浑水特性与水温对滴头抗堵塞性能的影响

为探明迷宫流道滴头发生物理堵塞的成因及过程,采用分段粒径浑水周期间歇滴灌的试验方法,分别对含沙量、泥沙颗粒粒径和水温对滴头堵塞发生过程的影响进行研究。结果表明:对于泥沙颗粒粒径小于0.1 mm的浑水滴灌而言,粒径越小越易造成滴头堵塞,且其堵塞程度随浑水含沙量的升高而急剧升高;存在造成滴头堵塞的敏感粒径范围,在夏季灌溉时小于0.031 mm的粒径为易堵塞粒径;水温是影响滴头堵塞的重要因素,水温越高滴头的抗物理堵塞性能越好。     

浑水泥沙粒径与含沙量对迷宫流道堵塞的影响

为客观评价浑水中泥沙特性对滴头流道堵塞的影响以及合理选择滴灌水质处理方法,采用L9（34）的正交试验设计方法,进行了浑水间歇灌水测试,并提出了以滴头平均相对流量和灌水均匀度系数作为基本参数的滴头堵塞程度综合评价方法,比较分析了压力、含沙量以及泥沙粒径等变化对滴头堵塞比例和堵塞程度的影响规律.研究结果表明：对于粒径小于0.1 mm的泥沙颗粒,工作压力对流道堵塞的影响非常显著,其次为泥沙粒径;滴头堵塞程度的大小是由粒径、含沙量、工作压力三者相互耦合作用引起的,且相互之间不存在单调相关关系.在实际灌水过程中,当灌溉水中含有较多小于0.1 mm的泥沙颗粒时,应尽量滤除粒径小于0.048 mm的颗粒,并可加入分散剂,阻止细小黏粒的团聚絮凝作用,以提高滴头抗堵塞能力.     

温度对施肥滴灌系统滴头堵塞的影响

为探究不同灌水温度下水肥一体化滴灌滴头堵塞成因与过程,采用固定周期间歇滴灌的多因素完全随机试验设计方法,分别在冬、夏两个季节研究了3种不同泥沙级配浑水与3个不同施肥质量浓度组合对滴头堵塞的影响和堵塞变化过程。结果表明,灌水温度是影响滴头堵塞的重要因素,与水质交互耦合效应显著,夏季施肥和未施肥2种情况下灌溉滴头的抗堵塞性能均高于冬季,夏季有效灌水次数是冬季的1.26~1.43倍;施肥加速滴头堵塞的作用受泥沙级配和灌水温度的影响,冬季灌溉水中0.034~0.1 mm粒径粗颗粒含量越多,施肥质量浓度对堵塞的影响越敏感,夏季灌溉水中0~0.034 mm细颗粒越多,施肥质量浓度对堵塞的影响越敏感。建议灌水温度较低时,水肥一体化滴灌应控制在较低的施肥质量浓度下灌溉,适当增大次灌水时间,减少灌溉次数。     

不同冲洗措施下迷宫流道灌水器泥沙运行分布机理研究

评估了3种冲洗流速（0.25、0.50、0.75m/s）和5种冲洗频率（2d冲洗1次、4d冲洗1次、7d冲洗1次、10d冲洗1次和无冲洗对照组）对内嵌式齿形迷宫流道灌水器抗堵塞性能的影响,利用激光粒度仪对水源泥沙、滴头排出泥沙、滴头内滞留泥沙进行级配对比和粒径分析,并对不同冲洗处理下灌水器的相对流量和灌水均匀度进行拟合。结果表明：冲洗处理对齿形迷宫流道灌水器抗堵塞性能有显著影响,12种冲洗处理提高了内嵌式齿形迷宫流道灌水器的输沙能力,使滴头使用年限平均提高了39.58%;在冲洗作用下,泥沙凝聚沉降的机会降低,流道内小颗粒泥沙及时排出,没有形成体积较大的团聚体,滴头堵塞形成缓慢,灌水均匀度和流量系数下降缓慢;冲洗处理能有效减少毛管内泥沙堆积,降低大颗粒泥沙进入迷宫流道的机率,从而提高了齿形迷宫流道灌水器的抗堵塞性能。     

