: Using Downhole Fiber Optic Temperature Sensing Technology to Monitor, Control and Improve Well Performance
AbstractDownhole sensing technology today provide engineers continuous measurements for flow condition diagnosis. The measurements include temperature, pressure, acoustic, and strain, with distributed temperature sensors (DTS) and distributed acoustic sensors (DAS) being more commonly used compared with other measurements. Since the optical fiber technology introduced to the industry, it has advanced dramatically. Many field applications have been proven effective and beneficial. From downhole flow condition characterization, we can diagnose flow problems, monitor, control, and optimize producing and injecting well performance, monitor well stimulation, both matrix acidizing and hydraulic fracturing, and optimize treatment designs. There are rich field application examples to show the potential of the technology. One of the keys of applying downhole sensing technology is to develop models and methodologies to interpret the measurements. This is challenging, because from data collection and to model development, to invert the measured parameters to flow profiles, it is extremely mathematical and computationally intensive. In this lecture, we will review status of downhole sensing technology, explain the available models and approaches for interpretation, and present field application examples including production profiling, horizontal flow control, matrix acidizing optimization multi-stage hydraulic fracture diagnosis. The lecture is based on publications by the author and other SPE publications. The lecture illustrates the power of DTS as a tool for production problem diagnosis and well performance optimization
Speaker's Bio
is a Professor at Engineering Department at Texas A&M University. She Holds a BS degree in mechanical engineering from the University of Science and Technology, Beijing, China, and degree in Petroleum Engineering, both from the University of Texas at Austin. Her research areas are production engineering, well stimulation, intelligent modeling complex well-performance optimization. Dr. Zhu is an author of more than 150 technical papers, a co-author of , Petroleum Production Systems (2nd edition), and a co-author of book, Multilateral Wells. She has been a committee member and chairperson for many conferences and events with Society of Petroleum and is currently an associate editor for SPE Production and Operation Journal. She is a Distinguished Member of SPE.