Abstract:
Recently the need for plant factory is increasing in Korea and abroad in order to increase the amount of crop production throughout the year, to minimize the impact of rapidly changing environmental changes, to prefer high-quality foods by the pesticide-free method, and to supply agricultural products with low weather dependence. Interest in plant factory is increasing, but commercial production systems are still in their infancy. Since there is no separate control system to maintain the appropriate carbon dioxide concentration to maximize plant photosynthesis. Therefore, the purpose of this study is to ensure self-sufficiency of fresh vegetables without pesticides and chemical fertilizers throughout the year. For this purpose, an IT-based integrated management system is developed to build a plant factory production automation model. Also, using the oxygen produced through photosynthesis of plants and carbon dioxide produced by plant breathing, we study a continuous circulation system capable of supplying carbon dioxide for plant photosynthesis while fresh oxygen free of contaminants is supplied to the internal space.
Keywords:
Plant Factory, Integrated IT Management, Carbon Dioxide, Automatic Control, Agricultural Products
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Citations:
APA:
Lee, D. O. (2020). Development of Plant Factory Production System Using Carbon Dioxide and IT-based Integrated Control System. International Journal of Advanced Science and Technology (IJAST), ISSN: 2005-4238(Print); 2207-6360 (Online), NADIA, 135, 25-36. doi: 10.33832/ijast.2020.135.03.
MLA:
Lee, Dong Oun “Development of Plant Factory Production System Using Carbon Dioxide and IT-based Integrated Control System.” International Journal of Advanced Science and Technology, ISSN: 2005-4238(Print); 2207-6360 (Online), NADIA, vol. 135, 2020, pp. 25-36. IJAST, http://article.nadiapub.com/IJAST/Vol135/3.html.
IEEE:
[1] D. O. Lee "Development of Plant Factory Production System Using Carbon Dioxide and IT-based Integrated Control System." International Journal of Advanced Science and Technology (IJAST), ISSN: 2005-4238(Print); 2207-6360 (Online), NADIA, vol. 135, pp. 25-36, Feb 2020.