滴灌毛管泥沙分布与灌水器堵塞试验研究

为探明滴灌毛管泥沙分布及灌水器堵塞规律,通过对8种粒径的泥沙进行短周期浑水试验和堵塞试验,研究了泥沙在不同毛管分布和灌水器堵塞规律。结果表明:泥沙在不同毛管中淤积量的不均匀程度可以通过毛管淤积分布系数来衡量;泥沙在支管中的运动状态对进入毛管中的泥沙量影响很大,通过计算支管泥沙悬浮指数,可确定泥沙在不同毛管中的淤积状况,悬浮指数越大,泥沙在各毛管淤积量越不均匀,突变发生在悬浮指数等于0.325处;大颗粒泥沙在毛管底部以推移质形式运动,是造成灌水器突然堵塞的直接原因,且主要出现在第1、2条毛管中,而细小颗粒的絮凝作用是造成灌水器逐渐堵塞的主要原因。     

含沙水磁化处理减缓滴头堵塞机理研究

为探究含沙水磁化处理对悬浮泥沙在滴灌管网中沉降的影响,揭示含沙水磁化处理对滴头堵塞的减缓机理,以内镶贴片式迷宫流道滴头为研究对象,设置4种磁化强度(0、0.2、0.4、0.6 T)和4种粒径级配(0～0.100 mm、0.075～0.100 mm、0.038～0.075 mm、0～0.038 mm)的泥沙,泥沙质量浓度...     

Eight emitters clogging characteristics and its suitability under on-site reclaimed water drip irrigation

Drip irrigation is the most effective and reliable method for reclaimed water irrigation. The water usually contains a lot of suspended particles, metal salt ions, organisms and microbial communities, which will enhance the possibility of emitter clogging or more complex clogging mechanism. Emitter clogging has become one of  the key problems to the application and popularization of the drip irrigation technology. In this paper, we selected four kinds of pressure-compensating emitters and four kinds of non-pressure-compensating emitters, and executed the experiment of drip irrigation with on-site reclaimed water treated with cyclic activated sludge system (CASS). The emitter discharge ratio variation (Dra), coefficient of uniformity (CU) and clogging rate distribution were analyzed to evaluate the emitter clogging characteristics after eliminating the effect of temperature and pressure on the emitter outflow by data correction. The results showed that Dra and CU varied in three periods as system operation. The beginning of experiment was the fluctuated balance period, Dra and CU recurrent fluctuated in 5 %, and the emitters clogged at some spots after the system run 36–48 h. Then the two parameters varied linearly in 60–108 h, tuning into the initiate linear period, as the non-pressure-compensating emitters got an obvious linear change than the pressure-compensating ones with the gradient changed from ?0.094 to 0.042 and ?0.073 to 0.047, respectively. Some of the emitters have a significant difference on these two parameters at this stage. After the restarting in the second year, Dra and CU decreased sharply. The maximum decrement was, respectively, 9.6 and 10.7 %. Then they varied in line with a greater slope degree as all emitters reached the significant level, the gradient ranges were ?0.176 to 0.115 and ?0.216 to 0.117, respectively. This stage was called the accelerated linear period. Seriously clogged and completely clogged emitters appeared, and both Dra and CU dropped down to 38.7 and 41.5 %. Various degrees of clogged emitters often emerged in the end part of lateral at first then propelled to the head gradually, the completely clogged emitters in the end accounted for more than 73.0 % when the system run 540 h. Comprehensively considered, the pressure-compensating emitters and cusp-shaped saw-tooth non-pressure-compensating emitters with short flow path are recommended in reclaimed water drip irrigation. These researches are aimed to provide references explaining the emitter clogging mechanism of reclaimed water drip irrigation as well as its technological application and popularization.     

细小泥沙对半透膜微润管堵塞的影响

为探明半透膜微润管对细小泥沙抗堵塞性能的影响,采用有压连续灌水方式对微润管3种粒径组成小于0.100 mm的泥沙颗粒进行了不同质量分数浑水灌溉堵塞试验.分析了泥沙粒径、含沙量以及压力水头对灌水器堵塞的影响,同时探讨了灌水器发生堵塞时的敏感粒径范围和含沙量质量分数值.试验结果表明:随着浑水含沙量的增大堵塞越严重,呈正相关关系;粒径在0.061 0 mm~0.100 0 mm对微润管的堵塞影响最大;相同水质条件下,随着压力水头的增大微润管堵塞程度会降低.研究结果为进一步利用半透膜微润灌溉技术提供了相关的理论基础.     

