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Global Automated Mooring Systems Market Size By Type (Vaccum Mooring and Magnetic Mooring), By Anchor Type (Vertical Loaded Anchors, Drag Embedment Anchors), By Application (Tension Leg Platform (TLP), Floating Liquefied Natural Gas (FLNG)), By Mooring Type (Spread Mooring, Single Point Mooring), By Geographic Scope And Forecast


Published on: 2024-08-05 | No of Pages : 320 | Industry : latest updates trending Report

Publisher : MIR | Format : PDF&Excel

Global Automated Mooring Systems Market Size By Type (Vaccum Mooring and Magnetic Mooring), By Anchor Type (Vertical Loaded Anchors, Drag Embedment Anchors), By Application (Tension Leg Platform (TLP), Floating Liquefied Natural Gas (FLNG)), By Mooring Type (Spread Mooring, Single Point Mooring), By Geographic Scope And Forecast

Automated Mooring Systems Market Size And Forecast

Automated Mooring Systems Market size was valued at USD 1.41 Billion in 2024  and is projected to reach USD 1.86 Billion by 2031, growing at a CAGR of 3.86% from 2024 to 2031.

The changing preference for using technologically advanced systems to boost drilling capacity in both deep and ultra-deep glasses of water is likely to fuel the decision for an automated mooring system. The Global Automated Mooring Systems Market report provides a holistic evaluation of the market. The report offers a comprehensive analysis of key segments, trends, drivers, restraints, competitive landscape, and factors that are playing a substantial role in the market.

Global Automated Mooring Systems Market Definition

An automated mooring system is a vacuum-based automatic technology that allows a vessel to be moored without a rope. The technology enhances operational efficiency, improves safety, and enables ports to save on infrastructure by reducing the need to increase the berth capacity. An automated mooring system reduces carbon dioxide emissions, fuel consumption, and docking time. It also eliminates the non-productive berth space in-between ships and at the end of the quay.

Automation plays a fundamental role in the marine industry. Incorporating the automation process is essential for the expansion of port operations and for sustained expansion. The automated lashing system reduces the handling of any equipment and therefore minimizes the need for total labor. Additionally, these automated mooring systems can be controlled via radio remote control from shore or on board the ship. In addition, the automated mooring system also eliminates non-productive docking areas at the end of the dock and between ships. Automated mooring broadens the operational window of product transmission through a greater variety of berthing and environmental situations, reduces resource and space requirements, improves safety, requires less time to moor ships, and can reduce infrastructure investment to increase berthing capacity.

The automated mooring system reduces fuel consumption, CO2 emissions, and docking time. The catenary automatic mooring system is mainly employed in shallow water. The single-point automated tie-down system is widely employed for floating production storage and offloading applications. The FPSO is estimated to have the largest share of the worldwide market for automated mooring systems. However, the tension leg platform is likely to experience significant expansion during the foreseen period. The dynamic positioning automated mooring system is in its introduction phase and is employed in semi-submersible and FPSO applications.

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Global Automated Mooring Systems Market Overview

The market implies that automated lashing systems increase greatly with the escalating call for efficient and safe operations. The changing preference for using technologically advanced systems to boost drilling capacity in both deep and ultra-deep glasses of water is likely to fuel the decision for an automated mooring system. The automated mooring system offers improved cargo handling operations, shorter wait times (resulting in shorter stays in port), and efficient terminal utilization. The use of these systems can ensure faster and a lot of reliable mooring through the automation of routine tasks which will otherwise go unattended. It is widely believed across the modern marine business that automatic systems breed larger efficiency and savings in terms of expenditure and time. The overarching growth in marine vessel fleets has made it necessary to deploy hybrid mooring models that club human supervision and marine automation. Within the companies, as corporations embrace digital transformation and automation with greater aplomb, automated mooring systems may supersede all other technologies in terms of popularity and demand.

