AGENDA: Best Management Practices (BMPs): What? How? And Why?

The Environmentally Friendly Drilling Systems (EFD) Program, managed by the Houston Advanced Research Center, works to identify, develop and transfer critical, cost effective, new technologies that can provide policy makers and industry with the ability to develop natural gas reserves in a safe and environmentally friendly manner. Funding for the EFD Program is through a grant from the Research Partnership to Secure Energy for America, established under the 2005 Energy Act. Within the EFD Program, some projects focus on technologies for developing energy sources in environmentally sensitive areas; others (like the NRLC’s BMP Project) seek ways to reduce the environmental footprint in all types of environments. The EFD Program currently provides the majority of funding for the Intermountain Oil and Gas BMP project. The EFD Program holds quarterly workshops to share ideas among the program partners, sponsors, and with the broader community. The NRLC hosted the EFD\u27s quarterly meeting in a workshop on May 26, 2011 at the Wolf Law Building on the University of Colorado campus. With presentations from EFD project researchers and perspectives invited from all participants, the May, 2011 EFD workshop explored the value of different methods for incorporating BMPs into a development as well as the benefits and cost of implementing BMPs. See the NRLC\u27s Intermountain Oil and Gas BMP Project for more information on BMPs and how they can be implemented in oil and gas development

AGENDA: Best Management Practices (BMPs): What? How? And Why?

The Environmentally Friendly Drilling Systems (EFD) Program, managed by the Houston Advanced Research Center, works to identify, develop and transfer critical, cost effective, new technologies that can provide policy makers and industry with the ability to develop natural gas reserves in a safe and environmentally friendly manner. Funding for the EFD Program is through a grant from the Research Partnership to Secure Energy for America, established under the 2005 Energy Act. Within the EFD Program, some projects focus on technologies for developing energy sources in environmentally sensitive areas; others (like the NRLC’s BMP Project) seek ways to reduce the environmental footprint in all types of environments. The EFD Program currently provides the majority of funding for the Intermountain Oil and Gas BMP project. The EFD Program holds quarterly workshops to share ideas among the program partners, sponsors, and with the broader community. The NRLC hosted the EFD\u27s quarterly meeting in a workshop on May 26, 2011 at the Wolf Law Building on the University of Colorado campus. With presentations from EFD project researchers and perspectives invited from all participants, the May, 2011 EFD workshop explored the value of different methods for incorporating BMPs into a development as well as the benefits and cost of implementing BMPs. See the NRLC\u27s Intermountain Oil and Gas BMP Project for more information on BMPs and how they can be implemented in oil and gas development

An Analysis of Likely Scalants in the Treatment of Produced Water From Nova Scotia

A significant barrier to further use of hydraulic fracturing to recover shale oil and/or gas is the treatment and/or disposal of hypersaline produced water. This work is an analysis of produced water from Nova Scotia, with the aim of understanding how scale impacts the choice of desalination system used in its treatment. Four water samples are presented, and for a representative case, the supersaturation of some likely scalants is estimated as a function of temperature, recovery ratio, and pH. This supersaturation map is then compared to conditions representative of common desalination systems, allowing the identification of limitations imposed by the water's composition. In contrast to many natural waters, it is found that sodium chloride is the most likely first solid to form at high recovery ratios, and that the top temperature of thermal desalination systems is unlikely to be scale-limited in the treatment of these waters.Center for Clean Water and Clean Energy at MIT and KFUPM (Project R4-CW-08