Fact-checked by Grok 2 weeks ago

Ferry

A ferry is a or commercial service that transports passengers, vehicles, and sometimes across bodies of , typically on fixed routes and schedules between nearby points such as rivers, harbors, or short crossings. The term "ferry" originates from ferian, meaning "to carry" or "convey," derived from Proto-Germanic farjaną, reflecting its ancient roots in transporting people and goods over . Historically, ferries were vital before the advent of bridges and tunnels, serving as the primary means to cross large rivers and streams in regions like early colonial , where they facilitated daily life and amid numerous waterways. In the United States, ferry operations evolved from simple pole-driven boats in the to steam-powered vessels by the late 1800s, including the introduction of ferries in the 1890s on the . Today, ferries encompass diverse designs tailored to specific needs, including ferries that allow vehicles to drive directly aboard for efficient loading, high-speed catamarans for rapid passenger transit, and double-ended ferries optimized for frequent harbor shuttles without turning. Passenger-only variants focus on commuters and tourists, while hybrid or electric models are increasingly adopted for sustainable operations in areas like and . Ferry services remain essential to global transportation, augmenting road and rail networks by providing reliable links to islands, remote coastal areas, and urban hubs, while supporting , , and emergency evacuations. In the U.S., systems like handle millions of passengers annually across the , and the free exemplifies accessible public in dense settings. Internationally, extensive networks in and underscore their role in connecting communities where land routes are impractical.

History

Ancient and Pre-Industrial Ferries

The earliest ferries emerged as simple boats and rafts designed for river and coastal crossings in ancient civilizations such as , , and , dating back to around 3000 BCE. In , reed-bundle rafts and early plank boats facilitated essential transport across the and rivers, enabling trade and daily movement in a region where water barriers dominated geography. Egyptian evidence from the same period shows papyrus reed boats used on the for ferrying passengers and goods, with depictions in tomb art illustrating their role in linking settlements along the river's course. In , rudimentary oar-powered vessels supported short-haul crossings in the Aegean, supporting early maritime networks among islands and the mainland. During the , ferries evolved into more organized oared galleys for short sea routes, relying on teams of rowers to navigate calm waters and avoid reliance on unpredictable winds. These vessels, often broad-beamed for stability, transported troops, officials, and cargo across straits and bays throughout the Mediterranean and beyond. A notable example is Julius Caesar's 55 BCE crossing of the , where he commandeered approximately 80 transport ships, including oared galleys from tribes, to ferry two legions—about 10,000 men— from to in a bold that demonstrated the strategic use of such craft despite adverse weather. This expedition highlighted the galleys' maneuverability in coastal waters, though storms damaged many vessels upon return. In medieval and , ferry innovations reflected regional adaptations to local waterways. During China's (7th–10th centuries CE), chain ferries appeared on major rivers like the , where iron chains anchored across the water allowed boats to be pulled against strong currents, as seen at the historic Pujin Ferry site near Yongji, with anchors dating to the 7th century CE. In feudal , hand-powered rowboats served as primary ferries for inland seas and rivers, with archaeological remains of wooden vessels from the period indicating simple oar propulsion for transporting , merchants, and pilgrims across narrow straits. These designs emphasized durability in choppy waters but were constrained by manual effort. Pre-industrial ferries universally depended on or power for propulsion, with rowers, poles, or draft animals towing vessels from shore, limiting operations to calm conditions and short distances. Capacities were modest, typically accommodating a few dozen passengers or small loads of , as larger assemblies risked instability without mechanical aids. Vulnerability to weather was a persistent challenge; sudden storms or high winds could halt services or lead to losses, as evidenced in accounts of Channel crossings and medieval river navigation records. This era's ferries laid foundational transport networks but awaited mechanical innovations for broader reliability.

