The aim of the present experiment was to study the relationship between the distribution of relative light intensity in canopy and yield and quality of Wanmi peach. The optimum relative canopy light intensity was judg...The aim of the present experiment was to study the relationship between the distribution of relative light intensity in canopy and yield and quality of Wanmi peach. The optimum relative canopy light intensity was judged to be 36.3% for high quality peaches, when canopy volumes of Wanmi peach trees with a relative light intensity 〈 30% accounted for 7.7 and 47.9% of the total canopy volume in June and September, respectively. The canopy volume with a relative light intensity 〉 80% was 27.7 and 3.1% of the total canopy volume in June and September, respectively. Peach canopies were divided into 0.5 m × 0.5 m × 0.5 m cubes, with the relative light intensity being measured at different positions of the canopy during the growing season. Yield and fruit quality were also measured at these positions at harvest. The results showed that the relative light intensity decreased gradually from outside to inside and from top to bottom of the tree canopy. Fruit were mainly distributed in the upper and middle portions of the canopy, 1.5-3.0 m above ground. Regression results showed that single fruit weight and soluble solid content were positively related to relative light intensity.展开更多
A trunk-vibrating screen is widely used in olive harvesting machinery.Because of the irregularity of fruit recovery efficiency,the recovery efficiency fluctuates greatly.Vibration harvesting parameters are important f...A trunk-vibrating screen is widely used in olive harvesting machinery.Because of the irregularity of fruit recovery efficiency,the recovery efficiency fluctuates greatly.Vibration harvesting parameters are important factors affecting the percentage of olive harvest.Therefore,the study of vibration picking parameters is of great significance for olive harvest.Vibration parameters,governed by tree morphological parameters,strongly influence the efficiency of vibration harvesting.In this study,a combination of response surface simulation and harvesting experiments was used to investigate the relationship between morphological and vibration harvesting parameters in“three open-center shape”olive trees.First,force analysis and experimental measurements were performed on the olive fruit,and the Box-Behnken design was used to obtain the vibration parameters through finite element simulation and to establish the response surface model of the parameters(main trunk diameter,main trunk height,main branch angles A and B)and the vibration parameters(vibration frequency and vibration force)of the“three open-center-shape”olive trees.In addition,the mapping relationship between tree shape parameters and vibration parameters was obtained.The results show that the 90%quantile of the acceleration of abscission of olives is 1113.35 m/s2;the average correlation coefficient between the simulation and the experiment results was 0.73,and the simulation was a good representation of the experimental results.When the tree shape was“three open-center”,the trunk diameter and height were related to the vibration harvesting parameters;the average harvesting efficiency of olives was 91.22%,and the resonance frequency of the monitoring points was similar to that of the simulation results.This study provides a reference for the design of vibration harvesting equipment and fruit tree shaping.展开更多
文摘The aim of the present experiment was to study the relationship between the distribution of relative light intensity in canopy and yield and quality of Wanmi peach. The optimum relative canopy light intensity was judged to be 36.3% for high quality peaches, when canopy volumes of Wanmi peach trees with a relative light intensity 〈 30% accounted for 7.7 and 47.9% of the total canopy volume in June and September, respectively. The canopy volume with a relative light intensity 〉 80% was 27.7 and 3.1% of the total canopy volume in June and September, respectively. Peach canopies were divided into 0.5 m × 0.5 m × 0.5 m cubes, with the relative light intensity being measured at different positions of the canopy during the growing season. Yield and fruit quality were also measured at these positions at harvest. The results showed that the relative light intensity decreased gradually from outside to inside and from top to bottom of the tree canopy. Fruit were mainly distributed in the upper and middle portions of the canopy, 1.5-3.0 m above ground. Regression results showed that single fruit weight and soluble solid content were positively related to relative light intensity.
基金supported by the Key Research and Development Plan of Shaanxi Province(Grant No.2024NCZDCYL-05-03)the Key Programs of the Joint Fund of the National Natural Science Foundation of China(Grant No.U2243235)the Introduction of High-level Talents in Hohhot(Grant No.2023RC-High Level-7).
文摘A trunk-vibrating screen is widely used in olive harvesting machinery.Because of the irregularity of fruit recovery efficiency,the recovery efficiency fluctuates greatly.Vibration harvesting parameters are important factors affecting the percentage of olive harvest.Therefore,the study of vibration picking parameters is of great significance for olive harvest.Vibration parameters,governed by tree morphological parameters,strongly influence the efficiency of vibration harvesting.In this study,a combination of response surface simulation and harvesting experiments was used to investigate the relationship between morphological and vibration harvesting parameters in“three open-center shape”olive trees.First,force analysis and experimental measurements were performed on the olive fruit,and the Box-Behnken design was used to obtain the vibration parameters through finite element simulation and to establish the response surface model of the parameters(main trunk diameter,main trunk height,main branch angles A and B)and the vibration parameters(vibration frequency and vibration force)of the“three open-center-shape”olive trees.In addition,the mapping relationship between tree shape parameters and vibration parameters was obtained.The results show that the 90%quantile of the acceleration of abscission of olives is 1113.35 m/s2;the average correlation coefficient between the simulation and the experiment results was 0.73,and the simulation was a good representation of the experimental results.When the tree shape was“three open-center”,the trunk diameter and height were related to the vibration harvesting parameters;the average harvesting efficiency of olives was 91.22%,and the resonance frequency of the monitoring points was similar to that of the simulation results.This study provides a reference for the design of vibration harvesting equipment and fruit tree shaping.
