Safflower is one of the most important oil crops worldwide.To improve the efficiency and quality of harvesting soft safflower filaments,minimize filament damage by the blade,and ensure the integrity of the filaments,a...Safflower is one of the most important oil crops worldwide.To improve the efficiency and quality of harvesting soft safflower filaments,minimize filament damage by the blade,and ensure the integrity of the filaments,an end-effector with a rotary push-cut-type negative-pressure airflow was designed.The design of the rotary blade edge curve was based on Archimedean and logarithmic spirals.The effect of the Archimedean spiral on the pushing of the scattered filaments was investigated.The rotary-cutting force and speed of the logarithmic helix on the soft filaments were analyzed.The sliding cut angle and feed speed of the blade are the key factors governing filament removal and damage.A simulation model of the cutting chamber flow field was established for the change in airflow with the position and speed rotation of the blade,allowing analysis of the parameters of the negative-pressure airflow.Single-factor and Box-Behnken tests were performed with the sliding cut angle,blade feed speed,and negative-pressure airflow speed as influencing factors and filament removal,damage,and drop rate as indices.The response surface clarified the effects of various factors on these indices.Optimal parameters were a sliding cut angle of 32.20°,a blade feeding speed of 0.031 m/s,and a negative-pressure airflow speed of 4.57 m/s.The corresponding filament removal,damage,and drop rates were 93.47%,6.94%,and 4.33%,respectively.Optimization results showed that filament removal,damage,and drop rates were 93.50%,7.02%,and 4.43%,respectively.The harvesting process met the requirements of high efficiency and low damage.展开更多
In order to improve the combustion conditions, maximize the carbon burnout for low--NOx firing systems and meet the requirements for ignition and flame stabilization as low volatile and low quality coalare burned in b...In order to improve the combustion conditions, maximize the carbon burnout for low--NOx firing systems and meet the requirements for ignition and flame stabilization as low volatile and low quality coalare burned in boilers, finer pulverized coal should be used. Hence, it is of great practical importanceto study the rotary type classifier for the MPS type medium-speed mill. In this paper, we first reviewthe low-NOx combustion technology, then some model tests of rotating classifier are completed. Theresults show that the classifier performances are very satisfactory, with the fineness of the finishedproduce being Rf90< 10%. Rules for designing and controlling rotating classifier are also developed inthis paper.展开更多
基金funded by Central Guidance for Local Science and Technology Development Funding Projects under Grant,China(Grant No.ZYYD2025ZY11)the National Natural Science Foundation of China(Grant Nos.32460449 and 52265041)+1 种基金the Key Laboratory of Modern Agricultural Equipment and Technology(Jiangsu University),Ministry of Education,China(Grant No.MAET202305)the Graduate School-level Research and Innovation Program of Xinjiang Agricultural University,China(Grant No.XJAUGRI2023021).
文摘Safflower is one of the most important oil crops worldwide.To improve the efficiency and quality of harvesting soft safflower filaments,minimize filament damage by the blade,and ensure the integrity of the filaments,an end-effector with a rotary push-cut-type negative-pressure airflow was designed.The design of the rotary blade edge curve was based on Archimedean and logarithmic spirals.The effect of the Archimedean spiral on the pushing of the scattered filaments was investigated.The rotary-cutting force and speed of the logarithmic helix on the soft filaments were analyzed.The sliding cut angle and feed speed of the blade are the key factors governing filament removal and damage.A simulation model of the cutting chamber flow field was established for the change in airflow with the position and speed rotation of the blade,allowing analysis of the parameters of the negative-pressure airflow.Single-factor and Box-Behnken tests were performed with the sliding cut angle,blade feed speed,and negative-pressure airflow speed as influencing factors and filament removal,damage,and drop rate as indices.The response surface clarified the effects of various factors on these indices.Optimal parameters were a sliding cut angle of 32.20°,a blade feeding speed of 0.031 m/s,and a negative-pressure airflow speed of 4.57 m/s.The corresponding filament removal,damage,and drop rates were 93.47%,6.94%,and 4.33%,respectively.Optimization results showed that filament removal,damage,and drop rates were 93.50%,7.02%,and 4.43%,respectively.The harvesting process met the requirements of high efficiency and low damage.
文摘In order to improve the combustion conditions, maximize the carbon burnout for low--NOx firing systems and meet the requirements for ignition and flame stabilization as low volatile and low quality coalare burned in boilers, finer pulverized coal should be used. Hence, it is of great practical importanceto study the rotary type classifier for the MPS type medium-speed mill. In this paper, we first reviewthe low-NOx combustion technology, then some model tests of rotating classifier are completed. Theresults show that the classifier performances are very satisfactory, with the fineness of the finishedproduce being Rf90< 10%. Rules for designing and controlling rotating classifier are also developed inthis paper.