Industrial Revolution Advancements

The advent of steam-powered ferries in the early marked a pivotal shift from reliance on wind and oar propulsion, enabling more reliable and scheduled passenger and cargo transport across rivers and harbors. The PS Comet, launched in 1812 by Scottish engineer Henry Bell, became Europe's first commercially successful steam vessel, operating a passenger service on the River Clyde between and . This wooden-hulled , measuring about 43 feet in length, demonstrated the viability of for short-haul routes, reducing travel times and operating independently of tides or weather, which spurred adoption across industrializing regions. Key technological innovations facilitated the integration of steam ferries into burgeoning trade networks. Paddlewheel designs, driven by high-pressure steam engines, proved ideal for navigating shallow inland waters and estuaries, allowing ferries to maintain consistent speeds of 5-8 knots without deep drafts. The transition to iron hulls in the 1830s and 1840s enhanced durability against corrosion and collisions, with early examples like the American steam ferry New York (built 1840s) showcasing longer service life and greater capacity for passengers and vehicles. In the United States, the Staten Island Ferry service, initiated in 1817 with the steam-powered Nautilus, exemplified these advancements as one of the world's oldest continuously operating ferry routes, linking Manhattan and Staten Island for urban commuters and goods. Steam ferries expanded rapidly in and during the mid-19th century, supporting and colonial . In , steam services on the Thames proliferated from 1815 onward, with operators like the Thames Steam Packet Company providing frequent crossings for workers and tourists, handling thousands of passengers daily by the 1840s and alleviating congestion on emerging rail lines. Across the Atlantic, North American routes boomed, with steam ferries facilitating trade in ports like and New Orleans, where they transported , immigrants, and manufactured . In the , companies such as the , established in 1856, deployed steam ferries for coastal and riverine trade in , connecting major ports like Calcutta and Bombay to support the export of , , and textiles, thereby integrating colonial economies into global networks. By the late , steam ferry operations had grown substantially in major ports, from a handful in the early 1800s to hundreds serving industrial hubs, underscoring their role in economic expansion.

20th Century and Modern Expansion

The transition to diesel-electric propulsion marked a significant advancement in ferry technology during the early , offering greater efficiency and reliability compared to engines. The first commercial diesel-electric ferry, the Electric Star of Hong Kong's Company, entered service in 1933, powered by engines that generated electricity to drive propeller motors, reducing fuel consumption and maintenance needs. This innovation spread globally, with early adopters including coastal services in and , building on steam foundations by enabling smoother operation in varied sea conditions. By the mid-20th century, such systems became standard, exemplified by the Ferry's adoption of diesel-electric vessels in the , which replaced older -powered boats and supported increased passenger volumes. Following , ferry networks experienced a boom, particularly in car ferry services, driven by economic recovery and rising automobile ownership. In , Scandinavian routes expanded rapidly, with launching its first dedicated car ferry, the s/s Viking, in 1959 to connect , , and , facilitating tourism and trade across the . In , Japan's post-war rebuilding efforts revitalized coastal and inter-island ferries; the country introduced its first international car ferry services in the late 1950s, such as those operated by Kampu Ferry, linking to and supporting industrial growth amid rapid urbanization. These developments transformed ferries from passenger-only vessels to vital links for vehicular transport, with routes in both regions carrying millions annually by the 1960s. Modern trends in the mid-to-late 20th century further revolutionized ferry operations through design and technological integrations. Roll-on/roll-off (Ro-Ro) ferries emerged in the 1950s for short-sea routes, allowing vehicles to drive directly onto vessels via ramps, which streamlined loading and boosted capacity on routes like those in the English Channel. The rise of containerization in the 1970s impacted traditional ferry cargo services by shifting bulk freight to dedicated container ships, prompting many operators to specialize in passenger and vehicle transport or adapt with hybrid RoRo-container designs to remain competitive in global trade networks. By the 2000s, digital navigation systems, including Electronic Chart Display and Information Systems (ECDIS), became mandatory under International Maritime Organization regulations adopted in 2000, enhancing safety and precision on busy ferry corridors through real-time GPS integration and automated collision avoidance. As of 2025, recent developments emphasize and in ferry expansion. Pilot projects for autonomous vessels include trials of crewless passenger ferries in , such as operations on the Flakk-Rørvik route starting in 2023, demonstrating short-sea navigation without full onboard crew and reducing emissions through electric propulsion. Concurrently, the upcoming Fehmarnbelt Tunnel, expected to open in 2029, will replace the existing ferry crossing between and with a direct and road link, potentially shifting dynamics in the .

