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DTSTART;TZID=America/Denver:20260423T160000
DTEND;TZID=America/Denver:20260423T180000
DTSTAMP:20260517T042359
CREATED:20260320T192417Z
LAST-MODIFIED:20260320T192511Z
UID:5709-1776960000-1776967200@denverspe.org
SUMMARY:SPE Technical Happy Hour: April 2026
DESCRIPTION:Description\n\nHost: Society of Petroleum Engineers\, Denver Section \nEvent: April 2026 Technical Happy Hour \nTime: April 23\, 4-6pm (HH begins at 4\, Talk at 430\, more Social until 6) \nLocation: Liberty Energy\, 950 17th St\, Suite 2400\, Denver\, CO 80202 \nSponsor: Novi Labs \nStudy Group Category: Data Analytics \nSpeaker: Brett Sinclair\, Research Director\, Novi Labs \nTitle: Meeting the Moment: Using Machine Learning to Assess How the Marcellus and Haynesville will\nSupply Rising Gas Demand \n  \nAbstract:\nOne of the key challenges we face when trying to analyze scenarios that rely on forecasting the\nproduction from future wells\, is how granular we get in forecasting those wells. Traditionally\,\noperators or analysts looking at very specific asset packages will have highly fine-tuned Type\nCurve Areas to hand-select analogous wells\, creating type curves by bench\, by area\, by\nparent/child designation\, and many more cuts of the data. When doing higher-level analysis –\nhow much will a basin produce over time – analysts might use high-level averages of production\nper well or per rig (or frac crew) across an entire region or basin. \nAt Novi\, we train machine learning models across dozens of features that include subsurface\ngeotechnical attributes\, wellbore and completion design\, well spacing\, and how much prior\ndepletion a future well would experience based on its drainage radius and the amount of\nresource extracted thus far. \nThis provides individual well-level production forecasts custom to each potential location that\ncan be used for extremely focused analysis or high-level macro analysis and everything in\nbetween. It also gets rid of the machine learning “black box” and explains the variation from\naverage in a well’s predicted performance due to different geological\, spacing\, completion\, or\ndepletion features. \nIn this presentation\, we will utilize Novi’s proprietary machine learning-derived inventory\nforecasts to analyze how the Marcellus and the Haynesville are each positioned to supply the\nincreased natural gas demand coming from power generation (largely from data centers) and\nLNG export terminals. How much inventory is left\, and what is the quality of that inventory? \nWhich companies are best positioned\, not only in the near term but for the foreseeable future?\nHow have activity levels responded to structural shifts in demand? \nWe will attempt to show that we don’t have to sacrifice well-level forecast accuracy for scale\,\nand that a machine learning approach also improves individual forecast accuracy while at the\nsame time saving time\, providing the analyst more scope to analyze the forecast’s impact\ninstead of in its derivation. \n  \n  \nBio:\nBrett Sinclair is a Research Director at Novi Labs\, where he focuses on applying the outputs of\nNovi’s data and machine learning analytics platform to US upstream oil and gas research. \nPrior to Novi\, Brett spent 10 years at Kimmeridge Energy in the Investment and Operations\nteams. At Kimmeridge\, Brett and his team conducted analysis and research from technical\,\noperational\, and investment perspectives\, to understand the energy landscape\, to develop and\nexplore investment theses\, to underwrite deals\, and to directly manage portfolio assets. \nPrior to Kimmeridge\, Brett worked as a Directional Driller for Baker Hughes\, drilling horizontals\nin the US Lower 48\, the Alaskan North Slope\, and Saudi Arabia. \nBrett has a bachelor’s degree in mechanical engineering and an MBA\, both from the University\nof Oklahoma. \n  \n  \nSpeaker Photo: \n \n\n  \n  \nRegister Here