In addition, a mooring system takes up considerable resources in terms of the Levelized Cost of Energy (LCOE) for ocean renewable energy converters and offshore wind turbines. The mooring system can take up to 20–30% of the total construction cost of the wave energy converters. Furthermore, as offshore wind turbines are installed in deeper waters to harness steadier and stronger winds with less visual impact, the mooring system cost is dramatically increased, as it must be able to withstand the harsh environmental conditions of the ocean. Therefore, the high cost of the mooring system hinders the commercialization of renewable energy converters, and it is essential to reduce the mooring system cost to a competitive level while satisfying the design constraints at a minimum level. address the needs of optimization in a mooring system, the application of an optimization method into the design procedures of a mooring system in a frequency domain proved that an optimization method is a powerful tool for the conceptual design of a mooring system in the early stage.

The growth of the vessel mooring system market is highly augmented by the development of vessels such as floating, production, fluidized liquid natural gas (FLNG) and floating, drilling, production, and storage and offloading (FDPSO), and others. The automated mooring system market is fuelled by three important factors notably rising subsea exploration, drilling, and production activities, and a surge in global energy demands. Due to the growing energy demand, subsea exploration and production are on the rise globally which in turn increases the demand for automated mooring systems.

Global Automated Mooring Systems MarketSegmentation Analysis

The Global Automated Mooring Systems Market is segmented on the basis of Type, Anchor Type, Application, Mooring Type, and Geography.

Automated Mooring Systems Market, By Type

• Vaccum Mooring• Magnetic Mooring

To Get Summarized Market Report By Type-

Based on Type, the market is bifurcated into Vaccum Mooring and Magnetic Mooring. The Vaccum Mooring segment is accounted for the largest market share in 2021 and is projected to grow at a CAGR of 4.23% during the forecast period. The automated mooring system is a vacuum-based automatic mooring system that allows a vessel to be moored without the use of rope. The technology improves operational efficiency, increases safety, and allows the port to save money on infrastructure by lowering the need to expand dock capacity. Due to its capacity to enhance productivity and improve safety standards, vacuum mooring is one of the most regularly used lashing kinds. It eliminates mooring lines and improves docking efficiency by combining hydraulic and vacuum technology. The magnetic lashing system is now in its infancy, but due to its capacity to lower the percentage of casualties and increase safety, it is expected to grow significantly over the next few years.

Automated Mooring Systems Market, By Anchor Type

• Vertical Loaded Anchors• Drag Embedment Anchors• Suction Anchors• Others

Based on Anchor Type, the Global Automated Mooring Systems Market has been segmented into Vertical Loaded Anchors, Drag Embedment Anchors, Suction Anchors, and Others. The Vertical Loaded Anchors segment is accounted for the largest market share and is projected to grow at the highest CAGR of 3.59% during the forecast period. The Special anchors, such as the Vertical Load Anchor (VLA), are an essential non-traditional component of platform mooring systems in this setting. When compared to traditional anchors, the VLA anchors’ key benefit is their ability to hold large traction loads. An example VLA installation technique, a pull-out test, a rope arrangement, and an embedment trajectory are shown schematically, where the benefit of employing shorter mooring system cable lengths can be . The operation’s offshore platform scenery is being “cleaned up,” with the deployment of shorter catenary mooring wires and a much-reduced anchorage radius.

Automated Mooring Systems Market, By Application

• Floating Production Storage• Tension Leg Platform (TLP)• Floating Liquefied Natural Gas (FLNG)• Semi-Submersible, SPAR• Others

Based on Application, the Global Automated Mooring Systems Market has been segmented into Floating Production Storage & Offloading (FPSO), Tension Leg Platform (TLP), Floating Liquefied Natural Gas (FLNG), Semi-Submersible, SPAR, and Others. The Floating Production Storage & Offloading (FPSO) segment is accounted for the largest market share and is projected to grow at the highest CAGR of 4.12% during the forecast period. Floating storage and offloading of production (FPSO) is a floating platform that allows for the processing and storage of oil and gas at sea. The offshore industry makes extensive use of these vessels, and they have become one of the most used ways of oil and gas processing and storage. An FPSO is a floating vessel that serves as a mobile offshore production and storage facility, as the name implies. Oil and gas firms are the most common employees and leaseholders. The vessels themselves are outfitted with processing equipment for separating, storing, and discharging oil and gas from subsea oil wells and platforms. When oil and gas are processed, they are safely stored in the FPSO until they can be offloaded into a tanker or pipeline and transported ashore.

