Your search keyword '"Longlong Ji"' showing total 10 results

1. Study on the drop impact characteristics and impact damage mechanism of sweet potato tubers during harvest.

Author

Guocheng Bao, Gongpu Wang, Bing Wang, Lianglong Hu, Xiaowei Xu, Haiyang Shen, and Longlong Ji

Subjects

Medicine, Science

Abstract

Collision of falling in the mechanical harvesting process of sweet potato is one of the main causes of epidermal destruction and damage to sweet potato tubers. Therefore, a sweet potato mechanical characteristic test and a full-factor sweet potato drop test were designed. Based on the analysis of the fitting mathematical model, the impact of the drop height, collision material and sweet potato chunk size on the damage of the sweet potato were studied. The mathematical models were established by fitting analysis of the IBM SPSS Statistics 22 software between the drop height and the sweet potato chunk size with each test index (impact force, impact stress, broken skin area and damaged area). The critical epidermal destruction height and the critical damage height of a certain size of sweet potato when it collides with a collision material can be calculated by the mathematical model, and the critical epidermal destruction mass and critical damage mass of sweet potato when it falls from a certain height and collides with a collision material can also be calculated. Then a series of critical values (including critical epidermal destruction force value, critical epidermal destruction impact stress, critical damage force value, critical damage impact stress) of mechanical properties of sweet potato were obtained. The results show that the impact deformation of sweet potato includes both elastic and plastic ones, and has similar stress relaxation characteristics. The critical damage impact stress of sweet potato is that the average value of the impact stress on the contact surface is less than it's Firmness. The results provided a theoretical basis for understanding the collision damage mechanism of sweet potato and how to reduce the damage during harvest.

Published

2021

2. Gradient Cleaning Method of Potato Based on Multi-Step Operation of Dry-Cleaning and Wet Cleaning

Author

Hongguang Yang, Jianchun Yan, Hai Wei, Huichang Wu, Shenying Wang, Longlong Ji, Xiaowei Xu, and Huanxiong Xie

Subjects

potato, dry-cleaning, wet cleaning, gradient cleaning method, ultrasonic, bubble, Agriculture (General), S1-972

Abstract

In view of the poor effectiveness of existing potato cleaning methods in China and reflecting the findings of a research analysis of basic sizes and types of impurities on potato tubers, a gradient cleaning method for potato based on a multi-step dry-cleaning and wet cleaning operation was proposed. The method mainly consists of dry-cleaning and wet cleaning. The dry-cleaning stage, which combines vibration and brushing, could effectively remove impurities such as residual rhizomes, peeled potato skin, and large pieces of soil and crushed stone from the surface of potato tubers. The wet cleaning stage adopts the gradient cleaning method of pre-cleaning, rough cleaning and fine cleaning, which could further remove soil and crushed stone attached to the surface and hidden in the sprout eyes of potato tubers. The optimal parameter combination for the gradient cleaning method was determined as follows. The potato feeding amount was 3 t/h, the speed of the rubber chain rod mechanism was 25 r/min, the speed of the first and third brush roller was 40 r/min, the speed of the second and fourth brush roller was 56 r/min, the moving speed of the immersion mechanism conveying net chain was 0.04 m/s, the speed of the brush roller in the high pressure spray and brush roller combination mechanism was 40 r/min, the ultrasonic power was 1200 W, the ultrasonic frequency was 33 kHz, the bubble intensity was 300 L/min, and the moving speed of the conveying net chain in the ultrasonic and bubble combination mechanism was 0.05 m/s. Taking the impurity removal rate and damage rate of potato tuber as the test indexes, a potato cleaning performance test was carried out under the optimal parameters combination. The results showed that the average impurity removal rate and damage rate of potato tubers were 99.05% and 2.48%, respectively. Additionally, the operational performance fully met the requirements for potato cleaning. This study provides a new method for potato cleaning in China and can also provide a reference for cleaning other root and tuber crops.

