The efficiency of major container terminals in China: super-efficiency data envelopment analysis approach

Li, Liu-Liu; Seo, Young-Joon; Ha, Min-Ho

doi:10.1108/mabr-08-2020-0051

Cited by 22 publications

(6 citation statements)

References 38 publications

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“…For example, Jiaguo Liu et al [6] used the super-efficient SBM model and Tobit regression model considering non-desired output to evaluate the efficiency and influence factors of ports in five major FTAs in China. Shun Li et al [7] measured the environmental efficiency of ten container ports in China and examined their external environmental influences using a non-radial, nonangle SBM model and a panel Tobit model.Young-Tae Chang, Junhao Luo et al [8][9] used the SBM-DEA model and selected CO2 emissions as non-expected outputs to evaluate the environmental efficiency of Korean and Chinese ports, respectively. Taehwee Lee et al [10] used the SBM-DEA model to evaluate the environmental efficiency of port cities by considering carbon dioxide, sulfur dioxide and nitrogen oxides together.…”

Section: Literature Referencesmentioning

confidence: 99%

Evaluation of Environmental Efficiency of Chinese Coastal Ports under the Background of Ecological Civilization

Gao¹,

Zhou²

2023

FBEM

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In order to enhance the level of green and sustainable development of the economy, the national policy of ecological civilization construction is proposed. The 14 coastal ports with the top 20 container throughput in China in 2020 are taken as the research objects, and the environmental efficiency evaluation index system of ports is constructed by combining the requirements put forward by ecological civilization, and the three-stage SBM model is applied to measure the environmental efficiency of 14 coastal ports in China from 2012 to 2020. It was found that the overall green development of Chinese coastal ports was good, with half of the ports achieving effective environmental efficiency with a mean value of 0.804 and a large gap in environmental efficiency levels among ports. External environmental variables have significant effects on the environmental efficiency of ports, and the overall environmental efficiency of ports with ineffective environmental efficiency has improved after excluding the effects of external environmental variables and random errors. Therefore, for ports with ineffective environmental efficiency, policy-related contents should be implemented effectively according to the actual situation of the port, and the environmental efficiency of the port should be improved from the perspective of the change and development of the port hinterland city, combining three aspects of local economic conditions, policy environment and cultural awareness.

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Section: Literature Referencesmentioning

confidence: 99%

Evaluation of Environmental Efficiency of Chinese Coastal Ports under the Background of Ecological Civilization

Gao¹,

Zhou²

2023

FBEM

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“…The total capacity of Shanghai Port has surpassed 40 million TEU. SIPG aims to reduce energy consumption by 70% and reduce emissions to zero by developing a special port operating system (L.-L. Li et al, 2021). SIPG's research and development team of 200 people has set up a set of standards for the future of China's entire seaport automation platform.…”

Section: Typical Energy Management Models Of Typical Smart Portsmentioning

confidence: 99%

Technical-Environmental Assessment of Energy Management Systems in Smart Ports

Nguyen

Pham

Bui

2022

Int. J. Renew. Energy Dev.

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Shipping is facing huge pressure problems in this 21st century such as climate change and environmental pollution and the depletion of energy resources. Seaports are an important component of the shipping industry architecture. Although there is no common solution, seaports around the globe face the same challenge. Challenges raised include difficulties in integrating new technology into automation, traffic congestion, harmonizing residential communities around the port, quantifying and reducing CO2 emissions as well as planning for the energy transition. In addition, improving the adaptability of the port infrastructure in the context of increased pressure from market demand, labor shortage, and escalating prices should be considered. In that context, a smart port was born as a necessity. However, the understanding of smart ports is very limited. This review examines the recently published smart port literature to clarify the common concepts of smart ports and their development progress on the way to building a sustainable seaport ecosystem. Although smart port metrics and key port performance metrics are organized around four key performance areas including operations, environment, energy, and safety. However, a comprehensive review of all four key areas is very broad and difficult to cover in a review article. Therefore, this work focuses on analyzing and discussing the approaches and applications of the technology in smart port energy management systems. Our research has shown that different smart port founding perspectives play a decisive role in technology approaches to building a port energy management system including optimizing algorithms for energy consumption, balancing demand and energy production, and comprehensively integrating renewable energy. New findings in this study contribute to the elucidation of smart port concepts based on improving energy use and management efficiency with innovative technologies in the context of sustainable development of the shipping industry.

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“…However, many China container ports are still dominating global container throughput. The major Chinese container ports are not only strengthening their positions as pivotal container shipping ports but also are striving to become top international hubs (Li et al, 2021;Ma et al, 2021). The Chinese container ports have the prerequisite to becoming mega transshipment hubs due to good geographical location, free-trade area, fully modernized equipment, the application of information technology, and the ability to handle the largest ships.…”

Section: Introductionmentioning

confidence: 99%

Analyzing the international connectivity of the major container ports in Northeast Asia

Nguyen

Kim

2022

MABR

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PurposeThis study aims to identify the characteristics of the maritime shipping network in Northeast Asia as well as compare the level of port connectivity among these container ports in the region. In addition, this study analyses the change in role and position of 20 ports in the region by clustering these ports based on connectivity index and container throughput and route index.Design/methodology/approachThis study employs Social Network Analysis (SNA) to delineate the international connectivity of major container ports in Northeast Asia. Technique for Order of Preference by Similarity to Ideal Solution (TOPSIS) is used to identify each port's connectivity index and container throughput index, and the resulting indexes are employed as the basis to cluster 20 major ports by fuzzy C-mean (FCM).FindingsThe results revealed that Northeast Asia is a highly connected maritime shipping network with the domination of Shanghai, Shenzhen, Hong Kong and Busan. Furthermore, both container throughput and connectivity in almost all container ports in the region have decreased significantly due to the coronavirus disease 2019 (COVID-19) pandemic. The rapid growth of Shenzhen and Ningbo has allowed them to join Cluster 1 with Shanghai while maintaining high connectivity, yet decreasing container throughput has pushed Busan down to Cluster 2.Originality/valueThe originality of this study is to combine indexes of SNA into connectivity index reflecting characteristics of the maritime shipping network in Northeast Asia and categorize 20 major ports by FCM.

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The efficiency of major container terminals in China: super-efficiency data envelopment analysis approach

Cited by 22 publications

References 38 publications

Evaluation of Environmental Efficiency of Chinese Coastal Ports under the Background of Ecological Civilization

Evaluation of Environmental Efficiency of Chinese Coastal Ports under the Background of Ecological Civilization

Technical-Environmental Assessment of Energy Management Systems in Smart Ports

Analyzing the international connectivity of the major container ports in Northeast Asia

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