2020
DOI: 10.1002/sd.2119
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Promoting effective construction and demolition waste management towards sustainable development: A case study of Hong Kong

Abstract: Construction and demolition (C&D) waste accounts for a large proportion of solid waste, thus effective C&D waste management is essential for promoting sustainable development. In Hong Kong, the government has promulgated a series of policies to encourage related stakeholders to implement effective C&D waste management.

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Cited by 72 publications
(26 citation statements)
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“…Although this impact is not as strong as economic and social impacts, it has a medium to large effect on the overall model, which is consistent with the findings of [44]. Factors such as environmental pollution, environmental impacts of landfilled waste, and detrimental impacts of illegal waste dumping have been proven effective in WMH in many studies [10,114].…”
Section: Synthesis Of Empirical Findingssupporting
confidence: 74%
“…Although this impact is not as strong as economic and social impacts, it has a medium to large effect on the overall model, which is consistent with the findings of [44]. Factors such as environmental pollution, environmental impacts of landfilled waste, and detrimental impacts of illegal waste dumping have been proven effective in WMH in many studies [10,114].…”
Section: Synthesis Of Empirical Findingssupporting
confidence: 74%
“…According to Jaillon et al [34], prefabrication application increased the average construction and demolition waste reduction level to 52%. On the one hand, the application of prefabricated construction combined with some emerging technologies, such as Building Information Modelling (BIM, a developing technology to form, organize, and manage throughout the construction project [35], radio frequency identification (RFID, a technology that used radio waves to identify objects [36], and Internet of Things (IoT, a new technology paradigm that was conceived to realize the interaction of machines and devices around the world [37]), reduced the production of construction waste at sources [5,38]. On the other hand, during the manufacturing stage, a large amount of wet work was transferred to the factory, prefabricated components were produced in a mechanized, standardized, and intelligent production line, resulting in a significant reduction in waste generation [39].…”
Section: Environmental Sustainabilitymentioning
confidence: 99%
“…As shown in Figure 2, recycling is the last resort before disposing of the construction waste by incineration or disposal. Hong Kong's construction waste management has been included in the "3R + I" principle compared to the traditional "3R" strategy as Hong Kong generates a large proportion of timber waste and has limited landfill space [14]. Moreover, Umar et al also emphasized the addition of Rethink," Redesign and Refurbish to the waste hierarchy principle to promote optimum profits from products and reduce waste generation [1].…”
Section: Construction Waste Managementmentioning
confidence: 99%
“…During the stimulation journey of green building in Singapore, the adoption of GBRS, namely Green Mark, plays an important role in boosting construction stakeholders' green behavior [19]. Moreover, a general waste collection system was introduced to facilitate the waste recycling process in Singapore [14]. However, the description of the recycling process of construction waste is limited, even though NEA did specify that crushed concrete will be used to produce recycled aggregates for structural and non-structural applications.…”
Section: Singaporementioning
confidence: 99%