文章摘要
宗全利, 刘贞姬, 井河义, 张明鸣.微灌系统泵前无压网式过滤器过滤效率研究Journal of Water Resources and Water Engineering[J].,2023,34(5):207-214
微灌系统泵前无压网式过滤器过滤效率研究
Filtration efficiency of pre-pump pressureless screen filters in micro-irrigation system
  
DOI:10.11705/j.issn.1672-643X.2023.05.24
中文关键词: 网式过滤器  滤网  有效过滤效率  含沙量  粒组组成  泵前
英文关键词: screen filter  filter screen  effective filtration efficiency  sand content  particle group size distribution  pre-pump
基金项目:国家自然科学基金项目(12162030);青岛市科技惠民示范引导专项(22-3-7-xdny-19-nsh)
Author NameAffiliation
ZONG Quanli1, LIU Zhenji2, JING Heyi3, ZHANG Mingming4 (1.青岛农业大学 资源与环境学院 山东 青岛 266109 2.石河子大学 水利建筑工程学院 新疆 石河子 832000 3.新疆惠利灌溉科技股份有限公司 新疆 石河子 832011 4.山东省临朐县东城街道农业综合服务中心 山东 潍坊 262600) 
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中文摘要:
      泵前无压过滤器可以有效解决传统泵后过滤器能耗高、压损大等问题,为更加准确和全面评价其过滤效果,以新疆地区常用的泵前网式过滤器为研究对象,分别在实验室和工程现场开展观测试验,并提出有效过滤效率概念,对过滤效率进行了计算。结果表明:过滤前含沙量越大,全沙平均过滤效率就会越大,但某一时刻全沙过滤效率并不一定随着过滤前含沙量的增大而变大,反映出过滤效率除了与泥沙含量有关外,还与滤网孔径大小、泥沙粒径大小和粒组组成等有很大关系;过滤前后细沙的粒组变化不明显,而粗沙变化明显,说明滤网主要对粒径大于网孔直径(本文为0.180 mm)的泥沙过滤有效;根据提出的有效过滤效率概念,计算得到粗沙和细沙平均有效过滤效率分别为95.5%和98.1%;随着粒组直径的增大,粒组的有效过滤效率也逐渐增大,说明同一种滤网在相同条件下对较大粒组的过滤效率要明显大于较小粒组,这充分证明了本文提出的有效过滤效率的合理性。研究结果可补充网式过滤器现有规范中缺乏过滤效率计算方法的不足,为更加准确和全面地评价过滤器的过滤效果提供计算依据。
英文摘要:
      The pressureless screen filter installed in front of the pump can effectively solve the problems of high energy consumption and large pressure loss of the conventional filter which is installed behind the pump. In order to evaluate the filtration effect more accurately and comprehensively, the commonly used pre-pump pressureless screen filter in Xinjiang was taken as the research object, and laboratory and in situ experiments were carried out simutaneously. In the experiments, the concept and calculation method of the effective filtration efficiency were proposed. The experiment results show that the larger the sand content before filtration, the greater the average filtration efficiency of the total sand. However, the total sand filtration efficiency at a certain moment does not necessarily increase with the increase of the sand content before filtration, reflecting that the filtration efficiency is not only related to the sand content, but also related to the mesh diameter, particle size and particle group size distribution. Before and after filtration, the change of particle group for fine sand is not obvious, whereas that of the coarse sand changes significantly. Therefore, the screen of the filter is only effective for the filtration of sand particles with a particle size larger than the mesh diameter (0.180 mm in this study). According to the proposed concept of effective filtration efficiency, the average effective filtration efficiency of coarse and fine sand was calculated to be 95.5% and 98.1%, respectively. As the particle size increases, the effective filtration efficiency of the particle group also increases gradually, indicating that the filtration efficiency of the screen for the coarse particle group is significantly greater than that for the fine particle group, which further proves the rationality of the proposed effective filtration efficiency in this study. The research results can provide a calculation basis for a more accurate and comprehensive evaluation of the filtration effect of the screen filter, and supplement the insufficiency of the calculation method of filtration efficiency in the existing specifications.
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