Design of Hydroponic System Using NFT (Nutrient Film Technique) Method for Lettuce (Lactuca Sativa L.) Plant

FIDELITY Jurnal Teknik Elektro Pub Date : 2023-06-07 DOI:10.52005/fidelity.v5i2.152

Irfan Huda, Fitriana Fitriana, Herry Setyawan, Aji Brahma Nugroho

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Abstract

In this study, the hydroponic system for lettuce using the Nutrient Film Technique (NFT) method has been designed. The NFT method is a nutrient delivery method that flows nutrient-containing water and circulates it continuously, so that the roots do not easily rot. The hydroponic system designed in this study uses a DHT11 sensor to detect temperature and a pH sensor to detect pH. In addition, this study also varied the color of the light in the hydroponic system to determine the effect of light color on the growth of lettuce plants. The results of the DHT11 sensor testing showed that the temperature readings were approximately the same as the reference instrument, and the average error in the sensor readings was 1.89%. The average error of the pH sensor was 1.65%, and the average pH sensor value was 1.3%. Based on the measurement of lettuce plant growth, the highest growth was found in plants without using any light, and the widest plant was the one using yellow light with a width of 8.5 cm on day 14. The number of leaves for plants using red and yellow lights was the same, with 8 leaves.

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营养膜法生菜水培系统设计植物

本研究采用营养膜技术(NFT)设计了生菜水培系统。NFT法是一种养分输送方法，使含营养水不断流动并循环，使根部不易腐烂。本研究设计的水培系统采用DHT11传感器检测温度，pH传感器检测pH。此外，本研究还改变了水培系统中光的颜色，以确定光的颜色对生菜植株生长的影响。DHT11传感器测试结果表明，温度读数与参考仪器基本一致，传感器读数的平均误差为1.89%。pH传感器的平均误差为1.65%，pH传感器的平均值为1.3%。通过对生菜植株生长的测量，发现未光照植株生长最快，黄光处理植株生长最宽，第14天宽度为8.5 cm。使用红色和黄色光的植株叶片数相同，均为8片。

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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FIDELITY Jurnal Teknik Elektro

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