Published

2021

3. DEVELOPMENT AND TESTING OF SOIL IMPURITIES REMOVING APPARATUS FOR POTATO

Author

Hongguang Yang, Huanxiong Xie, Hai Wei, Jianchun Yan, Huichang Wu, Longlong Ji, and Xiaowei Xu

Subjects

Mechanical Engineering, Industrial and Manufacturing Engineering, Food Science

Abstract

Aiming at the problem that contain more soil impurities of potato post-harvest, which affects subsequent deep processing, an apparatus for removing soil impurities from potato was developed. The whole structure is mainly composed of frame, feeding port, flexible rubber finger conveying mechanism, slender filament rotary brushing mechanism, discharging port and the like. The research and analysis determined that the main parameters influencing the soil impurities removal performance were the movement speed of conveying mechanism, the movement speed of brushing mechanism and the clearance between conveying mechanism and brushing mechanism (hereinafter referred to as the mechanism clearance). Taking the main influencing parameters as test factors, and the soil impurities removal rate and potato damage rate as indexes, the orthogonal test with three factors and three levels was carried out. The optimal parameter combination was obtained as follows: the movement speed of conveying mechanism was 0.35m/s, the movement speed of brushing mechanism was 0.40m/s, and the mechanism clearance was 55mm. At this time, the average soil impurities removal rate was 87.18%, and the potato average damage rate was 1.95%, which met the requirements of potato cleaning operation.

Published

2021

4. Study on the drop impact characteristics and impact damage mechanism of sweet potato tubers during harvest

Author

Wang Gongpu, Xiaowei Xu, Shen Haiyang, Guocheng Bao, Longlong Ji, Bing Wang, and Lianglong Hu

Subjects

Compressive Strength, Broken skin, Polymers, Plant Science, Vegetable Crops, Mathematical and Statistical Techniques, Vegetables, Stress relaxation, Ipomoea batatas, Materials, Flowering Plants, Mathematics, Multidisciplinary, Physics, Plant Anatomy, Eukaryota, Classical Mechanics, Agriculture, Plants, Deformation, Crop Production, Curve Fitting, Chemistry, Plant Tubers, Horticulture, Macromolecules, Elastomers, Physical Sciences, Mechanical Stress, Medicine, Impact, Potato, Research Article, Science, Materials Science, Crops, Vegetable crops, Solanum, Research and Analysis Methods, Impact stress, Damage Mechanics, Tubers, Organisms, Biology and Life Sciences, Polymer Chemistry, Drop impact, Sweet Potato, Rubber, Stress, Mechanical, Mathematical Functions, Crop Science

Abstract

Collision of falling in the mechanical harvesting process of sweet potato is one of the main causes of epidermal destruction and damage to sweet potato tubers. Therefore, a sweet potato mechanical characteristic test and a full-factor sweet potato drop test were designed. Based on the analysis of the fitting mathematical model, the impact of the drop height, collision material and sweet potato chunk size on the damage of the sweet potato were studied. The mathematical models were established by fitting analysis of the IBM SPSS Statistics 22 software between the drop height and the sweet potato chunk size with each test index (impact force, impact stress, broken skin area and damaged area). The critical epidermal destruction height and the critical damage height of a certain size of sweet potato when it collides with a collision material can be calculated by the mathematical model, and the critical epidermal destruction mass and critical damage mass of sweet potato when it falls from a certain height and collides with a collision material can also be calculated. Then a series of critical values (including critical epidermal destruction force value, critical epidermal destruction impact stress, critical damage force value, critical damage impact stress) of mechanical properties of sweet potato were obtained. The results show that the impact deformation of sweet potato includes both elastic and plastic ones, and has similar stress relaxation characteristics. The critical damage impact stress of sweet potato is that the average value of the impact stress on the contact surface is less than it’s Firmness. The results provided a theoretical basis for understanding the collision damage mechanism of sweet potato and how to reduce the damage during harvest.

Published

2021

5. Silencing eL31 suppresses the progression of colorectal cancer via targeting DEPDC1

Author

Gaowa Sharen, Xiongfeng Li, Jiaxin Sun, Lei Zhang, Wen Xi, Xiaodong Zhao, Fei Han, Longlong Jia, Rong A, Haidong Cheng, and Mingxing Hou

