自动捕虫器的设计。基于太阳能电池作为刺痛能量的来源

IF 4.6 Q1 OPTICS Journal of Physics-Photonics Pub Date : 2023-11-01 DOI:10.1088/1742-6596/2623/1/012010
R E Rachmanita, S Anggraini, M I R Apriadana
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引用次数: 0

摘要

摘要对咖啡植物造成危害的害虫之一是hampei Ferr。这就导致了水果蛀虫的袭击。本研究旨在设计一种基于太阳能电池板的汉贝捕集器。该工具根据太阳能充电控制器上的设置自动工作;能有效捕获汉贝氏弧菌;该工具具有低电流(DC),对农民安全;该工具可以在远离PLN的种植区使用,因为电能来源来自太阳能电池;维护成本相对便宜,但该工具设计用于长期运行。H. hampei捕集器使用太阳能电池板作为能源,并配备了一个推力杆,该推力杆通过利用太阳能充电控制器功能自动工作。功能测试结果表明,所设计的工具能够很好地按照所制定的方案工作。推力杆的平均消耗为23.70 Wh。平均面板发电量为26.85 Wh。面板的能量输出已经超过了推力杆所需的能量。该工具设计用于捕获H. hampei井。
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Design of Automatic Insect Trap Hypothenemus hampei Ferr. based on Solar Cells as a Source of Stinging Energy
Abstract One of the plant-disturbing organisms that always harms coffee plants is the insect Hypothenemus hampei Ferr. which causes fruit borer attacks. This study aims to design a solar panel-based H. hampei trapper. This tool is designed to work automatically according to the settings on the solar charge controller; it can catch H. hampei effectively; this tool has a low current (DC) that is safe for farmers; this tool can be used in plantation areas far from PLN because the source of electrical energy comes from solar cells; maintenance costs are relatively cheap, but the tool is designed to operate in the long term. The H. hampei trap uses solar panels as an energy source and is equipped with a stinger that works automatically by utilizing the solar charge controller feature. The functional test results show that the tool that has been designed can work well according to the plan made. The average consumption of stingers is 23.70 Wh. The average panel energy yield is 26.85 Wh. The panels’ energy output has exceeded the amount of energy the stingers need. The tool is designed to trap H. hampei well.
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来源期刊
CiteScore
10.70
自引率
0.00%
发文量
27
审稿时长
12 weeks
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