URL:https://denverspe.org/event/spe-technical-happy-hour-april-2026/
LOCATION:Liberty Energy\, 950 17th St Suite #24\, Denver\, CO\, 80202\, United States
CATEGORIES:Study Groups,Technical
ATTACH;FMTTYPE=image/png:https://denverspe.org/wp-content/uploads/2026/03/SPE_TechProg_LinkedIn-5.png
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Denver:20260225T160000
DTEND;TZID=America/Denver:20260225T190000
DTSTAMP:20260517T042359
CREATED:20260126T182549Z
LAST-MODIFIED:20260126T183034Z
UID:5653-1772035200-1772046000@denverspe.org
SUMMARY:SPE Denver Business Development Happy Hour: February 2026
DESCRIPTION:Title: Successful Exits for Denver E&P’s \n  \n  \nSpeakers: Panel with Zack Warren Moderating\nAndrew Haney – President at Nickel Road Operating\nBlake Pickett – General Counsel\, Vice President at Franklin Mountain Energy\nPaul Weddle – CEO at Tap Rock Resources \n  \nAbout the Session:\nJoin us for our section’s 2026 Business Development Technical Happy Hour\, featuring a panel\ndiscussion moderated by Zack Warren on Successful Exits for Denver E&P’s. Industry leaders\nAndrew Haney\, Blake Pickett\, and Paul Weddle will share insights on navigating transitions and\nexits\, including the challenges\, strategies\, and lessons learned from scaling companies\, timing\nan exit\, and managing technical and financial considerations. \n  \n  \nRegister Here
URL:https://denverspe.org/event/spe-denver-business-development-happy-hour-february-2026/
LOCATION:Liberty Energy\, 950 17th St Suite #24\, Denver\, CO\, 80202\, United States
CATEGORIES:Study Groups,Technical
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Denver:20260127T160000
DTEND;TZID=America/Denver:20260127T180000
DTSTAMP:20260517T042359
CREATED:20260103T021928Z
LAST-MODIFIED:20260103T021928Z
UID:5627-1769529600-1769536800@denverspe.org
SUMMARY:SPE Technical Happy Hour: January 2026
DESCRIPTION:Host: Society of Petroleum Engineers\, Denver Section\nEvent: January 2026 Technical Happy Hour\nTime: January 27th\, 4-6 (HH begins at 4\, Talk at 430\, Social until 6)\nLocation: Liberty Energy\, 950 17th St\, Suite 2400\, Denver\, CO 80202\nSponsor: Liberty Energy\nStudy Group Category: Completions\nSpeaker: Dr. Ge Jin\, Associate Professor\, Colorado School of Mines \n  \nTitle: Abnormal Fracture Propagation during Hydraulic Fracturing Captured by Cross-well Strain Sensing\nMeasurements \n  \n  \nAbstract:\nFiber-optic cross-well strain measurements have proven to be a powerful tool for optimizing hydraulic\nfracturing operations\, including well spacing and completion designs. As more field data have been\ncollected\, abnormal fracture propagation behaviors have emerged in several case studies from\ngeologically complex areas. In this presentation\, I’ll showcase field measurements that reveal abnormal\nstrain patterns associated with natural fracture stimulation\, fault reactivation\, and large-scale bedding\nplane slippage. These case studies demonstrate the power of cross-well strain measurements to\ncharacterize abnormal fracture behavior while highlighting how geology impacts stimulation results and\nefficiency. \n  \n  \n  \nBio:\nDr. Ge Jin is an Associate Professor of Geophysics and Co-director of Reservoir Characterization Project\nat Colorado School of Mines. His research interests focus on applications of Distributed Fiber-Optic\nSensing (DFOS) in geoscience and engineering\, as well as seismic imaging and machine learning\ntechniques. He received the ARMA Case Study Award in 2025\, delivered the AAPG/SEG Distinguished\nLecture in 2024\, received the Best Paper award at the URTeC conference in 2023 and 2024. Before\njoining Colorado School of Mines\, Dr. Jin worked for five years as a research geophysicist at\nConocoPhillips. Dr. Jin earned his Ph.D. in Geophysics from Columbia University and holds dual B.S.\ndegrees in Geophysics and Computer Science from Peking University. \n  \n  \nRegister Here
URL:https://denverspe.org/event/spe-technical-happy-hour-january-2026/
