An agent based environmental impact assessment of building demolition waste management: Conventional versus green management
Authored by Zhikun Ding, Yifei Wang, Patrick X W Zou
Date Published: 2016
DOI: 10.1016/j.jclepro.2016.06.054
Sponsors:
United States National Science Foundation (NSF)
Ministry of Education of P.R.C
Scientific Planning Research Grant
Ministry of Housing and Urban-Rural Development of P.R.C
Platforms:
C++
Java
Model Documentation:
Other Narrative
Flow charts
Model Code URLs:
Model code not found
Abstract
Waste materials generated from building demolition have become a great
challenge to sustainable urban development due to its consumption of the
limited landfill spaces, water pollution, energy consumption and harmful
gas emissions. Proper management of demolition waste (DW) is a complex
process and requires systematic thinking and analysis. Many methods have
been proposed to study the environmental impact assessment of demolition
waste management (DWM). However, it is found that the currently
available studies pay little attention from the perspective of complex
adaptive system (CAS) to consider the attitude and interaction of the
heterogeneous stakeholders as well as the importance of green DWM which
has a great influence on the effectiveness of DW management. The aim of
this research is to simulate and explore how the change of attitude and
the dynamic interaction among heterogeneous stakeholders can influence
the environmental performance of DWM. To achieve this aim, a model for
evaluating the environmental impact of DWM was developed by using an
agent-based modeling (ABM) approach. The main factors considered in the
model are the ratio of green deconstruction (i.e., building
deconstruction) managers vs. conventional demolition (i.e. building
destruction) managers, the ratio of green design managers (i.e. design
for deconstruction) vs. conventional design managers, and the
interaction behavior of heterogeneous stakeholders following the herd
theory. In the model, the environmental impact assessment was quantified
into four categories i.e. land resources, water resources, air resource
and energy resources. The proposed model is demonstrated by using the
data drawn from the Chinese construction industry. The results reveal
that if the deconstruction method and the deconstruction oriented design
are widely adopted by architects and engineers, the negative
environmental impacts generated by DW can be reduced by at least 50\%.
Furthermore, the results provide valuable information for government
departments to make decisions on how to improve environmental
performance of DWM. (C) 2016 Elsevier Ltd. All rights reserved.
Tags
System dynamics
Design
Performance
herd behavior
supply-chain
Life-cycle assessment
Construction waste
Economic-analysis
Lca methodology
Deconstruction