TITLE:
Found Different Attitude Fracture Characteristics of the NMR Curve by Application of 3D Printing Samples
AUTHORS:
Minggao Luo, Baoxin Chen, Maoshu Luo, Fenglai Yang, Nancy Song, Binghui Song
KEYWORDS:
3D Printing Technology, Nuclear Magnetic Resonance (NMR), T2 Curve, Fracture Porosity
JOURNAL NAME:
Journal of Geoscience and Environment Protection,
Vol.5 No.7,
July
28,
2017
ABSTRACT:
Nuclear magnetic resonance (NMR) has many advantages, such as little testing time, no harm to rock specimen, and is widely used in the measurement of reservoir pore structure. 3D printing also has many advantages, such as repeating the printing the same attributes samples, forming sample by known rock pore structure, adding different pores or fractures to sample. For the study of fractured reservoir provides a new train of thought by combining NMR and 3D printing. Nuclear magnetic core analysis is an important work in the study of core, using a T2 spectrum at a certain echo time can also be found in the core fractures. The study, by CT scans to establish reservoir pore structure, based on the basic of adding different attitude fracture forming four fracture characteristics of rock sample, using 3D printing for solid sample, through the analysis of the nuclear magnetic resonance (NMR) of these sample, get the response characteristics of fracture characteristics on the T2 curve, the quantitative calculation of fracture porosity of rock sample, the result accord with to establish the model of fracture porosity is very good. For the study of fractured oil and gas reservoir development the new field.