Evaluating First Eagle Ford Shale Gas Well—Case History from Northern Mexico

Araujo, Oscar; Lopez-Bonetti, E.; Sierra, Jose R.

doi:10.2118/163074-ms

Cited by 6 publications

(1 citation statement)

References 11 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Compared to other methods for the diagnosis of reservoir properties, DFITs are particularly economical and effective, especially in ultralow permeability formations (K Ͻ0.1 md). A previous analysis was performed in a shale reservoir in Mexico through a minifrac injection test pumped in the Eagle Ford extension of the Burgos basin during 2011 (Araujo et al 2012). These results provided valuable information for establishing the final design of the multistage fracturing operation.…”

Section: Reservoir Informationmentioning

confidence: 99%

Successful Extended Injection Test for Obtaining Reservoir Data in a Gas-Oil Shale Formation in Mexico

Araujo

Lopez-Bonetti

Garza

et al. 2014

SPE Latin America and Caribbean Petroleum Engineering Conference

View full text Add to dashboard Cite

This paper presents the results from a diagnostic fracture extended injection test performed in a well completed in the first oil shale reservoir confirmed in Mexico, which is situated in the Upper Jurassic in the Burgos basin in the northern part of the country.The test was executed in an exploratory horizontal well during the first stage, perforated with abrasive hydra-jetting, and reservoir properties had been previously set with the correlation information logs. Usually performed before treatment(s), the primary objective of a diagnostic fracture injection test (DFIT) is to estimate parameters that provide fracture information critical both to designing the fracturing treatment and the characterization of the formation, as well as to obtain more reliable information for production engineering. Compared to other methods for the diagnostic of reservoir properties, the economic value that DFIT can provide is particularly effective in formations with ultralow permeability (K Ͻ0.1 md). These injection-falloff tests, which include small volumes of fluid pumped into the formation and use few resources to obtain data, proved to be an essential tool to understand some reservoir characteristics which can provide the information necessary for an optimal fracture design and warn of issues that might be experienced during the stimulation execution.This paper evaluates all aspects related to the pressure falloff and how important values, such as permeability and reservoir pressure, were obtained using analysis in real time from the wellsite.

show abstract

Section: Reservoir Informationmentioning

confidence: 99%