Automated Mooring Systems Market, By Mooring Type

• Spread Mooring• Single Point Mooring• Catenary Mooring• Dynamic Positioning• Taut Leg• Others

Based on Mooring Type, the Global Automated Mooring Systems Market has been segmented into Spread Mooring, Single Point Mooring, Catenary Mooring, Dynamic Positioning, Taut Leg, and Others. The Spread Mooring segment is accounted for the largest market share and is projected to grow at the highest CAGR of 4.08% during the forecast period. The spread mooring system consists of multiple groups of mooring lines attached to the bow and stern of the vessel in a symmetrical pattern. The system maintains the vessel or floating offshore structure in a predetermined position at sea while maintaining a stable heading. Spread mooring systems can be used in any water depth and on any size vessel in applications that need a long service life. Spread mooring systems are most typically utilized in unidirectional conditions on floating offshore structures that are unaffected by the direction of environmental loads.

Automated Mooring Systems Market, By Geography

• North America• Europe• Asia Pacific• Latin America• Middle East and Africa

To Get Summarized Market Report By Geography- 

Based on regional analysis, the Global Automated Mooring Systems Market is classified into North America, Europe, Asia Pacific, Latin America and Middle East and Africa. Asia Pacific accounted for the largest market share and is projected to grow at a CAGR of 4.86% during the forecast period. A passenger port in China has developed a unique long-distance line deployment method with aquatic robots. Zhuhai Jiuzhou Port had previously completed a series of typhoon-proof reinforcing projects for its floating barges. The crew used a small self-powered jet pump known as Dolphin 1 to transfer a traction rope tied to the mooring line to the opposite shore, which was 230 meters away. Staff used a forklift to drag the mooring line ashore and tighten it to the pile after transporting the traction rope to the opposite bank. The typhoon season in Zhuhai runs from June to August every year. Only one side of the floating barge is fixed to the pier in Jiuzhou’s passenger port. When a typhoon hits, the massive wind and waves will violently flip the other side, posing safety concerns. Dolphin 1 is a single-person-operated remote-controlled self-propelled water surface vehicle. Users can get started quickly with a little help. It has a huge load capacity of 150 kilograms and a remote-control range of 500 meters, allowing it to be utilized not only as a swift rescue device but also to solve most lightweight water transportation chores, lowering staff and operating expenses while increasing operational efficiency.

Key Players

The “Global Automated Mooring Systems Market” study report will provide a valuable insight with an emphasis on the global market including some of the major players such as Lamprell Plc, SBM Offshore, MODEC, Macgregor (Cargotec), Cavotec SA, Delmar systems, Trelleborg Marine, C-Quip Limited, Mampaey Offshore, Offspring International, and others. 

The competitive landscape section also includes key development strategies, market share, and market ranking analysis of the above-mentioned players globally.

Automated Mooring Systems Market Infographic

Key Developments

• In December 2021, Trelleborg’s maritime and infrastructure division has launched a new interactive experience and film to highlight DynaMoor, a safety-focused intelligent mooring solution that enables safer, more efficient, and long-term berthing and product transfer.

• In July 2019, TTS Group ASA’s maritime and offshore divisions have been acquired by Cargotec’s Macgregor business unit.• Cargotec stated in February 2018 that it has reached an agreement to acquire the firms for about EUR 87 million.

Report Scope

REPORT ATTRIBUTESDETAILS
STUDY PERIOD

2021-2031

BASE YEAR

2024

FORECAST PERIOD

2024-2031

HISTORICAL PERIOD

2021-2023

UNIT

Value (USD Billion)

KEY COMPANIES PROFILED

Lamprell Plc, SBM Offshore, MODEC, Macgregor (Cargotec), Cavotec SA, Delmar systems, Trelleborg Marine, C-Quip Limited, Mampaey Offshore, Offspring International, and others.</

Table of Content

To get a detailed Table of content/ Table of Figures/ Methodology Please contact our sales person at ( chris@marketinsightsresearch.com )
To get a detailed Table of content/ Table of Figures/ Methodology Please contact our sales person at ( chris@marketinsightsresearch.com )