Subjects

Colorectal cancer, eL31, DEPDC1, Medicine

Abstract

Abstract Background Colorectal cancer (CRC) is one of the most commonly diagnosed human malignancies. Ribosomal protein L31 (RPL31, aka eL31) is a component of the 60S large ribosomal subunit, and its expression pattern and functional role in CRC have not been reported. Methods Herein, we identified that eL31 protein level was dramatically increased in CRC tissues through using IHC analysis. More notably, elevated eL31 was associated with larger tumor size and shorter overall survival. Besides, we evaluated the effects of eL31 depletion on CRC cell phenotypes in vitro. Results The data indicated that eL31 knockdown restricted CRC cell proliferation, migration and colony formation whilst enhancing cell apoptosis. Importantly, eL31 was also essential for CRC tumor growth in vivo, as demonstrated by impaired tumor growth markers and reduced Ki67 levels in xenografts from eL31-depleted cells. In addition, our evidence indicated that DEP domain containing 1 (DEPDC1) was a potential downstream target of eL31 in regulating CRC. Consistently, DEPDC1 depletion restrained CRC cell proliferation and migration, as well as facilitated cell apoptosis. More interestingly, DEPDC1 depletion could reverse the promotion effects of eL31 elevation on CRC cells. Conclusions Identification of eL31’s function in CRC may pave the way for future development of more specific and more effective targeted therapy strategies against CRC.

Published

2022

6. Liquid-liquid triboelectric nanogenerator based on the immiscible interface of an aqueous two-phase system

Author

Ye Lu, Longlong Jiang, Yang Yu, Dehua Wang, Wentao Sun, Yang Liu, Jing Yu, Jun Zhang, Kai Wang, Han Hu, Xiao Wang, Qingming Ma, and Xiaoxiong Wang

Subjects

Science

Abstract

While liquid-liquid interface offers better contact and charge transfer potential than solid-based counterparts, fluidity still poses challenges for their application. Here, authors show that charge transfer exists in aqueous two-phase systems and propose a nanogenerator design based on the immiscible aqueous-aqueous interface.

Published

2022

7. The 'Hand as Foot' teaching method in perigastric arteries

Author

Longlong Jia, Haidong Cheng, and Mingxing Hou

Subjects

Hand as foot, Perigastric artery, Medical education, Surgery, RD1-811

Published

2022

8. The 'Hand as Foot' teaching method in the pathogenesis of annular pancreas

Author

A. GuDamu, Zhaoyang Wang, Jing Zhou, and Longlong Jia

Subjects

Hand As Foot, Annular pancreas, Pathogenesis, Surgery, RD1-811

Published

2022

9. 'Hand As Foot' teaching method in anal anatomy: A surgeon’s teaching experience

Author

Longlong Jia, Mingxing Hou, Haidong Cheng, and Rui Liu

Subjects

Hand As Foot, Anal anatomic, Medical education, Surgery, RD1-811

Published

2021

10. Changes in thalamic connectivity in the early and late stages of amnestic mild cognitive impairment: a resting-state functional magnetic resonance study from ADNI.

Author

Suping Cai, Liyu Huang, Jia Zou, Longlong Jing, Buzhong Zhai, Gongjun Ji, Karen M von Deneen, Junchan Ren, Aifeng Ren, and Alzheimer’s Disease Neuroimaging Initiative

Subjects

Medicine, Science

Abstract

We used resting-state functional magnetic resonance imaging (fMRI) to investigate changes in the thalamus functional connectivity in early and late stages of amnestic mild cognitive impairment. Data of 25 late stages of amnestic mild cognitive impairment (LMCI) patients, 30 early stages of amnestic mild cognitive impairment (EMCI) patients and 30 well-matched healthy controls (HC) were analyzed from the Alzheimer's disease Neuroimaging Initiative (ADNI). We focused on the correlation between low frequency fMRI signal fluctuations in the thalamus and those in all other brain regions. Compared to healthy controls, we found functional connectivity between the left/right thalamus and a set of brain areas was decreased in LMCI and/or EMCI including right fusiform gyrus (FG), left and right superior temporal gyrus, left medial frontal gyrus extending into supplementary motor area, right insula, left middle temporal gyrus (MTG) extending into middle occipital gyrus (MOG). We also observed increased functional connectivity between the left/right thalamus and several regions in LMCI and/or EMCI including left FG, right MOG, left and right precuneus, right MTG and left inferior temporal gyrus. In the direct comparison between the LMCI and EMCI groups, we obtained several brain regions showed thalamus-seeded functional connectivity differences such as the precentral gyrus, hippocampus, FG and MTG. Briefly, these brain regions mentioned above were mainly located in the thalamo-related networks including thalamo-hippocampus, thalamo-temporal, thalamo-visual, and thalamo-default mode network. The decreased functional connectivity of the thalamus might suggest reduced functional integrity of thalamo-related networks and increased functional connectivity indicated that aMCI patients could use additional brain resources to compensate for the loss of cognitive function. Our study provided a new sight to understand the two important states of aMCI and revealed resting-state fMRI is an appropriate method for exploring pathophysiological changes in aMCI.

Published

2015