Types

Double-Ended Ferries

Double-ended ferries feature a symmetrical with identical bow and configurations, allowing bidirectional operation without the need to rotate the at terminals. Propulsion systems, typically including engines and propellers at both ends, provide balanced and enable precise during and departure. is achieved through rudders positioned at each end, enhancing maneuverability in confined waterways. These vessels are particularly suited for short routes, often under 10 nautical miles (approximately 18.5 km), such as river crossings or transits, where frequent service is essential. A primary advantage of this design is significantly reduced turnaround times, typically ranging from 5 to 10 minutes for berthing, loading, and departure, compared to over 20 minutes for single-ended ferries that must execute 180-degree turns. This efficiency stems from the ability to approach and depart terminals facing the direction of travel, minimizing maneuvering and fuel consumption. Double-ended ferries are commonly deployed in and environments, where tight schedules and high traffic demand quick port operations. Prominent examples include the system in the United States, which operates the largest fleet of such vessels with 21 double-ended ferries serving routes. In , BC Ferries maintains a substantial number of double-ended vessels, including the Island Class ferries designed for intermediate routes with efficient bidirectional loading. These examples highlight the design's prevalence in North American coastal operations. Operationally, double-ended ferries accommodate capacities from around 100 to 2,000 and , depending on size, with vehicle decks arranged in multi-lane configurations resembling bridges for streamlined flow. Control stations, or bridges, are located at both ends to facilitate without reconfiguration. Vehicle handling benefits from this setup, allowing continuous access similar to dedicated Ro-Ro systems but optimized for short-hop bidirectional service.

Roll-On/Roll-Off Ferries

Roll-on/roll-off (Ro-Ro) ferries are designed to facilitate the efficient of wheeled vehicles, including cars, trucks, and trailers, by allowing them to drive directly onto and off the using their own wheels. These ferries typically feature bow and stern ramps that enable drive-on/drive-off access from either end, minimizing turnaround times in port. The vessels incorporate multi-deck spaces configured as open-plan areas to accommodate large volumes of vehicles, with internal ramps or elevators connecting decks for seamless loading across levels. The Ro-Ro concept gained widespread popularity in the 1950s, driven by the post-World War II surge in automobile ownership and cross-border travel, which demanded faster and more convenient sea transport options compared to traditional crane-loading methods. Early adoption in routes like the , with Dover's drive-on berths opening in 1953, demonstrated the system's efficiency, handling over 100,000 vehicles in its first year alone. To ensure during voyages, vehicles are secured using specialized systems such as chains, straps, and wheel chocks, preventing movement and potential hazards in rough seas. Many Ro-Ro ferries on short routes incorporate double-ended designs to allow immediate departure without repositioning. A prominent variant is the RoPax ferry, which combines Ro-Ro vehicle capacity with enhanced passenger accommodations to serve both freight and tourism needs on longer routes. These vessels offer amenities such as cabins, seating areas, dining facilities, and entertainment options to provide comfort during transit. Typical capacities range from several hundred to over 1,000 passengers and 100 to 500 vehicles, depending on size and configuration, enabling versatile operations in mixed traffic scenarios. For instance, Viking Line's vessels on routes, such as the , exemplify this with capacity for up to 2,800 passengers and 500 cars alongside freight space.

