Diseño e implementación de un sistema inteligente de irrigación para techos verdes considerando condiciones de clima cálido tropical

Autores/as

DOI:

https://doi.org/10.24054/rcta.v2i42.1296

Palabras clave:

Sistema de irrigación, techo verde, uso racional del agua

Resumen

La irrigación de techos verdes demanda estrategias activas como sistemas automatizados de irrigación para garantizar el uso racional de agua. Sin embargo, este sistemas deben propender por atender retos de los techos verdes como la horticultura y la integración de tecnologías de la información. Este artículo presenta el diseño e implementación de un sistema inteligente de irrigación para dos techos verdes en un edificio universitario. El sistema de irrigación opera basado en la humedad del sustrato por zona. Las variables monitorizadas son humedad y temperatura del sustrato. El comportamiento en tiempo real y los datos históricos puede ser visualizados por medio de una plataforma web usando IoT. Los resultados muestran que el sistema mejora el uso racional de agua, la humedad del sustrato influye en la temperatura de éste y la operación por zona permite la integración de diversos cultivos con diferentes necesidades de irrigación.

Descargas

Los datos de descargas todavía no están disponibles.

Citas

Cook, Lauren M., and Tove A. Larsen. 2021. “Towards a Performance-Based Approach for Multifunctional Green Roofs An Interdisciplinary Review.” Building and Environment 188(December 2020):107489.

George, Daniel R., Liza S. Rovniak, Jennifer L. Kraschnewski, Ryan Hanson, and Christopher N. Sciamanna. 2015. “A Growing Opportunity: Community Gardens Affiliated with US Hospitals and Academic Health Centers.” Preventive Medicine Reports 2:35–39.

Halgamuge, Malka N., Alexe Bojovschi, Peter M. J. Fisher, Tu C. Le, Samuel Adeloju, and Susan Murphy. 2021. “Urban Forestry & Urban Greening Internet of Things and Autonomous Control for Vertical Cultivation Walls towards Smart Food Growing: A Review.” 61(March).

Jha, Kirtan, Aalap Doshi, Poojan Patel, and Manan Shah. 2019. “A Comprehensive Review on Automation in Agriculture Using Artificial Intelligence.” Artificial Intelligence in Agriculture 2:1–12.

Kamienski, Carlos, Juha Pekka Soininen, Markus Taumberger, Ramide Dantas, Attilio Toscano, Tullio Salmon Cinotti, Rodrigo Filev Maia, and André Torre Neto. 2019. “Smart Water Management Platform: IoT-Based Precision Irrigation for Agriculture.” Sensors (Switzerland) 19(2).

Kashyap, Pankaj Kumar, Sushil Kumar, Ankita Jaiswal, Mukesh Prasad, and Amir H. Gandomi. 2021. “Towards Precision Agriculture: IoT-Enabled Intelligent Irrigation Systems Using Deep Learning Neural Network.” IEEE Sensors Journal 21(16):17479–91.

Morillo, J. García, M. Martín, E. Camacho, J. A. Rodrígue. Díaz, and P. Montesinos. 2015. “Toward Precision Irrigation for Intensive Strawberry Cultivation.” Agricultural Water Management 151:43–51.

Muangprathub, Jirapond, Nathaphon Boonnam, Siriwan Kajornkasirat, Narongsak Lekbangpong, Apirat Wanichsombat, and Pichetwut Nillaor. 2019. “IoT and Agriculture Data Analysis for Smart Farm.” Computers and Electronics in Agriculture 156(June 2018):467–74.

Nolz, R., P. Cepuder, J. Balas, and W. Loiskandl. 2016. “Soil Water Monitoring in a Vineyard and Assessment of Unsaturated Hydraulic Parameters as Thresholds for Irrigation Management.” Agricultural Water Management 164:235–42.

Osma-Pinto, G., and G. Ordóñez-Plata. 2019. “Measuring Factors Influencing Performance of Rooftop PV Panels in Warm Tropical Climates.” Solar Energy 185.

Osma-Pinto, German, and Laura Amado-Duarte. 2021. “Selection of the Control Alternative with the Minimum Energy Consumption for the Hybrid Illumination System of Inner Spaces.” Journal of Building Engineering 35(April 2020):102046.

Paraskevopoulou, Angeliki T., Panagiotis Tsarouchas, Paraskevi A. Londra, and Athanasios P. Kamoutsis. 2020. “The Effect of Irrigation Treatment on the Growth of Lavender Species in an Extensive Green Roof System.” Water 12(863):1–18.

Phasinam, Khongdet, Thanwamas Kassanuk, Priyanka P. Shinde, Chetan M. Thakar, Dilip Kumar Sharma, Khaja Mohiddin, and Abdul Wahab Rahmani. 2022. “Application of IoT and Cloud Computing in Automation of Agriculture Irrigation.” Journal of Food Quality 2022:1–8.

Rawal, Srishti. 2017. “IOT Based Smart Irrigation System.” International Journal of Computer Applications 159(8):7–11.

Seidel, S. J., S. Werisch, N. Schütze, and H. Laber. 2017. “Impact of Irrigation on Plant Growth and Development of White Cabbage.” Agricultural Water Management 187:99–111.

Shaheen, Sk Safiya, S. Bhagya Priya, and S. Harsha. 2021. “Smart Irrigation System Based on IoT.” International Journal of Trend in Innovative Research (IJTIIR) 3(3):28–31.

Susca, Tiziana. 2019. “Green Roofs to Reduce Building Energy Use? A Review on Key Structural Factors of Green Roofs and Their Effects on Urban Climate.” Building and Environment 162.

Zluwa, Irene, and Ulrike Pitha. 2021. “The Combination of Building Greenery and Photovoltaic Energy Production — A Discussion of Challenges and Opportunities in Design.” Sustainability 13(1537):1–29.

Publicado

2023-12-28 — Actualizado el 2023-12-28

Versiones

Cómo citar

[1]
A. M. Cristancho Juliao, G. A. Osma Pinto, y C. A. Duarte Gualdrón, «Diseño e implementación de un sistema inteligente de irrigación para techos verdes considerando condiciones de clima cálido tropical», RCTA, vol. 2, n.º 42, pp. 131–140, dic. 2023.