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This Subsurface Tip of the Month introduces decline curve analysis and focuses on the modified Arps method for unconventional wells in detail, providing both equations and plots of forecasted production. [Keep reading]
This Subsurface Tip of the Month introduces decline curve analysis and focuses on the modified Arps method for unconventional wells in detail, providing both equations and plots of forecasted production. [Keep reading]
Learn how harnessing the Coriolis effect allows engineers to provide direct, in-line and accurate mass flow measurement of both liquids and gases. Walk through the basic theory of the Coriolis effect, the development of this revolutionary technology and the challenges of creating the perfect flow meter. [Keep reading]
In this Tip of the Month, we evaluate the accuracy of water content predicted by a process simulation software against limited measured experimental data. The tip studies the effect of pressure and temperature on the propane water content in equilibrium with liquid water, ice or hydrate phase. In addition, water content charts are presented for isobars of 14.7, 25, 50, 100, 150 and 200 psia (101.3, 172, 345, 699, 1034, 1379 kPa). For each isobar a temperature range of -60 °F to 200 °F (-51 °C to 104 °C) is covered. [Keep reading]
This Tip of the Month (TOTM) discusses design and operational considerations of surface facilities for unconventional light oil shales. [Keep reading]
We all hate delivering bad project news, but this Tip of the Month will give you some tips to better communicate negative information to stakeholders and decision makers. Learn about five different types of project issues, managing project relationships and best practices for delivering bad news. [Keep reading]
In this Facilities Tip of The Month (TOTM), you will investigate the effect of pressure and temperature on the MDEA vaporization loss from the contactor top, regenerator top and flash gas. Specifically, this study focuses on the variation of MDEA vaporization losses with the feed sour gas pressure in the range of 5.52 MPa to 8.28 MPa (800 psia to 1200 psia). [Keep reading]