Tezislər / Theses
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- Bu səhifədəki naviqasiya:
- Supervisor: Aygul Musayeva Abstract
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THE 3
rd INTERNATIONAL SCIENTIFIC CONFERENCES OF STUDENTS AND YOUNG RESEARCHERS dedicated to the 99 th anniversary of the National Leader of Azerbaijan Heydar Aliyev 271 been established between the control loop devices. The system can monitor and control all parameter values, as well as the final control elements. In order to achieve and ensure a successful level control, the controller has been tuned by the adjustment of control parameters, such as proportional and integral terms. During the implementation stage, necessary documents for the system, such as I/O List, P&ID, BOM, Cause & Effect Diagram, Electrical diagram, Interconnection diagram and Instrument index has been developed. In conclusion, the level control loop for BHOS Emerson Test Rig has been developed by taking into account the considerations mentioned above and technology selection to satisfy safety requirements. As a contribution to the course curriculum, a laboratory work leaflet was prepared based on this project for the students. References [1] The Engineer's Guide to Level Measurement, Emerson, 2021. [2] Thomas A. Huges, "Measurement and Control Basics", Third edition. SMART IRRIGATION SYSTEM WITH RENEWABLE ENERGY Javid Isayev, Laman Hasanli, Farid Gahramanov, Sona Mehdizada Baku Higher Oil School Baku, Azerbaijan javid.isayev.std@bhos.edu.az, laman.hasanli1.std@bhos.edu.az, farid.gahramanov.std@bhos.edu.az, sona.mehtizada.std@bhos.edu.az Supervisor: Aygul Musayeva Abstract This paper explores the implementation of smart irrigation system with the renewable energy sources. Considering that agriculture is one of the most profitable areas in Azerbaijan’s economy, the attention should be given to increase the productivity and quality of cropping areas while at the same time reducing its time, water and money consumption and minimizing its adverse environmental impact. Therefore, in this paper, a solar powered smart irrigation system by utilizing soil moisture sensors that is connected to the Arduino Uno is investigated. According to the data received by sensors, system automatically can decide about the necessary actions that should be taken for maintaining the required moisture level and sends notification to the user. The other main concern of the paper is the utilization of the solar energy to eliminate the usage of fuel for powering pump and which can lead to air and water pollution. Keywords: Soil Moisture sensors, Arduino Uno, Solar Power, Smart Irrigation In order to provide good irrigation system, the specification of the water pump should meet the requirements of the land area which is being irrigated. Therefore, we initially should calculate the total land area for irrigation and then the suitable water pump should be chosen. Moreover, with respect to |