Optimization of airflow cylinder sieve for threshed rice separation using CFD-DEM

Yuan, Jianbo; Li, Hua; Qi, Xindan; Hu, T.; Bai, Mingchao; Wang, Yongjian

doi:10.1080/19942060.2020.1778540

Cited by 6 publications

(2 citation statements)

References 20 publications

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“…According to the material properties and the operating principle of the air-screen cleaning system, the impurity ratio (IR) and loss ratio (LR) depend on several factors, such as fan speed (FS), vibration frequency (VF), and screen opening (SO) [21]. A single-factor experiment was designed to analyze the effects of these three factors [22,23]. The singlefactor experiment was arranged with six values for each factor with the feed rate of the corn-cleaning mixture set to 5.5 kg/s.…”

Section: Experimental Design 231 Single-factor Experimentsmentioning

confidence: 99%

Optimization of the Process Parameters of an Air-Screen Cleaning System for Frozen Corn Based on the Response Surface Method

Zhang

Chen

et al. 2021

Agriculture

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The threshing of frozen corn is accompanied by breakage and adherence, which influence the cleaning performance when the corn-cleaning mixture is separated and cleaned. In order to reduce the impurity ratio and loss ratio during frozen corn cleaning and provide theoretical support for frozen corn combine harvesting, this study employed a self-made air-screen cleaning system with adjustable parameters. The optimal process parameters of frozen corn cleaning were determined by using the response surface method (RSM). The influences of the fan speed (FS), vibrational frequency (VF), and screen opening (SO) on the cleaning performance were explored. The results showed that all three process parameters had significant effects on the impurity ratio (IR) and loss ratio (LR). The fan speed had the most significant impact. The cleaning performance was optimal when the fan speed was 102.7 rad/s, the vibration frequency was 6.42 Hz, and the screen opening was 21.9 mm, corresponding to a 0.80% impurity ratio and a 0.61% loss ratio. The predicted values of the regression models were consistent with the experimental results with a relative error of less than 5%. The reliability and accuracy of regression models were established and confirmed.

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Section: Experimental Design 231 Single-factor Experimentsmentioning

confidence: 99%

Optimization of the Process Parameters of an Air-Screen Cleaning System for Frozen Corn Based on the Response Surface Method

Zhang

Chen

et al. 2021

Agriculture

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“…Normally, adjusting the forward speed mainly depends on the operator's experience of judging the density of crops, which is susceptible to subjective factors, and the quality of work cannot be guaranteed. When the forward speed of the harvester is too fast, the instantaneous feeding amount may exceed the load of the machine, which will cause the harvester to block and fail [19]; if the forward speed is too low, the harvester operates at a low load, resulting in decreased harvesting efficiency. Therefore, knowing the rice density before harvesting, generating a density prescription map, and attaining a suitable operating speed to ensure the stability of the feeding amount are of great significance for improving the quality of the operation.…”

Section: Introductionmentioning

confidence: 99%

Deep Convolutional Neural Network for Rice Density Prescription Map at Ripening Stage Using Unmanned Aerial Vehicle-Based Remotely Sensed Images

Wei

Luo

et al. 2021

Remote Sensing

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In this paper, UAV (unmanned aerial vehicle, DJI Phantom4RTK) and YOLOv4 (You Only Look Once) target detection deep neural network methods were employed to collected mature rice images and detect rice ears to produce a rice density prescription map. The YOLOv4 model was used for rice ear quick detection of rice images captured by a UAV. The Kriging interpolation algorithm was used in ArcGIS to make rice density prescription maps. Mature rice images collected by a UAV were marked manually and used to build the training and testing datasets. The resolution of the images was 300 × 300 pixels. The batch size was 2, and the initial learning rate was 0.01, and the mean average precision (mAP) of the best trained model was 98.84%. Exceptionally, the network ability to detect rice in different health states was also studied with a mAP of 95.42% in the no infection rice images set, 98.84% in the mild infection rice images set, 94.35% in the moderate infection rice images set, and 93.36% in the severe infection rice images set. According to the severity of rice sheath blight, which can cause rice leaves to wither and turn yellow, the blighted grain percentage increased and the thousand-grain weight decreased, the rice images were divided into these four infection levels. The ability of the network model (R2 = 0.844) was compared with traditional image processing segmentation methods (R2 = 0.396) based on color and morphology features and machine learning image segmentation method (Support Vector Machine, SVM R2 = 0.0817, and K-means R2 = 0.1949) for rice ear counting. The results highlight that the CNN has excellent robustness, and can generate a wide range of rice density prescription maps.

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Quantitative analysis of the erosion process in horizontal cobble and gravel embankment piping via CFD-DEM coupling method

Nie

Sun

Wang

2022

J Braz. Soc. Mech. Sci. Eng.

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Optimization of airflow cylinder sieve for threshed rice separation using CFD-DEM

Cited by 6 publications

References 20 publications

Optimization of the Process Parameters of an Air-Screen Cleaning System for Frozen Corn Based on the Response Surface Method

Optimization of the Process Parameters of an Air-Screen Cleaning System for Frozen Corn Based on the Response Surface Method

Deep Convolutional Neural Network for Rice Density Prescription Map at Ripening Stage Using Unmanned Aerial Vehicle-Based Remotely Sensed Images

Quantitative analysis of the erosion process in horizontal cobble and gravel embankment piping via CFD-DEM coupling method

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