Analysis of a Sea Fog Episode at King George Island, Antarctica

Chen, Jianqiao; Han, Bo; Yang, Qinghua; Wei, Lixin; Zeng, Yindong; Wu, Renhao; Zhang, Lin; Ding, Zhuoming

doi:10.3390/atmos10100585

Cited by 6 publications

(2 citation statements)

References 38 publications

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“…Sea fog is typically unevenly distributed over the complex terrain of the NZP, with dense localized air-mass fog often concentrating in the port area [19]. According to data analysis, collisions account for 50% of accidents involving China Ocean Shipping Corporation vessels, and bad weather, particularly poor visibility, is the primary cause of collisions [20][21][22]. The visibility considerably influences the safety of vessel navigation, and dense fog has a pronounced adverse effect on maritime traffic.…”

Section: Introductionmentioning

confidence: 99%

Enhancing Maritime Safety and Efficiency: A Comprehensive Sea Fog Monitoring System for Ningbo Zhoushan Port

Hu,

Xu,

Yang

et al. 2023

Atmosphere

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Sea fog poses a considerable challenge to port operations, impacting maritime safety and efficiency. During the past five years, the average annual downtime of the navigation dispatch department in Ningbo Zhoushan Port due to weather was 800–1000 h, of which approximately 300 h can be attributed to sea fog. This study addresses the issue by developing a comprehensive sea fog monitoring system for Ningbo Zhoushan Port. The system utilizes automatic weather stations (AWS) and visibility laser imaging, detection, and ranging (LIDAR) to assess sea fog severity and improve monitoring accuracy. By increasing monitoring frequency and adopting corresponding warning measures, the system aims to enhance maritime safety and efficiency in Ningbo Zhoushan Port. The results showed that the implemented system successfully determines sea fog severity, enables real-time monitoring, and provides precise visibility assessments. Joint assessments revealed a substantial increase in the annual operating time and revenue of the port. These findings underscore the importance of advanced monitoring techniques in optimizing port operations, reducing collision risks, and mitigating economic losses caused by sea fog.

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Section: Introductionmentioning

confidence: 99%

Enhancing Maritime Safety and Efficiency: A Comprehensive Sea Fog Monitoring System for Ningbo Zhoushan Port

Hu,

Xu,

Yang

et al. 2023

Atmosphere

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show abstract

“…at 1.172 billion tons, ranking it the first in the world for the 12th consecutive year. Consequently, the meteorological fine (i.e., comprehensive and targeted) service demands, including the routing of ships, wharf stop, and port area operation, are very high, especially when sea fog [10][11][12] is present. Therefore, to improve the meteorological services, the Ningbo Meteorological Department built a modern marine monitoring system in the port.…”

Section: Introductionmentioning

confidence: 99%

Monitoring and analysis of sea fog in an offshore waterway using lidar

Yang²

2021

Opt. Eng.

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Until now, sea fog monitoring relied mainly on point monitoring equipment, such as a forward scatter visibility sensor mounted on the shore or on an island, which produce non-ideal data during a variable and unevenly distributed sea fog. In 2019, a visibility lidar instrument for sea fog monitoring was installed in the Beilun area of the Ningbo Zhoushan Port, China. Two sea fog events were monitored in February 2020, and the data from the lidar were compared with those from a forward scatter visibility sensor. The results show that the visibility lidar instrument is advantageous for sea fog monitoring, and the correlation of the lidar instrument data with the forward scatter sensor data demonstrates the utility and potential of the lidar for sea fog detection.

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Investigating the Sensitivity of Marine Fog to Physical and Microphysical Processes Using Large-Eddy Simulation

Wainwright

Richter

2021

Boundary-Layer Meteorol

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Analysis of a Sea Fog Episode at King George Island, Antarctica

Cited by 6 publications

References 38 publications

Enhancing Maritime Safety and Efficiency: A Comprehensive Sea Fog Monitoring System for Ningbo Zhoushan Port

Enhancing Maritime Safety and Efficiency: A Comprehensive Sea Fog Monitoring System for Ningbo Zhoushan Port

Monitoring and analysis of sea fog in an offshore waterway using lidar

Investigating the Sensitivity of Marine Fog to Physical and Microphysical Processes Using Large-Eddy Simulation

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