Nov 18, 2014

ConocoPhillips Contracts CH2M HILL to Conduct Water Treatment Study

Study will provide cost-effective water treatment strategies and improve water discharge management for oil and gas industries

water treatment, study, ConocoPhillips, Petroleum Environment Research Forum

ConocoPhillips (COP), in collaboration with industry partners under the Petroleum Environment Research Forum (PERF), formulated a study out of its Water Centre in Doha, to identify and explore the application of new and more sustainable, cost-efficient water treatment technologies used in the production of oil and gas. CH2M HILL, who has been at the forefront of water treatment innovation for more than 50 years, is leading The Cost-Effective Reverse Osmosis Concentrate Treatment and Brine Management Study.  

Once completed in December 2014, the study will evaluate and compare applicable treatment technologies for making produced water available for beneficial reuse. Following detailed analysis, including life cycle cost estimation, CH2M HILL will provide a list of recommendations that industry can implement in the near term and over a longer time horizon to improve water discharge management.  

Water plays an integral role in the oil and gas industry, and as global oil production increases, volumes of produced water also increases. Presently, a gap exists in the industry to cost-effectively treat produced water for reuse. COP and its Partners developed this study as a way to identify and implement new technologies that will improve total water management within the industry.  

CH2M HILL gathered a fully integrated team with international and nationally acclaimed academic and private industry researchers, who have made significant contributions to the understanding and application of traditional and new technologies for RO concentrate and brine management in both public and industrial sectors, to complete the study.

The findings of the study will enable COP and Partners to progress the application of the most appropriate technologies to advance water treatment strategies in the oil and gas industry.

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