High-Speed Ferries

High-speed ferries are advanced passenger vessels designed for on short-sea routes, typically achieving speeds exceeding 30 knots through specialized and technologies. These craft prioritize minimizing travel duration on medium-length crossings, such as those spanning 50 to 200 kilometers, where conventional ferries would take significantly longer. Key technologies include hydrofoils, which use underwater wings to lift the above the water surface, reducing drag and enabling speeds of 40 knots or more; wave-piercing catamarans, featuring twin hulls with a forward-piercing bow for enhanced stability and reduced slamming in waves at 35 to 50 knots; and , which operate on an air cushion for amphibious capabilities and speeds up to 50 to 60 knots over varied terrains including beaches. These vessels find primary application in busy inter-island or cross-channel services, where quick turnaround times boost operational efficiency. A prominent example is the HSS 1500 class catamarans operated by , which achieved service speeds of 40 knots on routes like Holyhead to Dún Laoghaire across the , a short-sea corridor analogous to operations. On similar routes, such as Hoek van Holland to , the HSS 1500 reduced crossing times by approximately half compared to slower conventional vessels, shortening a 200-kilometer journey from around 6-7 hours to about 3.5 hours. The primary advantages of high-speed ferries lie in their ability to drastically cut times—for instance, transforming a 3-hour conventional crossing into 90 minutes—while accommodating hundreds of s and limited vehicles for enhanced connectivity on competitive routes. However, these benefits come with notable drawbacks, including substantially higher consumption due to the power demands of high speeds, often 2-3 times that of conventional ferries, and increased sensitivity to adverse conditions, where rough seas can force speed reductions or operational halts to avoid structural stress or risks. High-speed ferries reached their peak adoption in the and early , driven by demand for faster short-sea travel and innovations like the widespread deployment of catamarans and hydrofoils in and , but usage has since declined primarily due to escalating operational costs, particularly fuel expenses amid rising oil prices. As of , hybrid-electric models are emerging to address these challenges, with vessels like the Liberty Lines' mtu hybrid-powered fast ferry, which reaches speeds over 30 knots, and Washington's new 160-auto hybrid-electric ferries, which integrate systems for zero-emission operations and improved efficiency at conventional speeds of approximately 17 knots.

Cable and Pontoon Ferries

Cable ferries are vessels guided across or narrow of by fixed s anchored to both shores, providing a stable and mechanically assisted crossing without relying on free . These systems typically employ overhead or submerged s, with the ferry propelled by onboard engines gripping the cable, manual cranking, or the natural flow of in the case of reaction ferries. Reaction ferries, a subtype, harness the river's current against a single angled tether to generate forward motion, eliminating the need for engines or fuel on board. This design is particularly suited to swift, shallow where traditional propulsion would be inefficient. Pontoon ferries consist of flat, barge-like platforms supported by buoyant pontoons, often towed by a separate or equipped with minimal self-propulsion for short-haul transport across calm or narrow waterways. These vessels are commonly deployed in sites, remote rural locations, or temporary setups where permanent is impractical, offering a simple means to ferry vehicles, equipment, or small groups without complex steering mechanisms. Unlike more advanced ferries, pontoon designs prioritize stability over speed, with their shallow draft allowing operation in low-depth areas. Operations of both cable and pontoon ferries emphasize reliability in constrained environments, typically achieving speeds of 5 to 10 km/h to ensure safe guidance along cables or tow lines. Capacities generally range from 10 to 50 vehicles, alongside 100 to 200 passengers, depending on the vessel's size and route demands, with crew requirements kept minimal—often one or two operators—to reduce costs in low-traffic settings. These ferries excel in short-route efficiency, akin to double-ended designs, but rely on mechanical constraints rather than bidirectional . Hundreds of cable ferries operate worldwide, with concentrations in rural and where they serve essential links over rivers and fjords. In , examples include the reaction ferries on Germany's , which use current propulsion for passenger crossings, and the UK's chain ferry, a powered system carrying up to 52 vehicles across the . In , the Selenge cable ferry in facilitates vehicle transport in remote steppes, while pontoon ferries support rural operations in India's for equipment movement during flood seasons. North American instances, such as Canada's Baynes Sound Connector—a 78.5-meter with a for 45 and a service speed of about 14 km/h—illustrate their adaptability to varied terrains. Pontoon examples include the historic in , USA, a -guided that accommodated 24 vehicles until its closure, highlighting their role in isolated communities.

