Purihin, Hanjin dR., author
Solar Powered Aeroponics System with Automatic Monitoring and Cycle Timer / Hanjin dR. Purihin and Kristine C. Naval - Rosario, Cavite : Cavite State University-CCAT Campus, 2018 - xv, 67 leaves : illustrations ; 28 cm
Project Design (BSEE)--Cavite State University-CCAT Campus, 2018.
Includes bibliographical references and appendices.
PURIHIN, HANJIN DR., NAVAL, KRISTINE C. Solar Powered Aeroponics System with Automatic Monitoring and Cycle Timer. Design Project. Department of Engineering. Cavite State University-Cavite College of Arts and Trades Campus, Rosario, Cavite. June 2018. Adviser: Mr. Junck P. Paulino.
The study was conducted from July 20 I 7 to April 2018 to develop a solar powered aeroponic system with automatic monitoring and cycle timer. Specifically, the study aimed to: 1) design and construct a solar powered aeroponic system with automatic monitoring of the quality of the nutrient medium and a cycle timer for automatic spraying schedule; 2) evaluate the functionality of the system based on charging and discharging time of the battery which supplies power to the nutrient pump, accurate monitoring of the temperature of the nutrient medium, level and pH, and growth parameters of plants including height and root length as indicators of the system functionality of the system; and 3) conduct an economic analysis of the aeroponics system. The aeroponics system was constructed with an automatic monitoring of the temperature, pH and volume of the nutrient medium in the reservoir. A solar PV system was used to generate electricity to supply the nutrient pump. The nutrient pump forces the water from the reservoir to the micro sprayers in the lateral lines of the PVC pipe network which sprays water into the roots of the plants. The results of the evaluation revealed that the solar-powered aeroponics system with automatic monitoring and cycle timer is feasible and reliable. The power generation of the solar PV system is sufficient for the sustainable operation of the aeroponics system. Moreover, the monitoring system is effective and reliable in monitoring the temperature, pH level and volume of nutrient medium in the reservoir which arc critical factors to the growth of the plants.
Solar power, Aeroponics system--Design and construction.
Greenhouse.
Solar energy
Photovoltaic power system.
UM TK 1087 / P87 2018
Solar Powered Aeroponics System with Automatic Monitoring and Cycle Timer / Hanjin dR. Purihin and Kristine C. Naval - Rosario, Cavite : Cavite State University-CCAT Campus, 2018 - xv, 67 leaves : illustrations ; 28 cm
Project Design (BSEE)--Cavite State University-CCAT Campus, 2018.
Includes bibliographical references and appendices.
PURIHIN, HANJIN DR., NAVAL, KRISTINE C. Solar Powered Aeroponics System with Automatic Monitoring and Cycle Timer. Design Project. Department of Engineering. Cavite State University-Cavite College of Arts and Trades Campus, Rosario, Cavite. June 2018. Adviser: Mr. Junck P. Paulino.
The study was conducted from July 20 I 7 to April 2018 to develop a solar powered aeroponic system with automatic monitoring and cycle timer. Specifically, the study aimed to: 1) design and construct a solar powered aeroponic system with automatic monitoring of the quality of the nutrient medium and a cycle timer for automatic spraying schedule; 2) evaluate the functionality of the system based on charging and discharging time of the battery which supplies power to the nutrient pump, accurate monitoring of the temperature of the nutrient medium, level and pH, and growth parameters of plants including height and root length as indicators of the system functionality of the system; and 3) conduct an economic analysis of the aeroponics system. The aeroponics system was constructed with an automatic monitoring of the temperature, pH and volume of the nutrient medium in the reservoir. A solar PV system was used to generate electricity to supply the nutrient pump. The nutrient pump forces the water from the reservoir to the micro sprayers in the lateral lines of the PVC pipe network which sprays water into the roots of the plants. The results of the evaluation revealed that the solar-powered aeroponics system with automatic monitoring and cycle timer is feasible and reliable. The power generation of the solar PV system is sufficient for the sustainable operation of the aeroponics system. Moreover, the monitoring system is effective and reliable in monitoring the temperature, pH level and volume of nutrient medium in the reservoir which arc critical factors to the growth of the plants.
Solar power, Aeroponics system--Design and construction.
Greenhouse.
Solar energy
Photovoltaic power system.
UM TK 1087 / P87 2018