水温对不同流量、类型和距离的放水器流量及均匀性参数的影响

4区农林科学

Tarim Bilimleri Dergisi-journal of Agricultural Sciences Pub Date : 2017-01-01 DOI:10.15832/TBD.30670

U. Şenyiğit

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引用次数: 4

摘要

在土耳其伊斯帕塔苏莱曼德米雷尔大学灌溉实验室建立的灌水试验台上进行了研究。在本研究中，不同放电强度(D1: 2.4 L h-1, D2: 4.0 L h-1)、类型(TB:压力补偿、TT:无压力补偿)和距离(A1: 20 cm、A2: 33 cm、A3)的直列发射器的放电方程(q= kHx)、标准温度放电指数(TDI，标准温度为20℃)和制造变异系数(CV)、标准均匀性(Us)、克里斯蒂安森均匀性(Cu)、发射均匀性(CUE)等均匀性参数:在不同的水温(20、30、40和50℃)下，测定了50 cm的厚度。研究了不同压力(80 ~ 200kpa)对发射器放电的影响。非压力补偿发射器的放电随压力的增加而增加(r≈0.99)。尽管压力补偿型放电器在高压力或推荐压力下放电稳定，但与无压力补偿型放电器一样，低压下放电有增加的趋势。无压力补偿和有压力补偿排放器的排放量与水温呈线性回归关系(r≈0.99)。在无压力补偿和有压力补偿的排放器中，由于水温升高，排放器排放量分别增加了约5%和3%。随着水温的升高，无压力补偿型喷射器的TDI值在0.04 ~ 0.06之间增大。在压力补偿型排放器中，随着水温的升高，D1A1TB排放器的TDI值降低了0.02,D1A2TB排放器的TDI值没有变化，其余4个排放器的TDI值均在0.01 ~ 0.02之间升高。不同水温下排放物的Cv、Us、Cu和CUE值分别为0.023 ~ 0.044、96.6 ~ 97.7%、96.6 ~ 98.1%和89.3 ~ 96.0%。在不同水温、不同发射极类型和不同发射极距离条件下，各参数均有显著差异。总体而言，高水温条件下，均匀性参数得到改善，且均匀性参数在A2距离处达到最大值(P<0.01)。

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The Effects of Water Temperature on Discharge and Uniformity Parameters of Emitters with Different Discharges, Types and Distances

The research was conducted on emitter testing bench established in Irrigation laboratory, Suleyman Demirel University, Isparta, Turkey. In the study, discharge equations (q= kHx), standard temperature discharge index (TDI, standard temperature is 20 oC) and uniformity parameters such as coefficient of manufacturing variation (CV), standard uniformity (Us), Christiansen uniformity (Cu) and emission uniformity (CUE) of in-line emitters with different discharges (D1: 2.4 L h-1 and D2: 4.0 L h-1), types (TB: Pressure compensating, TT: Non-pressure compensating) and distances (A1: 20 cm, A2: 33 cm and A3: 50 cm) under different water temperatures (20, 30, 40 and 50 oC) were determined. Effects of different pressures (from 80 to 200 kPa) on discharge of the emitters were also investigated. Discharges of non-pressure compensating emitters were increased by increasing pressure (r≈ 0.99). Although discharge was stable under high or recommended pressure in pressure compensating emitters, there was an increasing trend in emitter discharge under low pressure like non-pressure compensating emitters. Linear regressions were obtained between discharge and water temperature in non-pressure compensating and pressure compensating emitters (r≈ 0.99). Emitter discharge increased due to water temperature increase approximately 5 and 3% in non-pressure compensating and pressure compensating emitters, respectively. TDI values of non-pressure compensating emitters increased between 0.04 and 0.06 with increasing water temperature. In pressure compensating emitters, TDI values decreased 0.02 in D1A1TB emitter, did not change in D1A2TB emitter, and increased between 0.01 and 0.02 in other four emitters with increasing water temperature. Cv, Us, Cu and CUE values of the emitters under different water temperatures ranged between 0.023-0.044, 95.6-97.7%, 96.6-98.1% and 89.3-96.0%, respectively. Significant differences were obtained for each of these parameters in different water temperatures, emitter types and emitter distances. Generally, uniformity parameters improved in high water temperatures and the highest values of uniformity parameters were obtained from A2 emitter distance in the tested emitters (P<0.01).

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来源期刊

Tarim Bilimleri Dergisi-journal of Agricultural Sciences 农林科学-农业综合

CiteScore

1.40

自引率

0.00%

发文量

期刊介绍： Journal of Agricultural Sciences (JAS) is an international, double-blind peer-reviewed, open-access journal, published by the Faculty of Agriculture, Ankara University. The journal invites original research papers containing new insight into any aspect of Agricultural Sciences that are not published or not being considered for publication elsewhere. Preliminary, confirmatory or inconclusive research, review articles, case and local studies and works presenting taxonomy will not be published.