This paper analyzes access to water in Mexico in the context of the country’s energy reform, including social conflicts that may arise from opposing environmental and energy priorities.
Alejandro Posadas, Regina M. BuonoDecember 13, 2016
The cumulative impacts of U.S. liquefied natural gas exports is the subject of a new Department of Energy-sponsored study co-authored by Ken Medlock, senior director of the Center for Energy Studies. The study is one of two commissioned by the DOE "to inform [the department's] decisions on applications seeking authorization to export LNG from the lower-48 states to non-free trade agreement countries."
This paper reports the key climate change and public policy issues addressed by guest speakers during the 2014-15 Climate Lecture Series hosted by the Center for Energy Studies.
Regina M. Buono, Kenneth B. Medlock III, Anna B. MikulskaSeptember 29, 2015
Using a public health approach to study drug-related murders on the U.S.-Mexico border, the authors conclude the region is experiencing a "violence epidemic."
This study examines the effects of lifting the 40-year-old U.S. crude export ban on crude pricing, energy security and energy sector investment. It includes a statistical analysis that explains what the relationship would be between the prices of crudes of different qualities in an unconstrained setting, which, according to author Ken Medlock, is important to providing a more accurate assessment of the impact of current U.S. policy.
This paper investigates how new potential and proposed regulations will influence the natural gas market in the United States in the coming decades, using the Rice World Gas Trade Model (RWGTM) to examine scenarios in which domestic natural gas development is stressed in a variety of ways. It considers a range of possible policy actions from the federal to the local level.
This paper explores some of the issues that confront the full realization of the benefits of energy resource development in the United States, Canada, and Mexico, collectively.
A comprehensive study of the reserve and production potential of the Barnett Shale integrates engineering, geology, and economics into a numerical model that allows for scenario testing based on several technical and economic parameters.
Part 1 summarizes the geologic characterization, per-well decline analysis, and productivity tiering required to feed into the detailed modeling of future reserve and production forecasts.
The conclusion (Part 2) examines full field economics and production and reserve forecasts.