Borehole Nuclear Magnetic Resonance Study at the China University of Petroleum

[Display omitted] •Reviewing the development of borehole nuclear magnetic resonance at China University of Petroleum.•Progress of the downhole three dimensional NMR instruments for imaging data collection.•Advancement of methodologies for data processing, inversion and visualization.•Progress of NMR...

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Bibliographic Details
Published in:Journal of magnetic resonance (1997) 2021-03, Vol.324, p.106914-106914, Article 106914
Main Authors: Liao, Guangzhi, Luo, Sihui, Xiao, Lizhi
Format: Article
Language:English
Subjects:
Borehole
Fluids Identification and Formation Evaluation
Nuclear Magnetic Resonance
Rock Physics and Chemistry
Spectrometer
Spectroscopy
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Summary:[Display omitted] •Reviewing the development of borehole nuclear magnetic resonance at China University of Petroleum.•Progress of the downhole three dimensional NMR instruments for imaging data collection.•Advancement of methodologies for data processing, inversion and visualization.•Progress of NMR petrophysical models and fluids identification for NMR interpretation and applications. The research of borehole nuclear magnetic resonance (NMR) began in the 1950 s, but the maturity and large-scale applications of relevant instruments started in the mid-1990. To date, borehole NMR is an important means for borehole in-situ analysis and oil and gas evaluation, which significantly improves the success rate of exploration and the evaluation accuracy of oil and gas reservoirs. Its development has also contributed importantly to low-field and industrial NMR theories and experimental methodologies. Companies and individuals in the United States, China and other countries have developed the capabilities to engineer and deploy borehole NMR instruments and measurements independently. NMR imaging and evaluation of heterogeneous reservoirs and unconventional oil and gas are worldwide problems, involving the innovation of borehole NMR and the advanced manufacture of instruments and equipment. The commercial technology of borehole oil and gas exploration is highly competitive and proprietary. It is difficult to gain full insight into the details of the technologies and development from published literatures. Based on the research of the author's NMR laboratory at the China University of Petroleum (CUP), this paper reviews the core technologies of borehole NMR and its applications, discusses selected important issues that have not been fully solved, and looks forward to the direction and prospects of future development.
ISSN:1090-7807
1096-0856
DOI:10.1016/j.jmr.2021.106914