LOCATION:Liberty Energy\, 950 17th St Suite #24\, Denver\, CO\, 80202\, United States
CATEGORIES:Study Groups,Technical
ATTACH;FMTTYPE=image/png:https://denverspe.org/wp-content/uploads/2026/01/Website-Slide-Design-1200-x-456-px-6.png
ORGANIZER;CN="SPE Denver Section":MAILTO:denversection@spemail.org
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Denver:20251208T160000
DTEND;TZID=America/Denver:20251208T180000
DTSTAMP:20260517T042359
CREATED:20251117T154715Z
LAST-MODIFIED:20251117T154758Z
UID:5604-1765209600-1765216800@denverspe.org
SUMMARY:SPE Denver Technical Happy Hour: December 2025
DESCRIPTION:Abstract: \n  \n  \nA key challenge faced in unconventional reservoir development is well\ndensities coupled with modern completion designs to economically optimize\nresource development. Most data analytic applications use single well\nproduction and completion data to explore optimized strategies. However\,\nthe combination of different well densities and completion strategies\ncomplicate single well analytics and thus could be improved upon by using\nmulti-well\, normalized section-based data analytics. This approach can help\nidentify what changes can be made to the combination of wells per section\nand completion metrics to optimize asset recovery or help confirm that\ncurrent strategies are working.\nIn most basins\, the State Public Land Survey System (PLSS) sections are\nthe main grid used to define each section. In the Permian\, the Texas Block\nand Survey sections are used\, whereas in the Eagle Ford\, a custom grid\nwith 1-mile by 1-mile sections are used. Total lateral length within the\nsection\, pumped proppant and fluid\, and production volumes are rolled up\nwithin each grid section and normalized by section area on a per-acre basis.\nExamples in the paper mainly use three-year cumulative oil production and\nsimple three-year payout economics as performance metric. Processed\nsection level data is then visualized in both map views and cartesian plots\,\nto draw insights on section-level performance in specific areas and then\ndetermine the best strategies to optimize asset recovery.\nThe key application of this approach is to draw insights relating to differing\ndevelopment strategies in each area. Trends of fluid treatment job sizes as a\nfunction of wells per section (WPS) can be inferred. Together\, with trends of\nsection production as well as normalized well productivity on a per-foot \nbasis as a function of WPS\, it is possible to assess which development\nstrategy might work best. The trends of section production versus WPS and\ncompletion metrics are generally much better than for single-well analytics.\nThe examples show how optimum performance and development strategy\nmay change for different unconventional basins.\nSection-based data analytics has proven to be an excellent complement to\nwell-based data analytics and physical models as it provides better data\ncorrelations for the whole “development system” compared to single-well\nanalytics. This approach is largely automated and can be used in any basin\nto gain insight into the section-level performance of a given well\ndevelopment and completion strategy. \n  \n  \nBio:\nHoward Melcher is a Subsurface Technical Advisor at Liberty Energy\, where\nhe has been a member of Liberty’s technical team for 12 years\, focusing on\ndata analytics\, formation evaluation\, and frac & reservoir modeling. Before\njoining Liberty\, he spent 6 years with U.S. Energy\, a privately held E&P\,\nworking primarily in the Appalachian Basin. He holds a Bachelor of Science in\nGeology from the University at Buffalo and has completed graduate\ncoursework at Texas A&M. \n  \n  \nRegister Here
URL:https://denverspe.org/event/spe-denver-technical-happy-hour-completions/
LOCATION:Liberty Energy\, 950 17th St Suite #24\, Denver\, CO\, 80202\, United States
CATEGORIES:Study Groups,Technical
ATTACH;FMTTYPE=image/png:https://denverspe.org/wp-content/uploads/2025/11/SPE_TechProg_LinkedIn-29.png
