Optimizing Urban Construction and Demolition Waste Management System Based on 4D-GIS and Internet Plus

  • Wang, Huiyue (School of Civil Engineering, Shenzhen University) ;
  • Zhang, Tingning (School of Civil Engineering, Shenzhen University) ;
  • Duan, Huabo (School of Civil Engineering, Shenzhen University) ;
  • Zheng, Lina (School of Civil Engineering, Shenzhen University) ;
  • Wang, Xiaohua (School of Civil Engineering, Shenzhen University) ;
  • Wang, Jiayuan (School of Civil Engineering, Shenzhen University)
  • Published : 2017.10.27

Abstract

China is experiencing the urbanization at an unprecedented speed and scale in human history. The continuing growth of China's big cities, both in city land and population, has already led to great challenges in China's urban planning and construction activities, such as the continuous increase of construction and demolition (C&D) waste. Therefore, how to characterize cities' construction activities, particularly dynamically quantify the flows of building materials and construction debris, has become a pressing problem to alleviate the current shortage of resources and realize urban sustainable development. Accordingly, this study is designed to employ 4D-GIS (four dimensions-Geographic Information System) and Internet Plus to offer new approach for accurate but dynamic C&D waste management. The present study established a spatio-temporal pattern and material metabolism evolution model to characterize the geo-distribution of C&D waste by combing material flow analysis (MFA) and 4D-GIS. In addition, this study developed a mobile application (APP) for C&D waste trading and information management, which could be more effective for stakeholders to obtain useful information. Moreover, a cloud database was built in the APP to disclose the flows of C&D waste by the monitoring information from vehicles at regional level. To summarize, these findings could provide basic data and management methods for the supply and reverse supply of building materials. Meanwhile, the methodologies are practical to C&D waste management and beyond.

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Acknowledgement

The support of Natural Science Foundation of Guangdong Province (2017A030313438) and Shenzhen Science and Technology Plan (no. JCYJ20160520173631894 and JCYJ20150525092941042) is gratefully acknowledged.