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Colorado’s hydrocarbon industry was built on the foundation of early explorers and field geologists venturing through rough and often dangerous terrain, surveying and mapping in a young nation at a time when geology was in its technological infancy. Without even the aid of a Brunton compass (patented 1894) early geologists, such as Ferdinand Hayden and John Powell, created the beginnings of Colorado’s geological knowledge through exceptional skill and work, upon which we continue to build today.
In a world with discussions about Peak Oil and transition away from hydrocarbons, the Caribbean remains a bright spot for traditional oil and gas exploration. From Trinidad and Tobago’s 100-year hydrocarbon industry in the north to massive discoveries in the Guyana Suriname Basin in Northern South America, there’s good reason why companies around the world are focused on the region. Developing and maintaining the local workforce is key to continued exploration and development, and AAPG’s Latin American and Caribbean Region is committed to aiding countries in making that possible.
We joined the Houston Geological Society shortly after arriving in Houston as new-hire geologists in 1984. We met thousands of fellow geoscientists by attending, and organizing, hundreds of technical talks for 39 years. We learned about exciting discoveries, plays and technology from those who made them happen. Along the way, we became friends with a few legends. We are grateful for the deep friendships that arose while serving as HGS volunteers. With a grateful heart, we are happy to share our committee’s plans to celebrate the centennial year.
Working in arduous desert conditions and leading a team of explorers in the 1930s and ‘40s from the company that would come to be Aramco, Max Steineke put Saudi Arabia on the world petroleum map. A definitive, book-length biography of Steineke is yet to be written, but what follows outlines his career and contributions to petroleum geology and exploration during a period and in places far from the comforts, facilities and technologies enjoyed today. And yet, his exploration output from a single basin remains unparalleled, and his story offers valuable insights.
People often associate Utah with spectacular canyons cut into the Colorado Plateau, the state’s five national parks, incredible skiing in the beautiful mountains, the opportunity to wade around in the briny water of Great Salt Lake or hearing the Mormon Tabernacle Choir sing the “Hallelujah Chorus.” Visitors to the state, as well as most of its citizens, don’t think of Utah as a major producer of oil and gas. However, Utah has consistently ranked among the highest oil and gas producers in the United States.
With the price of oil hovering well over $100 a barrel, some in the industry are exploring ways to revisit conventional oilfields using technology that emerged during the unconventional oil boom, with a goal of earning a rapid return on investment while prices remain favorable.
Many geologists have earned their field trip stripes in the Guadalupe Mountains in West Texas, but fewer have heard – and braved the dangers – of hiking the mysterious and mineral-rich Franklin Mountains north of El Paso. The Franklin Mountain region is a west-tilting series of horst blocks that became 5,000-7,200-foot tall mountains as a result of the Laramide orogeny. The sheer eastern escarpment exposes rocks dating from the Pennsylvanian down to 1.25-billion-year-old basement granite. It was a “field trip through time” focused on the Cambrian, Ordovician, Silurian and Devonian formations, representing more than 100 million years of geologic history.
The small town of Cunningham, Kansas lies about 65 miles straight west of Wichita on U.S. Highway 54. It was incorporated in 1887 as a commercial center for farmers and ranchers in that part of south-central Kansas. Hard winter wheat was the main cash crop, while herds of beef and dairy cattle were a close second source of income. This activity characterized the culture of Cunningham into the early years of the 20th century. That is, until a new industry was introduced to Kansas when, in 1915, oil was discovered in the El Dorado field northeast of Wichita.
In February, TotalEnergies announced a significant light oil discovery in the Orange Basin, offshore Namibia. Reuters reported a source suggesting that the Venus-X1 well may have found more than 1 billion barrels of oil equivalent. This was the second significant discovery announced in the basin that month. The offshore continues to deliver new oil and natural gas discoveries worldwide. And as this issue hits your inbox, the offshore is the primary topic of discussion in Houston as the 2022 Offshore Technology Conference returns to NRG Park from May 2-5.