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Denver:20251110T160000
DTEND;TZID=America/Denver:20251110T180000
DTSTAMP:20260517T042359
CREATED:20251027T164902Z
LAST-MODIFIED:20251027T165107Z
UID:5592-1762790400-1762797600@denverspe.org
SUMMARY:SPE Denver Technical Happy Hour: Completions
DESCRIPTION:Speaker: Madison Hollaway\, Low Emissions And Sustainability Lead\, Liberty Energy\nTitle: Evaluating the Transition to Natural Gas-Powered Equipment in Hydraulic Fracturing: Challenges\, Benefits\, and Feasibility Analysis. \n  \nAbstract: \n  \nThe transition to natural gas as a primary fuel source in hydraulic fracturing\noperations launched in 2013 with the introduction of dual fuel engines\,\nwhich use a blend of diesel and natural gas. This transition remains\nongoing\, marked by two fundamentally different approaches to displacing\ndiesel with natural gas. Initially\, dual fuel engines emerged as the\npioneering technology for substituting diesel with natural gas on hydraulic\nfracturing jobs. These engines are still being used and improved upon\ntoday. Subsequently\, circa 2018\, companies began developing and\ndeploying 100% natural gas-powered generation systems to drive\nelectrically powered hydraulic fracturing equipment.\nHistorically\, gas powered generation has been found exclusively in\nstationary applications. Adapting this technology to a mobile package for\nhydraulic fracturing operations has been a formidable industry-wide\nchallenge. Unlike stationary setups\, mobile deployment necessitates\nconsiderations of weight\, ambient outdoor conditions\, and the reliability of\nthe natural gas supply. Prior to equipment construction\, weight\noptimization is imperative\, as off-road mobile units are subject to state-\nspecific road weight restrictions. Compliance with axle\, king pin\, and total\nweight limits is mandatory for roadworthiness. Moreover\, the lack of control\nover outdoor ambient conditions further complicates mobile deployment.\nUnlike ambient conditions\, natural gas supply is within control of the\noperator\, though it cannot be preemptively resolved like weight\nconsiderations. Post-deployment\, natural gas quality and supply often\nemerge as predominant challenges\, highlighting their significance in mobile\ngas-powered generation for hydraulic fracturing operations. \n  \n  \nThe balance of transitioning to natural gas fueled engines\, while the natural\ngas infrastructure catches up\, has been both delicate and complex. Diesel\nhas been used as a fuel source for over 70 years in the industry and thus\nhas firmly established a robust supply chain. In contrast\, the Compressed\nNatural Gas (CNG) supply chain is in the early stages of development and\nhas consistently served as a bottleneck for deploying natural gas\ntechnologies. However\, there is a prevailing belief that the inherent benefits\nof natural gas will act as a catalyst for the evolution of the CNG supply\nchain in the years to come.\nConsidering the ongoing challenges\, it is imperative to evaluate the true\nbenefits of this transition. Assessing whether the opportunity cost\noutweighs the hurdles encountered\, both presently and in the foreseeable\nfuture\, is crucial. This paper aims to address this critical question by\nleveraging empirical data collected during the initial stages of our\norganization’s natural gas transition. Through a comprehensive analysis\, we\nexamine the tangible advantages and potential drawbacks of embracing\nnatural gas technology\, providing insights into the feasibility and\nimplications of this transition for the hydraulic fracturing industry. In this\nanalysis we will focus on Tier IV Dual Fuel engines\, Gas Reciprocating\nGenerators which produce electricity to drive electric frac pumps\, and Gas\nReciprocating Engines that mechanically drive the hydraulic pump. The\nbaseline for comparison is established using Tier II Diesel engines. Each\ntechnology will be evaluated based on multiple criteria