Abstract
As sustainable development has emerged as a priority on the international agenda, increasing emphasis has been placed on “Life Cycle Sustainability Assessment (LCSA),” wherein environmental, economic, and social performance are comprehensively integrated. This study, as part of an LCSA approach, uses Social Life Cycle Assessment (S-LCA) to analyze the worker category social impact for concrete plants in South Korea. For the analysis, three types of concrete plant with different operating systems were selected and evaluated: Direct operation, operated by dedicated concrete manufacturers, and operated by cement suppliers. Eleven major social topics, which were mentioned in the international standards and international institutes, were selected as the subjects of evaluation; the social impacts were evaluated by applying the evaluative criteria for social topics presented in the Handbook for Product Social Life Cycle Assessment of PRé Sustainability. We determined that the highest social impact was found in concrete plants operated by cement suppliers (0.77), followed by plants operated by dedicated concrete manufacturers (0.50), and finally by plants with direct operations (0.09). These results can be applied by concrete plants to improve worker category areas in which they are lacking and by future researchers to evaluate the sustainable development of a variety of industries.
Highlights
The practice of sustainable development is being emphasized in nearly every industry [1,2]
This study utilizes the Social Life Cycle Assessment (S-LCA) approach to analyze the social impacts of workers in different types of South Korean concrete plant operations as part of Life Cycle Sustainability Assessment (LCSA)
The concrete plants in South Korea were classified into three categories: Direct operation, plants operated by dedicated concrete manufacturers, and plants operated by cement suppliers, depending on the respective types of operation
Summary
The practice of sustainable development is being emphasized in nearly every industry [1,2]. The industry employs the technique of “Environmental Life Cycle Assessment (ELCA)” to develop technologies enabling the quantitative evaluation of the environmental performance of carbon-reduced concrete [5,9,10,11,12,13,14,15,16,17]. LCSA was established in 2011 by the United Nations Environment Programme (UNEP) [26] This method of evaluating sustainability quantifies the environmental, economic, and social impacts and benefits of a product system throughout its life cycle and comprehensively evaluates all aspects of the system. It consists of ELCA, ELCC, and S-LCA, as shown in Equation (1): LCSA = ELCA + ELCC + S-LCA.
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