Specialized Ferries

Train ferries are specialized vessels designed to transport entire vehicles, including freight cars and passenger coaches, across bodies of water to maintain uninterrupted rail connections without the need for . These ferries feature dedicated rail tracks on their decks, allowing trains to roll on and off directly, and have historically served as vital links in rail networks where bridges or tunnels were impractical. For instance, prior to the opening of the in 1994, train ferries operated between , , and Dunkerque, , facilitating through services like the , which carried sleeping cars from to . Foot ferries, also known as passenger-only ferries, are compact boats primarily used for short-distance transport of pedestrians and sometimes cyclists across rivers, harbors, or between islands, typically accommodating 20 to 200 passengers depending on the vessel size. These vessels emphasize quick boarding and efficiency for urban or tourist routes, often operating at low speeds without vehicle capacity. In densely populated areas like , , foot ferries such as the traghetti—large gondola-like boats—provide essential crossings of the Grand Canal for locals and visitors at a nominal of €2 per person, standing in for traditional services while serving as a dominant mode of short-haul passenger transport. Air-cushion ferries, or , are ground-effect vehicles that ride on a cushion of air, enabling beach-to-beach operations without fixed terminals and offering high speeds over shallow waters. Developed in the mid-20th century, they were particularly suited for short sea crossings like those in between , , and the Isle of Wight, where services began in 1965 using SR.N6 models carrying up to 38 passengers. However, their use declined by the late 2000s due to high fuel consumption, , and maintenance costs, with larger cross-Channel hovercraft services ending in 2000, though a small passenger operation persists in . Cruiseferries integrate the functionalities of roll-on/roll-off ferries with luxury amenities, such as hotels, restaurants, shops, and entertainment venues, to provide comfortable overnight voyages for passengers and vehicles. These vessels cater to travelers on longer routes, often exceeding 12 hours, with capacities typically over 2,000 passengers. A prominent example is Color Line's SuperSpeed 1, operating between , , and , , which accommodates up to 2,325 passengers and features onboard casinos, spas, and multiple dining options for the 3-hour-15-minute crossing that can extend into evening departures.

Operations

Docking and Berthing

Ferry terminals are designed to accommodate specific types and environmental conditions, ensuring efficient and safe berthing. Fixed slips, consisting of enclosed water areas bordered by racks and equipped with transfer bridges, are commonly used for double-ended ferries, allowing these s to approach and depart from the same end without turning. In areas with significant variations, floating pontoons provide adaptable berthing solutions by rising and falling with water levels, often integrated with linkspans to bridge the gap between the and quay. For roll-on/roll-off (Ro-Ro) ferries, linkspans—movable steel platforms that adjust to changes and deck heights—facilitate direct vehicle access via ramps, enabling seamless transitions during berthing. Berthing involves precise maneuvering to align the ferry with the infrastructure. Modern ferries often employ bow and stern thrusters to achieve accurate positioning, particularly in confined spaces, allowing captains to counteract drift and align the parallel to the berth. Fender systems, including rubber or foam elements mounted on the quay or pontoon, absorb impact forces during contact, protecting both the and from damage; these systems are selected based on size and berthing energy calculations. The berthing process typically requires coordinated use of engines, thrusters, and lines to secure the , with pilots often guiding the approach to minimize risks. Environmental challenges such as high winds and strong currents can complicate berthing, necessitating assistance to provide additional thrust and stability during alignment. In such conditions, tugs help counteract lateral forces, ensuring the ferry maintains course within the designated approach area. Recent advancements include trials, such as the 2023 deployment of SmartDock systems on ferries, which enable autonomous maneuvering and even in currents up to two knots. By 2025, further trials of autonomous systems, including adaptations for electric ferries, have expanded in regions like and to enhance safety and efficiency. The () establishes global standards for safe ferry approaches through its model regulations on domestic ferry safety, emphasizing clear approach paths, adequate means of access between vessel and berth, and risk assessments for navigational hazards. These guidelines recommend establishing controlled zones around terminals to allow for safe deceleration and alignment without interference from other traffic, with sizes determined by vessel size, port configuration, and local regulations. Compliance with IMO provisions ensures standardized procedures worldwide, prioritizing collision avoidance and structural integrity during berthing.

