Design of a Smart Agri-voltaic system for irrigation purposes considering major crops

Abstract

Products and farming equipment’s are continually being upgraded. In Bangladesh, physical labor is used primarily in farming. Here, automated farming has not yet been implemented. Our initiative aims to implement a fundamental strategy to combine solar power and smart IoT systems for farming in our nation. It is an automated farming system created as an Android application that is used to select the best crop before the cultivation process begins based on the area of the producing land. According to studies, PV systems in agriculture are the greatest ways to meet the agricultural needs of rural places. The use of solar energy offers the potential to offer emissions-free energy services. It has a plentiful supply because it is a renewable energy source. The solar power pumping system can be employed in Bangladesh's distant or rural areas where there isn't much access to energy. A solar-powered pumping system can transport water or be used for irrigation. Dieselpowered pumping systems have a low initial cost, but their upkeep and operation are expensive and challenging. The solar-powered pumping system, however, operates almost entirely in the other way. Although it costs a lot up front, operating it is significantly less expensive. An effective, straightforward, and dependable solar pumping system will be created. This method can meet the need for water in agriculture and will be economically viable

Description

Cataloged from PDF version of thesis.
Includes bibliographical references (pages 79-80).
This thesis is submitted in partial fulfillment of the requirements for the degree of Bachelor of Science in Electrical and Electronic Engineering, 2022.

Keywords

Irrigation, Smart agri voltic, IOT based irrigation, Solar power, DC-AC pump structure, Solar system for irrigation, Irrigation on major crops

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