农业工程学报
農業工程學報
농업공정학보
Transactions of the Chinese Society of Agricultural Engineering
2015年
21期
68-75
,共8页
李中秋%汤楚宙%李明%罗海峰%吴明亮%何菊英%张海清
李中鞦%湯楚宙%李明%囉海峰%吳明亮%何菊英%張海清
리중추%탕초주%리명%라해봉%오명량%하국영%장해청
农业机械%优化%试验%射流极角%出孔动压%喷管直径%喷管壁厚%喷孔直径
農業機械%優化%試驗%射流極角%齣孔動壓%噴管直徑%噴管壁厚%噴孔直徑
농업궤계%우화%시험%사류겁각%출공동압%분관직경%분관벽후%분공직경
agricultural machinery%optimization%experiments%jet cone angle%nozzle air pressure%pipe diameter%pipe thickness%nozzle diameter
杂交水稻制种气力式辅助授粉时,花粉随气流场运动,喷气管道多个喷孔的气流场叠加,表征气流场特性的射流极角、出孔动压对花粉分布均匀性、传播距离起决定性作用,为探索射流极角、出孔动压与管道参数之间的影响关系,获得较理想的气力授粉管道参数组合。该研究首先分析喷气管道气流场的叠加原理,采用消防烟雾弹发出有色气体经喷气管道的喷孔喷射并拍摄气流场图片,选取喷管直径、喷管壁厚、喷孔直径三因素为影响因子,以射流极角、出孔动压为评价指标,进行三因素五水平的单因素和多因素正交试验,通过对试验结果进行极差分析、矩阵分析,获得各因素对气流场特性的影响规律,找出较理想的因素组合并进行验证试验。结果表明,喷孔直径对射流极角和出孔动压的影响显著,3个因素的影响顺序为喷孔直径、喷管直径、喷管壁厚,较优的因素组合为喷管直径63 mm、喷管壁厚5 mm、喷孔直径12 mm,此时的射流极角为13.38°,出孔动压为31.6 Pa。验证试验表明,优化的因素组合明显提高花粉分布均匀性,花粉分布不均匀度(方差)降为1.33,花粉能形成覆盖母本行呈正态分布特性的单峰分布,能够满足气力辅助授粉对授粉管道的作业要求,研究结果为气力式授粉喷气管道的设计提供参考。
雜交水稻製種氣力式輔助授粉時,花粉隨氣流場運動,噴氣管道多箇噴孔的氣流場疊加,錶徵氣流場特性的射流極角、齣孔動壓對花粉分佈均勻性、傳播距離起決定性作用,為探索射流極角、齣孔動壓與管道參數之間的影響關繫,穫得較理想的氣力授粉管道參數組閤。該研究首先分析噴氣管道氣流場的疊加原理,採用消防煙霧彈髮齣有色氣體經噴氣管道的噴孔噴射併拍攝氣流場圖片,選取噴管直徑、噴管壁厚、噴孔直徑三因素為影響因子,以射流極角、齣孔動壓為評價指標,進行三因素五水平的單因素和多因素正交試驗,通過對試驗結果進行極差分析、矩陣分析,穫得各因素對氣流場特性的影響規律,找齣較理想的因素組閤併進行驗證試驗。結果錶明,噴孔直徑對射流極角和齣孔動壓的影響顯著,3箇因素的影響順序為噴孔直徑、噴管直徑、噴管壁厚,較優的因素組閤為噴管直徑63 mm、噴管壁厚5 mm、噴孔直徑12 mm,此時的射流極角為13.38°,齣孔動壓為31.6 Pa。驗證試驗錶明,優化的因素組閤明顯提高花粉分佈均勻性,花粉分佈不均勻度(方差)降為1.33,花粉能形成覆蓋母本行呈正態分佈特性的單峰分佈,能夠滿足氣力輔助授粉對授粉管道的作業要求,研究結果為氣力式授粉噴氣管道的設計提供參攷。
잡교수도제충기력식보조수분시,화분수기류장운동,분기관도다개분공적기류장첩가,표정기류장특성적사류겁각、출공동압대화분분포균균성、전파거리기결정성작용,위탐색사류겁각、출공동압여관도삼수지간적영향관계,획득교이상적기력수분관도삼수조합。해연구수선분석분기관도기류장적첩가원리,채용소방연무탄발출유색기체경분기관도적분공분사병박섭기류장도편,선취분관직경、분관벽후、분공직경삼인소위영향인자,이사류겁각、출공동압위평개지표,진행삼인소오수평적단인소화다인소정교시험,통과대시험결과진행겁차분석、구진분석,획득각인소대기류장특성적영향규률,조출교이상적인소조합병진행험증시험。결과표명,분공직경대사류겁각화출공동압적영향현저,3개인소적영향순서위분공직경、분관직경、분관벽후,교우적인소조합위분관직경63 mm、분관벽후5 mm、분공직경12 mm,차시적사류겁각위13.38°,출공동압위31.6 Pa。험증시험표명,우화적인소조합명현제고화분분포균균성,화분분포불균균도(방차)강위1.33,화분능형성복개모본행정정태분포특성적단봉분포,능구만족기력보조수분대수분관도적작업요구,연구결과위기력식수분분기관도적설계제공삼고。
Auxiliary pollination is the most critical process during hybrid rice seed production. The uniform and sufficient pollination has significant meaning for improving seed setting rate and operating efficiency. In the process of pneumatic auxiliary pollination for hybrid rice seed production, the pollens move with airflow, the airflow fields of multiple parallel nozzles of jet pipe overlay, and the jet cone angle and nozzle air pressure are the most important characters in airflow field. Increasing jet cone angle can expand the coverage of airflow field and reduce blind area of pollination effect, and eventually improve the uniformity of auxiliary pollination. Increasing nozzle air pressure can improve the airflow speed and increase airflow