组合滴灌管抗堵塞性能研究

【目的】研究Φ16滴灌管在含沙量与系统工作压力下滴头堵塞规律并探究组合滴灌管解决滴头堵塞的方法。【方法】采用试验因素完全组合的方法,分选出粒径小于0.10 mm的泥沙,配制成含沙量为1.00、1.25、1.50 g/L的浑水,分别在0.025 MPa和0.075 MPa压力下,针对Φ16滴灌管,采用周期性间歇灌水试验观测滴头流量,结合克里斯琴森均匀系数和滴头相对流量分析Φ16滴灌管的堵塞规律。重新铺设Φ16滴灌管,将原滴头堵塞部位及前后各750 mm滴灌管用Φ20滴灌管替换,组成组合滴灌管,在相同含沙量与系统工作压力下探究组合滴灌管的抗堵塞性能。【结果】0.025 MPa压力下,组合滴灌管能使堵塞部位分布更集中,含沙量为1.25 g/L时,组合滴灌管的抗堵塞性能较明显;0.075 MPa,组合滴灌管抗堵塞性能随泥沙浓度增大而更明显。【结论】组合滴灌管在一定条件下能够改变滴头的堵塞规律,同时能改变滴头堵塞类型。     

滴灌系统灌水器堵塞及防堵措施研究进展

滴灌系统灌水器堵塞一直是制约滴灌技术应用推广的关键问题,为探索预防、解决该问题的方法,首先,从灌溉水源、灌水器流道结构、滴灌系统运行方式等方面总结了灌水器堵塞类型,论述了该领域的研究成果;其次,通过控制水源处理、配置合适过滤设备、改进灌水器流道、选用较优系统运行方案等方式提高灌水器抗堵塞性能,提出进一步研究发展灌水器堵塞防治新技术;最后,讨论了目前研究中存在的问题及下一步研究建议,为更好地防治灌水器堵塞问题提供新思路。      

Preliminary surface topographical characteristics of biofilms attached on drip irrigation emitters using reclaimed water

Drip irrigation is the most effective and reliable method for reclaimed water irrigation. Emitter clogging is the bottleneck to restrain the application and popularization of reclaimed water drip irrigation technology, and some researchers have reported that this was tightly related to the formation of biofilms in the irrigation system. We selected reclaimed water treated with cyclic activated sludge system (CASS) and four kinds of labyrinth emitters in cusp-shaped saw-tooth, rectangular straight-tooth, arc-shaped saw-tooth and arc-angular straight-tooth and studied the surface topographical characteristics of biofilms in different positions of reclaimed water drip irrigation emitters with the 3D white-light scanning interferometer (WLSI). The results showed that biofilms in different positions of units were different with each emitter while showing the largest thickness in water-side tooth-tip zone (>20 μm); the biofilm thickness in the same monitoring sites inside one unit segment gradually decreased along the flow direction, while the flow at the inlets was much larger than that at the outlets; comparing the head, middle and tail parts, the biofilm thickness at the inlet and outlet showed the largest in the tail part, followed by the middle and the head parts. This can be explained by the equilibrium relation between hydrodynamic behavior and the transportation of nutrient and particles inside the emitters. The water-side tooth-tip zone of the first unit in the last emitter was selected to monitor surface topographical characteristics of biofilms, and its biofilm thickness also could be used as the indicator for evaluating the characteristics of surface topography. These results were aimed to provide references to explain the emitter clogging mechanism of reclaimed water drip irrigation as well as its technological application and popularization.     

引黄滴灌水源中泥沙表面附生生物膜的分形特征

为了解决灌水器堵塞这个制约引黄滴灌技术应用和推广的关键问题,联合运用扫描电镜测试法和分形理论对黄河泥沙颗粒表面形貌进行了分析,结果表明:黄河泥沙颗粒表面形貌表现为以固体颗粒、微生物及其分泌的黏性胞外聚合物形成的复杂生物膜结构.黄河泥沙颗粒表面具有显著的分形和多重分形特征,简单分形维数虽然能从整体上表征颗粒物表面形貌的复杂性与不规则性,但未能刻画颗粒物局部奇异性的微观特征,而多重分形谱可以定量描述这种复杂泥沙颗粒形貌特征.黄河泥沙借助其巨大的表面积,吸附了大量的微生物,微生物分泌的胞外聚合物质量浓度高达276.08~360.68 mg/L,这就要求在控制引黄滴灌系统灌水器堵塞时,需要从以往单纯考虑泥沙颗粒物本身转变为综合考虑泥沙颗粒和微生物的耦合作用,寻求更为有效的堵塞控制策略.     

