Jason Scorsone
Jason Scorsone has been a vanguard in the oil and gas industry for over two decades. His current role as Global Technical Advisor at Halliburton Energy Services allows him to wear several hats. He serves as a water-based drilling fluids expert for Baroid and as the linchpin for Halliburton Project Management (HPM). His multi-faceted role is a testament to his deep-rooted expertise and significance within the organization.
His previous assignments within Halliburton have been equally impactful. As Global Technical Development Manager, he reimagined and revitalized the company’s Service Quality frameworks, integrating competency-driven criteria into employee training programs. In addition, his global leadership is underscored by his tenure as Operations Manager in various international markets such as Indonesia and the UAE. In both roles, he orchestrated significant boosts in ROI and market share.
On the academic front, Jason’s foundation is rock-solid. He earned his Bachelor’s Degree in Chemistry from Louisiana State University, specializing in Polymer Chemistry. Later, he refined his leadership competencies through Business Leadership Development programs at Mays Business School at Texas A&M University, regularly earning top honors for his performance.
Beyond corporate boundaries, he is deeply committed to community service and personal growth. His role as a Cub Scout Den Leader exemplifies his passion for mentoring and character development in young people. His community-centric outlook is further displayed through his active contributions to his local Catholic Church, mainly through annual food distribution drives.
Regarding personal interests, Jason is an avid nature enthusiast, which is unsurprising given his Eagle Scout background. He regularly engages in outdoor pursuits like camping, fishing, and hiking. Philosophically, he gravitates toward Stoicism, drawing from its teachings to navigate the complexities and challenges of life with equanimity.
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- Viscous settable fluid for lost circulation in subterranean formations
- Lost circulation composition for fracture sealing
- Methods relating to designing wellbore strengthening fluids
- Composition of polybutadiene-based formula for downhole applications
- Defluidizing lost circulation pills
- Degradable non-aqueous gel systems
- Methods of delaying the curing of moisture sensitive curable elastomers
- Viscous settable fluid for lost circulation in subterranean formations
- Methods relating to designing wellbore strengthening fluids
- Graphene Oxide as a High-Performance Fluid-Loss-Control Additive in Water-Based Drilling Fluids
- Synchrotron X-ray Tomography for 3D Chemical Distribution Measurement of a Flame Retardant and Synergist in a Fiberglass-Reinforced Polymer Blend
- The Development of a Geopolymer-Based Pill as an Engineered Solution to Lost Circulation
- High-Fluid-Loss, High-Strength Lost Circulation Treatments
- An Improved Oil-Based Chemical Gel System for Wellbore Stabilization
- Development Of A Novel Oil-Based Chemical Gel System For Improved Wellbore Stabilization And Strengthening
- Next-Generation, Right-Angle-Setting Composition for Eliminating Total Lost Circulation
- Stopping Severe Losses in Deepwater Environments Requires an Engineered Solution
- Maximum Drilling Time by minimizing Circulation Losses