01921940

Component

https://doi.org/10.1177/03611981241255364

Ports play a significant role in socio-economic development. However, the substantial carbon emissions generated during their operation processes pose serious health and environmental risks. Port operations involve a wide array of expensive equipment. With the current technological methods, it is possible to transform higher carbon-emitting equipment into lower carbon-emitting equipment through the implementation of emission reduction projects, thereby effectively reducing the carbon emissions of ports. This paper explores the combinatorial optimization methods in the implementation process of various emission reduction projects at container terminals from the perspective of port managers. Firstly, this paper refines the calculation method of estimating carbon emission reduction efficiency by implementing various emission reduction projects throughout the entire process from ship arrival to the completion of handling operations. Secondly, considering practical factors such as the required investment, emission reduction efficiency, and the impacts on port productivity associated with implementing varied emission reduction projects, a bi-objective combinatorial optimization model for emission reduction projects is formulated, with the objectives of minimizing both carbon emissions and the investment amount. An augmented ε-constraint method is introduced to obtain the Pareto solutions, which represent a series of implementation plans for emission reduction projects under different investment levels. Finally, the concept of the “emission reduction rate” is proposed to identify the optimal scheme from the Pareto solutions. The impacts of government carbon emission requirements, status of implemented emission reduction projects, container throughput, and differences in vehicle types on optimization results are explored, leading to several managerial insights. The optimization method can provide a theoretical basis for port managers to devise investment plans for emission reduction projects.

© The Author(s) 2024.

English

2024

Transportation Research Record: Journal of the Transportation Research Board

Web

References (46)

Air quality management; Container terminals; Equipment; Greenhouse gases; Investments; Optimization; Ports

Environment; Marine Transportation; Terminals and Facilities

TRIS, TRB

Jun 15 2024 3:00PM