硅藻土微孔陶瓷灌水器水力性能研究

灌水器是渗灌系统的重要组成部分。针对硅藻土微孔陶瓷灌水器,测试了其在干燥状态和浸泡饱水状态下的压力流量特征;将渭河天然泥沙经140目筛子筛分(d≤300μm)后,配置成3种含沙量的浑水,对灌水器进行短周期灌水试验;用0.75 g/L的浑水进行灌水方法试验和灌水器浸泡饱水后灌水试验。结果表明,硅藻土微孔陶瓷灌水器压力与流量呈对数函数关系,随着压力增大,额定流量增大;清水灌溉时,随灌水次数增加,流量小幅度下降。灌水24次时,流量下降幅度约为10%;浑水试验时,流量除受灌水次数影响外,还受泥沙量的影响:相同灌水次数,含沙量增大时,流量下降幅度较大;浸泡处理减小了灌水器初始流量,减缓流量下降幅度。微观形貌进一步显示微孔陶瓷孔径在10~80μm范围内,因此含沙水灌溉严重影响灌水器使用效果。     

加气对滴头堵塞行为的影响

为探明加气滴灌下滴头堵塞规律及影响因素,选用4种不同特征参数(流量Q、最小断面尺寸min(W,D)和入水栅格面积M)的内镶贴片式滴头E1,E2,E3和E4,分别在加气(AI)和未加气(CK)条件下进行了滴头堵塞测试,并通过泥沙絮凝沉降试验对其结果进行了验证.结果表明:加气和滴头结构对滴头堵塞性能具有显著影响(P<0.05).加气加剧水中泥沙颗粒的絮凝沉降、加速絮凝颗粒在毛管内和流道入口的黏附、增大滴头入口发生突然堵塞风险是造成加气加剧滴头堵塞的主要原因;当选择入口尺寸较大的E4滴头时,其流道入口堵塞风险降低、流道内泥沙絮凝沉降速率减缓而表现出加气减缓滴头堵塞,而选择入口尺寸较小的E1—E3滴头时,其毛管内泥沙絮凝沉降速率增大、滴头入口堵塞风险增高而表现出加气加剧滴头堵塞.     

化学离子对再生水滴灌灌水器堵塞的影响

为探究不同化学离子(Fe2+、Ca2+)对滴灌灌水器堵塞发生过程的影响及堵塞机制,以二级处理再生水和地下水为水源,选取标称流量为1.1~1.8L/h的4种灌水器进行灌水器堵塞试验。试验中每天灌水12h,定期测定灌水器流量,试验结束后测定灌水器生物膜干重及胞外多聚物EPS重量。结果表明:化学离子改变生物膜的形成过程和结构稳定性,增加了堵塞物质的形成和生长速度;向地下水加入Fe2+增大灌水器发生生物化学堵塞的风险,地下水同时加入Fe2+、Ca2+,灌水器以化学堵塞为主;再生水加入Ca2+提高了灌水器化学堵塞风险,加入Fe2+或同时加入Fe2+、Ca2+增加了发生生物化学堵塞的风险。     

温室水肥滴灌系统迷宫式灌水器堵塞试验

为探明温室滴灌灌水器堵塞的影响因素及机理,研究了灌水量和施肥量对灌水器堵塞的影响,并利用场发射扫描电镜分析了灌水器内的堵塞物质。结果表明,灌水器平均流量随着灌水量和施肥量的增加呈下降趋势,下降幅度在1.51%~14.16%之间。方差分析表明施肥量对灌水器平均流量的影响达到极显著水平(P0.01)。解剖灌水器后发现堵塞物质多沉积在流道前部。堵塞物质主要由生料带残渣、微小沙粒和白色粉末状化学沉淀物组成,其中白色粉末主要由钙、镁、碳、氧、磷元素等组成。说明本试验中灌水器堵塞主要是由物理堵塞和化学堵塞共同作用引起的。     