There are two main oil and gas producing sedimentary areas in France: the Paris Basin and the Aquitaine Basin. The presence of oil seeps and bitumen deposits has been known since ancient times in the western part of the Aquitaine basin, a 35,000-square-kilometer triangular polygon bordered to the north by the city of Bordeaux, to the east by Toulouse and to the south by the Pyrenees Mountain chain separating France from Spain. These hydrocarbon shows were observed close to surface anticlinal structures such as the Sainte-Suzanne dome, southwest of Pau or in the caprocks of salt diapirs at Salies de Bearn and Dax to the north.
Visiting Geoscientist Juan Pablo Lovecchio reviews general aspects of rifting, rifts and passive margin formation and evolution through time, as well as elements of petroleum system development.
La Formación Smackover del Jurásico Superior (Oxfordiano) es una de las productoras de petróleo y gas más prolíficas de la llanura costera del noreste del Golfo de México, depositada en una rampa de carbonato proximal. Este estudio es una caracterización integral del ambiente de depositación de la Formación Smackover basada en datos sísmicos 3D y de pozos en los campos Vocation y Appleton situados en las subcuencas de Conecuh y Manila, en el suroeste de Alabama.
The Upper Jurassic (Oxfordian) Smackover Formation is one of the most prolific oil and gas producers in the northeastern Gulf of Mexico coastal plain, where it deposited in a proximal carbonate ramp. This study is a comprehensive characterization of the depositional environment of the Smackover based on 3D seismic and well data from wells in the Vocation and Appleton oil fields located in the Conecuh and Manila Sub-basins in southwest Alabama.
A detailed biostratigraphic analysis and stratigraphic framework of the Paleocene and Eocene Chicontepec Formation in the Tampico-Misantla basin, onshore eastern Mexico, was conducted using 33 wells.
Visiting Geoscientist Susan Morrice shares her personal experience and insight in this talk about opportunities for geoscientists. “Geoscientists have advantages ... They are Time Travellers and have open minds. Bringing this creativity and innovation to your company or starting your own! Challenging times bring silver linings!”
This work investigates how heterogeneity can be defined and how we can quantify this term by describing a range of statistical heterogeneity (e.g. coefficient of variation and the Lorenz coefficient).
This e-symposium will be introducing signal processing techniques as a means to maximize extracting geomechanical data from petrophysical logs.
This e-symposium is ideal for geologists, geophysicists, engineers and other geoscientists who are involved in gas shale exploration and production.
Unger Field, discovered in1955, has produced 8.6 million barrels of oil from a thinly (several ft) bedded, locally cherty dolomite containing vuggy and intercrystalline porosity.
The course will review core data, petrophysical comparisons, rock physics modeling (including pseudo logs and mechanical properties).
Engineering of wind farms, development of carbon sequestration projects in shelfal waters, the proliferation of communication cables that connect the world, all of these things suggest that it is time to re-examine what we know about shelf processes both updip-to-downdip and along shoreline, and the influence of shelf processes on erosion and transport of sediments.
Request a visit from Lesli Wood!
The carbonate sequences that were deposited in the now exhumed Tethyan Ocean influence many aspects of our lives today, either by supplying the energy that warms our homes and the fuel that powers our cars or providing the stunning landscapes for both winter and summer vacations. They also represent some of the most intensely studied rock formations in the world and have provided geoscientists with a fascinating insight into the turbulent nature of 250 Million years of Earth’s history. By combining studies from the full range of geoscience disciplines this presentation will trace the development of these carbonate sequences from their initial formation on the margins of large ancient continental masses to their present day locations in and around the Greater Mediterranean and Near East region. The first order control on growth patterns and carbonate platform development by the regional plate-tectonic setting, underlying basin architecture and fluctuations in sea level will be illustrated. The organisms that contribute to sequence development will be revealed to be treasure troves of forensic information. Finally, these rock sequences will be shown to contain all the ingredients necessary to form and retain hydrocarbons and the manner in which major post-depositional tectonic events led to the formation of some of the largest hydrocarbon accumulations in the world will be demonstrated.
Request a visit from Keith Gerdes!