penetration, which significantly influences the uniformity and sufficiency of pollen distribution and determines the propagation distance of pollens. In order to study the relationships among jet cone angle, nozzle air pressure and pipe parameters, and find the ideal combination of pipe parameters for pneumatic auxiliary pollination, the paper firstly analyzed the superposition principle of the airflow field formed by parallel multiple nozzles, and obtained the formulae of jet cone angle and nozzle air pressure. Chromatic smoke was generated by the smoke grenade and sprayed through the nozzle, and pictures of airflow field were taken by camera. Jet pipe diameter, pipe thickness, nozzle diameter of pipe were selected as 3 factors, jet cone angle and nozzle air pressure were selected as 2 evaluation indices, and the three-factor and five-level of single factor and multi-factor orthogonal tests were done. In experiment, initial airflow velocity of nozzle and vertical distance between airflow junction point and center line of jet pipe were measured, and 5 photos and 5 measurements were taken for each test; the range analysis and matrix analysis were carried out, the influence laws of various factors on airflow field characteristics and their weights were obtained, as well as the relationships between airflow field characteristics and jet pipe parameters. Results showed that the influences of nozzle diameter on jet cone angle and nozzle air pressure were very obvious. As the nozzle diameter of pipe increased, the nozzle air pressure and jet cone angle increased accordingly. The influence order of the 3 factors from high to low was nozzle diameter, pipe diameter and pipe thickness. The optimal combination of the factors to jet pipe was the pipe diameter of 63 mm, the pipe thickness of 5 mm, and the nozzle diameter of 12 mm. At this time, the jet cone angle was 13.38°, and the nozzle air pressure was 31.6 Pa. The optimal factors were verified by test. Pollination effects were evaluated by the selected 3 evaluation indices on effective distribution area ratio, average distribution density, nonuniformity of pollen distribution. The confirmatory test showed that the pollen distribution was more uniform, the effective distribution area ratio of pollen was obviously improved, the nonuniformity of pollen distribution (variance) dropped to 1.33, the degree of uneven distribution was significantly reduced, and the distribution images of pollen showed unimodal normal distribution. The pipe parameters can satisfy the requirements of auxiliary pollination, which provides important reference to the design of jet pipe for pneumatic auxiliary pollination in hybrid rice seed production.