oilfield services, equipment manufacturers, and oilfield technology startups. Chris was a co-founder of PacWest Consulting Partners and Digital H2O, oilfield data/research/software companies that were acquired by IHS and Genscape, respectively. He holds an MBA from the University of Michigan and a BS in systems engineering from the University of Virginia. In his free time, Chris enjoys travel, food, wine, and spending time with his two young boys.

Keith Norman

Head of Technology Partnerships in Energy
Amazon Web Services

Keith is Head of Technology Partnerships for AWS Energy and Utilities, where his team works with technology partners to collaboratively solve the energy industry’s most challenging workflows across the energy value chain. He was previously an executive at ExxonMobil where he spent 17 years leading engineering and operations organizations building and running upstream assets in the US, Angola, Chad, Nigeria, and Russia. He led Engineering for XOM’s USA Upstream portfolio, as VP of Engineering for XOM’s Russian businesses, and was Global Head of Upstream Safety, Health, and Environment for the Corporation. He is now based in San Francisco, where he worked to accelerate the adoption of energy technology startups across more than 100 O&G and Utilities companies before joining AWS in 2021.

Michael Yoho

Director of Operational Technology
CNX Resources

Michael Yoho hails from Pittsburgh, PA where he currently serves as the Director of Operational Technology at CNX Resources. Michael serves as the confluence of people, process, and technology.

Michael has been an integral part in changing CNX from a legacy coal company into a 158-year-old startup company. During Michael’s 22-year career with CNX and legacy companies, Michael has served roles with CNX’s Coal Operations, SCM, E&P IT, E&P Operations, Big Data Team, Innovation and Transformation, Data Governance Board, IRTOC and PMO Teams. Displaying a profound passion for aligned value transformations he was the originator of CNX’s Well Head Production Control Room, Integrated Real Time Operations Center, Big Data Team, Operational Technology Team and Data Governance Board.

Michael holds degrees from West Virginia University and the University of Pittsburgh and continues to enrich his knowledge through classes at Carnegie Mellon’s Tepper School of Business.