低压滴灌施肥条件下温度对滴头堵塞的影响

【目的】探究低压滴灌施肥条件下温度对滴头堵塞的影响。【方法】采用短周期间歇灌水试验方法,考虑温度、运行压力、肥料质量浓度等因素,展开完全随机试验,研究滴头堵塞过程,寻求适宜的加肥质量浓度阈值。【结果】温度越高、运行压力越大、加肥质量浓度越低滴头堵塞风险越小;温度40℃时,运行压力50kPa、加肥质量浓度3g/L的处理具有最高的平均相对流量、均匀度系数以及最低的堵塞率;不同温度下加肥质量浓度阈值不同,温度10、20、30、40℃时加肥质量浓度阈值分别为4、5、7和8g/L。【结论】升高温度、提高运行压力、降低加肥质量浓度能有效降低滴头堵塞风险;升高温度还能提高加肥质量浓度阈值及水流携带固体颗粒的能力,但升高温度对滴头堵塞风险的降低程度随着压力的升高而减弱。     

Surface topographic characteristics of suspended particulates in reclaimed wastewater and effects on clogging in labyrinth drip irrigation emitters

Drip irrigation is the most effective and reliable method for reclaimed wastewater irrigation. Emitter clogging is the major problem for extending the drip irrigation technology. The existence of suspended particulates in irrigation water is the main reason for the emitter clogging. However, the reclaimed wastewater quality is extremely complex, and there is a series of physical, chemical, and biological reactions between suspended particulates and other materials contained such as microorganisms, which make the characteristics of suspended particulates in reclaimed wastewater complicated. In this paper, two types of widely used wastewaters treated with fluidized-bed reactor (FBR) and biological aerated filter (BAF) processes respectively were selected. The scanning electron microscope (SEM) technology and fractal theory were used to quantitatively describe the characteristics of the surface topography of suspended particulates. The results showed that the suspended particulates in two reclaimed wastewater were flocculent and porous. The pore system mainly consisted of solid suspended particulates, and most areas between the particulates were filled with microbes and extracellular polymers (EPS). The complex structure of biofilms was formed. That the biofilms grew and detached in irrigation system and deposited continuously at the inlet and outlet of labyrinth path was the major reason for the emitter clogging. The surface topography of suspended particulates in both reclaimed wastewaters showed fractal and multifractal characteristics, and the fractal dimension could not characterize the local and microsingularity of particulates but multifractal dimension could. The uniformity of the distribution of sediment pores increased with the size. Comparatively, the uniformity of suspended particulates in reclaimed wastewater treated by FBR was lower. With operation of reclaimed wastewater irrigation system, the average discharge of emitters decreased continuously with obvious fluctuations. The clogging degree of emitters was low during the first 256 h, and the clogging degree of the two types of reclaimed water was similar. But then, the degree of clogging increased greatly, and the FBR treatment on the emitters discharge were more obvious than BAF. It was closely related to the growth, detachments and sediment of biofilms in the irrigation system. Hence, using the reclaimed wastewater treated by BAF for drip irrigation is more suitable.     

Effect of flushing frequency on emitter clogging in microirrigation with effluents

Flushing is an important maintenance task that removes accumulated particles in microirrigation laterals that can help to reduce clogging problems. The effect of three dripline flushing frequency treatments (no flushing, one flushing at the end of each irrigation period, and a monthly flushing during the irrigation period) was studied in surface and subsurface drip irrigation systems that operated using a wastewater treatment plant effluent for three irrigation periods of 540 h each. The irrigation systems had two different emitters, one pressure compensating and the other not, both molded and welded onto the interior dripline wall, placed in laterals 87 m long. Dripline flow of the pressure compensating emitter increased 8% over time, while in the nonpressure compensating emitter, dripline flow increased 25% in the surface driplines and decreased 3% in the subsurface driplines by the emitter clogging. Emitter clogging was affected primarily by the interactions between emitter location, emitter type, and flushing frequency treatment. The number of completely clogged emitters was affected by the interaction between irrigation system and emitter type. There was an average of 3.7% less totally clogged emitters in flushed surface driplines with the pressure compensating emitter as compared to flushed subsurface laterals with the nonpressure compensating emitter.