Abstract
Local residents living adjacent to ports are directly affected by the fine dust generated from the port operations. There is a need to prepare detailed measures according to cargo type given the high correlation between the types of dust-producing cargo primarily managed at ports and local industries. This study attempts to establish the attributes of the cargo handled at ports and the relationship between supply chains built for local key industries and the air quality of the local community. It aims to ascertain which cargo needs managing preemptively at the local level, based on the major cargo types handled in a port. A correlation analysis and Granger causality test were performed to investigate the causality between the factor of cargo and fine dust concentrations. The results in this study indicate the necessity for intensive management of scrap metal cargo among the major cargo handled at the target port, which confirms the large effect of management on fine dust reduction, as well as on reduction efficiency. The results suggest requirements to expand the regulations on the emissions of supply chains by cargo type, not by industry type. Additionally, it is required to minimize the blind spots of management and form an eco-friendly supply chain by introducing green technology. The preparation of emission control measures is also necessary. The findings provide useful insights for the sustainable operations of the local supply chain around the target port and will help the strategic agenda for future improvement.
Highlights
Ports create the foundations of supply chains in various fields, such as the logistics, trade, and manufacturing industries, and greatly contribute to national and regional economic growth
To ascertain the relationship between the bulk cargo primarily managed in Gamcheon Port and fine dust concentrations, a correlation analysis between those variables was first conducted
A causality test will be conducted on the fine dust concentrations from sand and scrap metal derived in this analysis
Summary
Ports create the foundations of supply chains in various fields, such as the logistics, trade, and manufacturing industries, and greatly contribute to national and regional economic growth. It has become mandatory for ports to implement measures to reduce the hazards of air pollution such as NOX (Nitrogen Oxide), SOX (Sulphur dioxide), VOCS (Volatile Organic Compounds), CO (Carbon Monoxide), and PM (Particulate Matter) to maintain sustainability, in the economic field for short-term performance and in the environmental field over the long term. The International Maritime Organization (IMO) has been working on continuous countermeasures to reduce the air pollutants emitted from ships since 1997 and has sought to improve the air quality around port areas by designating Emission Control Areas since 2015. Since the chief target managed by the IMO’s regulations of air pollutant emissions is ships, the IMO has adopted an approach to improve air quality around port areas by decreasing the quantity of emissions generated from ships. The primary air pollutants regulated by IMO2020 are NOX and SOX, and those
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
