摘要
为探求微孔陶瓷灌水器与迷宫流道灌水器在不同水质灌溉条件下抗堵塞性能的差异及堵塞机理,该研究选择了微咸水(A1)、肥水(A2)、微咸水加肥(A3)3种不同水质,分析管间式微孔陶瓷灌水器和6种常用的迷宫流道灌水器在不同水质灌溉条件下的平均相对流量变化规律,并用X射线衍射仪测定堵塞物质组成成分,用场发射扫描电镜观测堵塞物质表面微观形貌及动态生长过程。结果表明:各灌水器的流量随着灌溉运行时间的推移均发生不同程度的下降,其中A1处理下陶瓷灌水器的流量下降最慢,表现出优于迷宫流道灌水器的抗堵塞性能,A2、A3处理下陶瓷灌水器的平均相对流量下降速度先慢后快,试验结束时平均相对流量降幅最大,抗堵塞性能较差;A1处理下堵塞物质的主要成分是CaCO_(3),A2、A3处理下堵塞物质的主要成分是(NH4)_(2)SO_(4);A1处理下各灌水器堵塞物表面微观形貌的生长过程为晶体颗粒不断团聚,A2、A3处理下堵塞物的动态生长过程为絮状物不断黏合成板块状或膜状。陶瓷灌水器堵塞发生在内壁上,堵塞物未进入到灌水器内部微孔中,随着堵塞物质增多且变得紧密复杂逐渐覆盖了内壁上的孔隙导致堵塞;迷宫流道灌水器是由于堵塞物质在流道内沉积导致过水断面减小,从而造成堵塞。研究结果可为陶瓷灌水器的应用及改进提供参考。
Seepage irrigation has been one of the most concerned irrigation technologies in recent years,due to its energy saving,high yield,and water use efficiency.However,the performance of ceramic emitter varies greatly under different water quality conditions.Particularly,there are various working modes in the ceramic emitter and conventional maze channel emitter.This study aims to explore the anti-clogging performance and clogging mechanism between the ceramic emitters and labyrinth channel emitters under different water quality irrigation conditions.The test platforms were also composed of the water storage bucket,electric pump whirlpool type self-priming electric pump,pressure gauge,mesh filter(125 microns),control valve,emitter,capillary,and return tank.The experiment was selected as brackish water(A1),fertilizer water(A2),and brackish water with fertilizer(A3).The ceramic emitters and six types of labyrinth channel emitters were selected for the continuous irrigation experiments.The discharge ratio variation(Dra)was then monitored under different irrigation conditions of water quality.An X-ray diffractometer(XRD)test was conducted to identify the clogging substance.A Scanning Electron Microscopy(SEM)was then utilized to characterize the surface morphology and growth process of the clogging substances.The results showed that:1)The excellent anti-clogging performance was achieved in the ceramic emitter under saline irrigation.The anti-clog time of the ceramic emitter was prolonged compared with the maze channel emitter.The chemical blockage was the main cause of the blockage,which was produced CaCO_(3) by chemical reactions of ions in brine.The chemical blockage was gradually reunited from the loose crystals to combine into the larger particles in the process of irrigation.Although the microhole was not completely covered in the inner wall of the ceramic emitter,the cross-section of labyrinth channels of the emitter was quickly reduced to plug the inner wall of the ceramic emitter rather than the pores.The tiny runn
作者
王慧芸
陈俊英
王耀民
吴天奎
徐洋洋
张兴
陈慧芳
朱德兰
蔡耀辉
Wang Huiyun;Chen Junying;Wang Yaomin;Wu Tiankui;Xu Yangyang;Zhang Xing;Chen Huifang;Zhu Delan;Cai Yaohui(Key Laboratory of Agricultural Soil and Water Engineering of Ministry of Education in Arid Regions,College of Hydraulic and Architectural Engineering,Northwest A&F University,Yangling 712100,China;College of Water Resources and Hydropower Engineering,Wuhan University,Wuhan 430072,China;Institute of Soil and Water Conservation,Northwest A&F University,Yangling 712100,China)
出处
《农业工程学报》
EI
CAS
CSCD
北大核心
2022年第13期84-94,共11页
Transactions of the Chinese Society of Agricultural Engineering
基金
国家自然科学基金项目(52009113、51979234)。
关键词
肥
水
灌水器
陶瓷
滴灌
微咸水
fertilizers
water
emitters
ceramic
drip irrigation
saline water
