评估 Freezanz 自动喷雾灭蚊系统。

IF 2.1 3区医学 Q2 PARASITOLOGY Acta tropica Pub Date : 2024-08-30 DOI:10.1016/j.actatropica.2024.107369

Muhammad Farooq , Asghar Talbalaghi , Rui-De Xue

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引用次数: 0

摘要

对于房主或小型企业来说，自动喷雾系统是一种控制成蚊的便捷方法。阿纳斯塔西娅蚊虫控制区（AMCD）收到了一个这样的系统，用于控制笼养的埃及伊蚊。该系统由 3 个喷洒槽、2 个泵、水位传感器和流量计组成，通过装有专用控制软件的安卓平板电脑进行控制。对该系统的评估包括校准测试、液滴特征描述、露天喷洒分散以及使用生物测定笼进行死亡率评估的有效性测试。在这些测试中，连接了一个由 14 个相距 4 米的喷嘴组成的环形喷管，喷管高度为 1 米，总长度为 120 米。所有喷嘴按东西方向布置成 16 × 12 米的矩形。在 13.0、15.5 和 18 巴压力下喷水进行校准和液滴大小测量；在 18 巴压力下喷水和 10% 红色染料溶液进行喷雾分散；在 18 巴压力下喷 0.17% 的均衡器 20-20 溶液进行死亡率测试。所有 3 次重复试验均在上午 9:00 至 11:30 之间进行。在此期间，温度为 21-26°C，相对湿度为 54-95%，风速为 0-2 公里/小时。所有 14 个喷嘴的综合流量受压力影响很大，与机器计算的流量一致。所有喷嘴的流量相似，标准误差为 0.82 毫升/分钟。DV0.1、DV0.5 和 DV0.9 所代表的液滴特性不受喷嘴的影响，但会随着压力的增加而降低。作为喷洒分散性的指标，卡片上的覆盖百分比从 20% 到 100% 不等，并且发现它随风的方向而增加。蚊子死亡率也呈现出类似的趋势，即随风向增加，从 30%到 100%不等。蚊笼的位置对蚊子死亡率没有影响。这些结果表明，这种喷雾剂的效果取决于风向。不过，在无风的情况下，结果可能会有所不同，而在喷洒这些药剂的时候，情况可能就是这样。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Evaluation of Freezanz automated misting system against mosquitoes

Automated misting systems are a convenient way for homeowners or small businesses to control adult mosquitoes. One such system was presented to the Anastasia Mosquito Control District (AMCD) for evaluation to control caged Aedes aegypti. The system consisted of 3 spray tanks, 2 pumps, water level sensors, and flow meters, and was controlled through an Android tablet loaded with dedicated control software. The evaluation of the system included calibration tests, droplet characterization, spray dispersion in the open field, and effectiveness testing using bio-assay cages for mortality assessment. For these tests, a loop of 14 nozzles 4 m apart was connected and held at 1 m height utilizing a total of 120 m tube. All nozzles were arranged in a 16 × 12 m rectangle laid in the East-West direction. Water was sprayed for calibration and droplet size measurements at pressures of 13.0, 15.5, and 18 bar; water and 10 % red dye solution for spray dispersion at 18 bar pressure, and 0.17 % solution of equalizer 20–20 was sprayed at 18 bar pressure for mortality tests. All 3 replicated tests were conducted in the morning between 9:00 and 11:30am. During this time, temperature ranged from 21 to 26 °C, relative humidity from 54 to 95%, and wind speed from 0 – 2 km/hr.

The combined flow rate from all 14 nozzles was significantly affected by pressure and was in agreement with the machine-calculated flow rate. There was a similar flow rate from all nozzles, indicated by a standard error of 0.82 mL/min. The droplet characteristics represented by D_V0.1, D_V0.5, and D_V0.9 were not affected by nozzles but decreased with an increase in pressure as expected. The percentage of coverage on the cards, an indicator of spray dispersion, ranged from 20 -100%, and it was found to increase in the direction of the wind. Mosquito mortality showed a similar trend of increasing in the wind direction and ranged from 30 to 100 %. There was no effect of the location of cages on mosquito mortality. These results indicate that the effectiveness of this spray depends upon wind direction. The results, however, may be different when there is no wind, which may be the case during the times these applications are made.

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来源期刊

Acta tropica 医学-寄生虫学

CiteScore

5.40

自引率

11.10%

发文量

383

审稿时长

37 days

期刊介绍： Acta Tropica, is an international journal on infectious diseases that covers public health sciences and biomedical research with particular emphasis on topics relevant to human and animal health in the tropics and the subtropics.