The study is concerned with the airborne magnetic and gravity data aiming at evaluating the terminal of mineral system.Nihe iron deposit,situated in the center of Luzong ore cluster area,is the case to our study.Diffe...The study is concerned with the airborne magnetic and gravity data aiming at evaluating the terminal of mineral system.Nihe iron deposit,situated in the center of Luzong ore cluster area,is the case to our study.Different tectonic environments,source material,and preservation background illustrate distinct properties in the geophysical observation results.展开更多
In this paper, I introduce what are called weak gravity and magnetic anomalies and propose standards for estimating their reliability. I also introduce new techniques for processing this kind of weak anomaly. These te...In this paper, I introduce what are called weak gravity and magnetic anomalies and propose standards for estimating their reliability. I also introduce new techniques for processing this kind of weak anomaly. These techniques consist of interference elimination and weak signal extraction. Practical applications have proved their effectiveness, Weak gravity and magnetic anomalies will get more attention with the development of targeted exploration.展开更多
Three-dimensional(3 D)gravitational and magnetic exploration is performed using aerial measurement tools,however,this has difficulties with measuring-height design and the construction of a joint-interpretation scheme...Three-dimensional(3 D)gravitational and magnetic exploration is performed using aerial measurement tools,however,this has difficulties with measuring-height design and the construction of a joint-interpretation scheme.At present,the height in such experiments is set according to the measurement scale,and the distribution characteristics of anomalies are not fully considered.Here,we present the idea of using the attenuation characteristics of a singular-value spectrum to evaluate the contributions of various measurement heights and multi-height combinations for inversion to correctly and reasonably design appropriate measuring heights and the number of various measurement heights to be set.The jointgradient Euler-deconvolution method can accurately obtain the distribution of geological bodies from 3 D gravitational and magnetic data at an improved resolution,and experimental tests confirm these findings.Therefore,an actual 3 D aeromagnetic-data-acquisition and inversion test were carried out in the vicinity of the Zhurihe Iron Mine in Inner Mongolia.The fl ight-height diff erence was set to 60 m,and the specifi c distribution of lodes was obtained by the joint-gradient Euler-deconvolution method.This provides a reliable basis for future detailed exploration and proves that the methods presented in this paper have good practicalapplication eff ects and prospects.展开更多
基金granted by National Natural Science Foundation of China(Grant No.92062108)the Basic Scientific Research Funds of the Key Laboratory of Airborne Geophysics and Remote Sensing Geology,Ministry of Natural Resources(Grant No.2020YFL14)the China Geological Survey Project(Grant No.DD20190012)
文摘The study is concerned with the airborne magnetic and gravity data aiming at evaluating the terminal of mineral system.Nihe iron deposit,situated in the center of Luzong ore cluster area,is the case to our study.Different tectonic environments,source material,and preservation background illustrate distinct properties in the geophysical observation results.
基金The subject is sponsored by the National 863Project Fund (Project No.2006AA06Z201)
文摘In this paper, I introduce what are called weak gravity and magnetic anomalies and propose standards for estimating their reliability. I also introduce new techniques for processing this kind of weak anomaly. These techniques consist of interference elimination and weak signal extraction. Practical applications have proved their effectiveness, Weak gravity and magnetic anomalies will get more attention with the development of targeted exploration.
基金supported by the National Key Research and Development Program of China (Nos. 2017YFC0602203,2017YFC0601606,2017YFC0601305 and 2017YFC0602000)National Science and Technology Major Project task (No.2016ZX05027-002-003)+1 种基金National Natural Science Foundation of China (No. 41604098)State Key Program of National Natural Science of China (No. 41430322)。
文摘Three-dimensional(3 D)gravitational and magnetic exploration is performed using aerial measurement tools,however,this has difficulties with measuring-height design and the construction of a joint-interpretation scheme.At present,the height in such experiments is set according to the measurement scale,and the distribution characteristics of anomalies are not fully considered.Here,we present the idea of using the attenuation characteristics of a singular-value spectrum to evaluate the contributions of various measurement heights and multi-height combinations for inversion to correctly and reasonably design appropriate measuring heights and the number of various measurement heights to be set.The jointgradient Euler-deconvolution method can accurately obtain the distribution of geological bodies from 3 D gravitational and magnetic data at an improved resolution,and experimental tests confirm these findings.Therefore,an actual 3 D aeromagnetic-data-acquisition and inversion test were carried out in the vicinity of the Zhurihe Iron Mine in Inner Mongolia.The fl ight-height diff erence was set to 60 m,and the specifi c distribution of lodes was obtained by the joint-gradient Euler-deconvolution method.This provides a reliable basis for future detailed exploration and proves that the methods presented in this paper have good practicalapplication eff ects and prospects.
