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Yi Yang,Hong Wang,Ming Zhang,Mengxue Shi,Cailing Yang,Qiang Ni,Qi Wang,Jing Li,Xuemei Wang,Chen Zhang,Zhi Li 고려인삼학회 2022 Journal of Ginseng Research Vol.46 No.4
Background: In physical activity or labor, the human body is in a state of high intensity stress, and allparts or physiological functions of the body respond positively to maintain or balance the need formovement. The human body has many physiological changes in the process of movement, and fatigue isthe external manifestation of various complex changes inside the human body. Fatigue is also a physiologicalmechanism of self-protection after the body reaches a certain level of activity, which can preventthe occurrence of life-threatening excessive functional failure. The generation of fatigue is a very complexprocess, and its mechanism has not been concluded yet. Therefore, it is an important work to search andscreen the effective components of natural plants that have anti-fatigue effect and to explore theirmechanism. Methods: This was a 8-week, randomized, double-blind, placebo-controlled clinical trial. A total of 110subjects who passed physical examination were included according to the scheme design, and randomlydivided into a test group which was given KRG and a placebo control group. The calculation is carried outaccording to the standard of sub-high-intensity exercise test. Results: There was no adverse effect on safety index of subjects after taking red ginseng capsule. AfterKRG treatment, subjective strength grade is significant lower than placebo treatment. Blood lactic acidcontent is significantly get lower after trial in KRG group, and significant lower than placebo group. Creatine phosphokinase(CK) content is significantly get lower after trial in KRG group, and significantlower than placebo group. Conclusion: According to the criterion in the test scheme, the result shows that KRG is helpful onrelieving physical fatigue.
Cailing Huo,Yiming Yang,Fuyin Ni,Qiang Xie 한국전자파학회 2024 Journal of Electromagnetic Engineering and Science Vol.24 No.3
This paper proposes a residual flux detection method based on the different polarities of response currents. When a positive–negative al- ternating DC voltage is loaded, the direction of the residual flux can be determined by the difference between the various polarities of the response current waveforms. As a result, residual flux value can be calculated using the empirical formula that relates residual flux to the responce current. In this formula, unknown parameters can be obtained using the field-circuit coupling method. Finally, this paper em- ploys a closed iron core as an example to obtain the corresponding formula and then verifies its accuracy through experiments. The results show that the accuracy of the proposed method is less than 5%, which is higher than that of other existing methods. The method present- ed in this paper not only accurately detects the residual flux of a transformer but also requires no additional energy from the transformer.