农机化研究
農機化研究
농궤화연구
Journal of Agricultural Mechanization Research
2016年
6期
230-234
,共5页
宋涛%陈智%司志民%宣传忠
宋濤%陳智%司誌民%宣傳忠
송도%진지%사지민%선전충
农田风蚀集沙仪%数值模拟%烟流试验%风洞试验
農田風蝕集沙儀%數值模擬%煙流試驗%風洞試驗
농전풍식집사의%수치모의%연류시험%풍동시험
a new sand sampler for farmland erosion%a numerical simulation%a smoke flow test%a wind tunnel test
农田土壤风蚀会导致土壤质量退化,甚至出现荒漠化. 防止农田土壤退化,研究其风蚀机理是关键,而集沙仪是研究土壤风蚀的必需仪器. 随着自动控制理论在各行业的广泛应用,为集沙仪配备自动采集系统是一个发展趋势. 由于集沙仪排沙口气流对称重天平的冲击是引起数据波动的主要来源,所以降低集沙仪排沙口气流速度是很关键的. 为此,提出了设计一台新型农田风蚀集沙仪以解决排沙口降速问题的新思路. 首先,阐述了新型农田集沙仪的设计原理;随后,通过数值模拟方法对其关键部件风沙分离器进行了数值模拟,得出了其内部速度矢量场模拟图;最后,通过烟流试验和风洞试验对数值模拟结果进行了验证. 结果表明:数值模拟结果是可靠的;当新型农田集沙仪受强风环境影响时,其排沙口气流的降速幅度达84%,可较好地缓解排沙口气流对称重天平的冲击. 该研究也可为新型农田集沙仪的后续研究提供理论支持.
農田土壤風蝕會導緻土壤質量退化,甚至齣現荒漠化. 防止農田土壤退化,研究其風蝕機理是關鍵,而集沙儀是研究土壤風蝕的必需儀器. 隨著自動控製理論在各行業的廣汎應用,為集沙儀配備自動採集繫統是一箇髮展趨勢. 由于集沙儀排沙口氣流對稱重天平的遲擊是引起數據波動的主要來源,所以降低集沙儀排沙口氣流速度是很關鍵的. 為此,提齣瞭設計一檯新型農田風蝕集沙儀以解決排沙口降速問題的新思路. 首先,闡述瞭新型農田集沙儀的設計原理;隨後,通過數值模擬方法對其關鍵部件風沙分離器進行瞭數值模擬,得齣瞭其內部速度矢量場模擬圖;最後,通過煙流試驗和風洞試驗對數值模擬結果進行瞭驗證. 結果錶明:數值模擬結果是可靠的;噹新型農田集沙儀受彊風環境影響時,其排沙口氣流的降速幅度達84%,可較好地緩解排沙口氣流對稱重天平的遲擊. 該研究也可為新型農田集沙儀的後續研究提供理論支持.
농전토양풍식회도치토양질량퇴화,심지출현황막화. 방지농전토양퇴화,연구기풍식궤리시관건,이집사의시연구토양풍식적필수의기. 수착자동공제이론재각행업적엄범응용,위집사의배비자동채집계통시일개발전추세. 유우집사의배사구기류대칭중천평적충격시인기수거파동적주요래원,소이강저집사의배사구기류속도시흔관건적. 위차,제출료설계일태신형농전풍식집사의이해결배사구강속문제적신사로. 수선,천술료신형농전집사의적설계원리;수후,통과수치모의방법대기관건부건풍사분리기진행료수치모의,득출료기내부속도시량장모의도;최후,통과연류시험화풍동시험대수치모의결과진행료험증. 결과표명:수치모의결과시가고적;당신형농전집사의수강풍배경영향시,기배사구기류적강속폭도체84%,가교호지완해배사구기류대칭중천평적충격. 해연구야가위신형농전집사의적후속연구제공이론지지.
Farmland soil erosion would lead to degradation of soil quality , even desertification , preventing degradation of farmland soil , the key was to study the erosion mechanism ,a sand sampler was the essential equipment .With the auto-matic control theory was widely used in various industries ,Equiping a sand sampler with automatic collection system was a trend, Due to the attacking of flushing-port flow on weighing scales was the main source of data fluctuations caused ,so it was the critical to reduce flushing-port flow rate .For this reason , this paper proposed a new way to resolve a flushing-port deceleration problem though designing a new sand sampler for farmland erosion .First,expounding the design prin-ciples of a new sand sampler for farmland erosion ,then carryed out a numerical simulation on a wind-sand separator that was its key part , obtained a drawing simulation of its internal velocity vector , Finally ,carried out a test verify on the sim-ulation results though a smoke flow test and a wind tunnel test .The conclusion was that the simulation results were relia-ble.When a new sand sampler for farmland erosion affected by windy conditions , spin-down rate of flushing-port flow was up to 84%,could better alleviate the attacking of flushing-port flow on weighing scales,This study also provided theoretical support for the new follow-up study on a new sand sampler for farmland erosion .