Analysis of Wastewater Production to Implement Circular Economy Solutions in a Smart Cities University Campus Living Lab

2019 IEEE International Smart Cities Conference (ISC2) Pub Date : 2019-10-01 DOI:10.1109/ISC246665.2019.9071711

Mercedes Gabriela Servin Aguilar, V. L. Rosillo, Cesar Omar Mora Perez, Ma. Roció Maciel Arellano, J. R. Beltrán-Ramírez, Jose Antonio Orizaga Trejo

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引用次数: 1

Abstract

The smart management of water resources needs to be addressed urgently, especially in “water-scarce” nations. Mexico not only is the eleventh most populated country in the world, but also has a higher urbanization rate than the global average. By 2010, seventy eight percent of inhabitants lived in cities; where the challenges of distributing resources to maintain a good quality of life still exist. Approximately eighty million Mexicans experience a lack of water provisioning for at least a month and twenty million citizens continue with severe shortages during more than half a year. Guadalajara is the second biggest city in Mexico and it has launched macro projects that have not met expectations. Therefore, this paper aims to propose a scalable solution, transforming traditional practices into Smart Cities ones. This analysis considers a circular economy model using information technologies to simulate the wastewater flows at the Living Lab of a University of Guadalajara Campus and evaluate the efficiency rate of two scenarios with a virtual bioreactor in comparison with published data of an existing treatment plant in Mexico City.

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在智慧城市大学校园生活实验室中实施循环经济解决方案的废水生产分析

水资源的智能管理需要紧急处理，特别是在“缺水”的国家。墨西哥不仅是世界上人口第11多的国家，而且城市化率也高于全球平均水平。到2010年，78%的居民居住在城市;分配资源以维持良好生活质量的挑战仍然存在。大约8000万墨西哥人缺水至少一个月，2000万公民在半年多的时间里继续严重缺水。瓜达拉哈拉是墨西哥第二大城市，它启动的宏观项目没有达到预期。因此，本文旨在提出一种可扩展的解决方案，将传统实践转化为智慧城市实践。本分析考虑使用信息技术的循环经济模型来模拟瓜达拉哈拉大学校园生活实验室的废水流，并通过虚拟生物反应器与墨西哥城现有处理厂公布的数据进行比较，评估两种方案的效率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 IEEE International Smart Cities Conference (ISC2)

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