including emissions\,\ncost savings found in both fuel purchases and operating costs\, and overall\noperational considerations. Through a combination of Original Engine\nManufacturer (OEM) data and empirical data\, this paper provides valuable\ninsights into the efficacy and feasibility of transitioning to natural gas-\nburning equipment in the context of hydraulic fracturing operations. \n  \nBio: \n  \nMadison Hollaway is the Low Emissions And Sustainability Lead at Liberty\nEnergy. Madison has held a variety of positions throughout her career in the\noil and gas industry\, with experience spanning from engineering and project\nmanagement to research and development. Madison holds a Bachelor of\nEngineering in Petroleum Engineering from Texas A&M University. \n  \nRegister Here
URL:https://denverspe.org/event/5592/
LOCATION:Liberty Energy\, 950 17th St Suite #24\, Denver\, CO\, 80202\, United States
CATEGORIES:Study Groups,Technical
ATTACH;FMTTYPE=image/png:https://denverspe.org/wp-content/uploads/2025/10/SPE_TechProg_LinkedIn-27.png
ORGANIZER;CN="SPE Denver Section":MAILTO:denversection@spemail.org
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Denver:20250327T160000
DTEND;TZID=America/Denver:20250327T190000
DTSTAMP:20260517T042359
CREATED:20250304T132528Z
LAST-MODIFIED:20250325T142513Z
UID:5126-1743091200-1743102000@denverspe.org
SUMMARY:Technical Happy Hour- Completions
DESCRIPTION:Host: Society of Petroleum Engineers\, Denver Section \nEvent: March 2025 Technical Happy Hour \nTime: March 27th\, 4-6 (HH begins at 4\, Talk at 430\, Social until 6) \nLocation:  Liberty Energy\, 950 17th St\, Suite 2400\, Denver\, CO 80202 \nSponsor: Liberty \nStudy Group Category: Completion \nSpeaker: Robert Holman\, Geophysicist\, Ovintiv \nTitle: Fracture Growth Through Microseismic Quiescent Zones: Indication Of Stealth Or Complex Fracturing? \nAbstract: \nOften microseismicity levels tend to vary from one lithological unit to the next\, with some layers being predominantly quiet and lack any microseismicity. Since shear activated deformation associated with microseismicity will depend on the geomechanical properties and natural fabric of the formation\, the lack of microseisms in certain layers may or may not be indicative of a change in the hydraulic fracture geometry. In this work\, microseismic observations are integrated with strain and other observations to investigate the microseismic response in relation to the underlying hydraulic fracture geometry for different rock types. The combined conclusions allow identification of two distinct types of response for aseismic layers. The first type are ‘stealth’ homogeneous layers that behave aseismically with the lack of natural fabric to host shear activated microseisms from consistent fracture growth. The second type are interbedded shaly layers where the lack of microseismicity is associated with fracture complexity that results in compartmentalized portions of the hydraulic fracture which may not effectively drain the reservoir. Examples are described of these types from integrated monitoring of hydraulic fracture growth in Uinta Basin\, Utah and Midland Basin\, Texas. \nBio: \nRobert Holman has been a geophysicist at Ovintiv in Denver for two years. As a member of the reservoir characterization group\, he enhances the company’s understanding of the Permian Basin. In his role\, he integrates seismic data into operational processes and regional characterization\, as well as diagnostic interpretation\, to enhance understanding of subsurface features and optimize field performance.  Before joining Ovintiv\, he worked 10 years at Chesapeake Energy\, now known as Expand. While working there he gained experience through his role as a geophysicist in their Eagle Ford asset and technology team\, where he contributed to various projects aimed at improving operational efficiency and implementing technology. He earned his B.S at BYU-Idaho and M.S. at Oklahoma State University. \n  \nRegister Here
