Unconventional/complex reservoirs
The events will be co-located 3–5 May 2027 at Reliant Park in Houston, Texas.
This paper presents a novel approach to predict reservoir porosity by conditioning seismic data, calibrating seismic impedance inversion, and tailoring rock-physics analysis.
This paper aims to assess the effectiveness of using advanced integrated production-data-analysis techniques for condensate-rich tight gas fields.
-
SponsoredQuickly identifing the right strategies for a well or pad can overcome operational challenges. These cost-effective and easy-to-use solutions help operators achieve improved production rates with less manpower.
-
The US onshore business is looking flat at the moment, though these sorts of predictions are prone to sudden shifts.
-
Dos Caminos joint venture additions will be capable of delivering 2.0 Bcf/D of natural gas.
-
Private-equity producer adds over 160,000 acres in Wyoming’s Powder River Basin oil play.
-
As the demand for energy continues to increase, so does the sociopolitical demand that these resources be produced in a sustainable way. This reflective thought has defined this month’s selection of technical papers, each speaking to a different facet of this feature’s theme: unconventional reservoir development for a sustainable energy transition.
-
This paper describes natural fractures and their effect on hydrocarbon productivity in the Vaca Muerta shale formation.
-
The authors of this paper describe a solution using machine-learning techniques to predict sandstone distribution and, to some extent, automate the process of optimizing well placement.
-
This study catalogs global gas/oil ratio data to identify currently produced light crude oils that could be rendered carbon neutral through the direct-air-capture mechanism.
-
A decade ago, SPE defined key R&D and technology challenges for the industry. To address the more uncertain environment of the 2020s and beyond, we have updated the grand challenges via a January 2023 SPE workshop.
-
The objective of this study was to establish an efficient optimization work flow to improve vertical and areal sweep in a sour-gas injection operation, thereby maximizing recovery under operation constraints.