URL:https://denverspe.org/event/technical-happy-hour-completions/
LOCATION:Liberty Energy\, 950 17th St Suite #24\, Denver\, CO\, 80202\, United States
CATEGORIES:Study Groups,Technical
ATTACH;FMTTYPE=image/png:https://denverspe.org/wp-content/uploads/2025/03/SPE_TechProg_LinkedIn-14.png
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Denver:20240912T160000
DTEND;TZID=America/Denver:20240912T180000
DTSTAMP:20260517T042359
CREATED:20240828T041257Z
LAST-MODIFIED:20240920T042725Z
UID:3654-1726156800-1726164000@denverspe.org
SUMMARY:September 2024 - Business Development Panel Happy Hour
DESCRIPTION:  \nUnlocking Value: Navigating Non-Op Royalties and Minerals in the Oil & Gas Industry \nJoin us for an insightful event exploring the dynamic landscape of non-ops and mineral companies in 2024. Discover why these companies are poised for success\, what makes leading businesses stand out\, and gain expert commentary on the latest minerals and royalty transactions. We’ll delve into the merits of pureplay versus multi-basin strategies\, the challenges of managing non-op/mineral companies\, and how industry leaders mitigate risks. Learn about the evolving role of private equity\, changes in company strategies\, and the intricacies of making deals in today’s market. Our discussions will cover asset evaluation\, investment decision factors\, due diligence challenges\, and the importance of ESG in company portfolios. We’ll also explore joint venture success factors\, exit planning\, growth potential\, and the future of M&A activity. Don’t miss this opportunity to understand emerging trends and investor expectations in the non-op and mineral space.
URL:https://denverspe.org/event/september-2024-business-development-panel-happy-hour/
LOCATION:Ovintiv\, 40th floor\, 370 17th St\, Denver\, CO\, 80202\, United States
CATEGORIES:Study Groups,Technical
ATTACH;FMTTYPE=image/png:https://denverspe.org/wp-content/uploads/2024/08/SPE-Denver-BD_Non-op_-Royalties_Minerals-Panel_9.12.24-Add-Sponsor.png
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BEGIN:VEVENT
DTSTART;TZID=America/Denver:20240528T160000
DTEND;TZID=America/Denver:20240528T180000
DTSTAMP:20260517T042359
CREATED:20240430T015400Z
LAST-MODIFIED:20240503T134037Z
UID:2775-1716912000-1716919200@denverspe.org
SUMMARY:Technical Happy Hour: Jordan Jackson\, Designing for Efficiency
DESCRIPTION:Host: Society of Petroleum Engineers\, Denver Section \nEvent: May 2024 Technical Happy Hour \nTime: May 28th\, 4-6 (HH begins at 4\, Talk at 430\, Social until 6) \nLocation: Ovintiv 40th Floor\, 370 17th St\, Denver\, CO 80202 \nSponsor: Ovintiv \nStudy Group Category: Completion \nSpeaker: Jordan Jackson\, Completions Manager\, Ovintiv \nTitle: Designing for Efficiency \nAbstract:\n“Designing for Efficiency” reflects the approach of the Texas Operating Area completions teams drive to increase efficiency and maximize value.  The goal is to safely execute at the highest level to reduce cycle times\, cut costs\, all without jeopardizing well performance.  Understanding the hydraulics and designing for higher cluster efficiency are key for designing at higher total pump rates such as Simul and Trimul frac.  The use of these techniques along with the right sizing your casing design are critical elements in reducing wasted energy.  Frac smarter\, not harder. \nBio:\nJordan is the Completions Manager at Ovintiv for Texas Operating Area. He graduated in 2009 from Montana Tech with a degree in petroleum engineering. Jordan has been in the industry for 15 years working primarily Drilling & Completions for Encana/Ovintiv. He has worked a variety of assets from Haynesville\, Tuscaloosa Marine Shale (TMS)\, Eagle Ford\, and Permian Basin. \nRegistration Link: Click HERE
URL:https://denverspe.org/event/may-2024-technical-happy-hour/
LOCATION:Ovintiv\, 40th floor\, 370 17th St\, Denver\, CO\, 80202\, United States
CATEGORIES:Study Groups,Technical
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