Loading and Passenger Management

Loading and passenger management on ferries begins immediately after secure and berthing, focusing on efficient vehicle placement and orderly passenger flow to prioritize and operational speed. Vehicle loading procedures emphasize lane assignments tailored to vehicle types—such as separate s for , trucks, and hazardous goods—to optimize space and facilitate rapid boarding and disembarkation. Crew members direct drivers to specific lanes based on pre-booked reservations or assessments, ensuring compliance with vessel-specific diagrams that account for ramp access and internal routing. Weight distribution during vehicle loading is governed by stability criteria to prevent shifts in the vessel's center of gravity, which could compromise trim and heel. Regulations require even deck balance, with heavier vehicles positioned low and centrally to maintain intact and damaged stability standards, often verified through loading computers that simulate load conditions against approved criteria. For instance, U.S. Coast Guard rules mandate that variable loads, including vehicles, be distributed to provide normal operating trim without exceeding stability limits during the simplified stability proof test. International Maritime Organization (IMO) guidelines under SOLAS reinforce this by requiring masters to oversee loading to comply with intact and damaged stability standards for domestic ferries. Passenger processes commence with ticket scanning at gangways or designated entry points, using electronic readers integrated with systems to validate boarding and prevent capacity exceedance. Upon boarding, mandatory briefings are delivered via audio announcements or video displays, covering life jacket locations, muster stations, and emergency procedures to ensure all passengers understand evacuation protocols. for disabled passengers and those with reduced is mandated under EU Regulation (EU) No 1177/2010, which requires free assistance for , disembarkation, and on-board , including boarding and adapted facilities like ramps and accessible cabins, effective since December 2012. This regulation prohibits discrimination and ensures equivalent travel opportunities, with ports providing trained staff for support. Capacity management protocols strictly avoid overbooking by cross-referencing reservations against certified maximum loads, with real-time monitoring to cap passengers and vehicles at approved limits derived from stability booklets. drills are conducted regularly, simulating full-scale abandon-ship scenarios to verify that , including lifeboats, accommodate 100% of the vessel's total capacity as per SOLAS III requirements for ships. These drills emphasize rapid mustering and deployment, with lifeboats designed for launch within specified times even under adverse conditions. As of , technological integrations enhance these processes, with mobile apps enabling virtual queuing and digital ticketing to streamline flow and reduce physical bottlenecks at busy terminals. In high-volume ports, AI-driven systems are being implemented to analyze camera feeds and , predicting and managing densities to optimize boarding sequences and to potential . These tools integrate with ferry operators' reservation platforms to dynamically adjust capacities and improve overall efficiency while maintaining safety margins.

Notable Services

Asia

In Asia, ferry services play a critical role in regional connectivity, particularly in densely populated and archipelagic nations where they facilitate high-volume passenger transport across rivers, straits, and seas. operates one of the world's busiest inland water transport networks, with approximately 2,000 passenger vessels navigating extensive river systems including the , carrying around 88 million passengers annually and accounting for about 14% of the country's total passenger traffic. These services are essential for daily commuting and rural access but face persistent challenges from , which has prompted efforts to enhance protocols. India's ferry operations support both mainland coastal routes and island connectivity, exemplified by the Konkan region's roll-on/roll-off (Ro-Ro) services linking to ports in Sindhudurg and , reducing travel times to 3-5 hours for vehicles and passengers while boosting and . In the Andaman and Nicobar Islands, government and private ferries connect to Havelock and Islands, serving as the primary mode for inter-island and accommodating hundreds of thousands of tourists annually who explore the archipelago's beaches and marine sites. These routes handle diverse passenger needs, from locals to eco-tourists, with services like high-speed catamarans ensuring efficient access amid growing visitor numbers. Indonesia's vast maritime network underscores its status as the world's largest , spanning over 17,000 islands serviced by state-owned PT , which operates 25-26 passenger ships across 1,000+ routes and 70+ ports, transporting more than 5 million passengers yearly. 's fleet connects major hubs like and to remote eastern islands, supporting economic integration and family travel in a where ferries are a lifeline for decentralized communities. Japan maintains highly efficient short-sea ferry routes, such as those across linking the capital to coastal areas like and Chiba, where services emphasize reliability and integration with networks for urban commuters. Following the , Japanese ferry infrastructure incorporated enhanced seismic resilience, including reinforced berths and vessel designs compliant with stricter building codes to withstand lateral forces equivalent to 100% of a structure's weight. High-speed ferries are commonly deployed on these routes to optimize travel times amid Japan's emphasis on disaster preparedness. In , the exemplifies urban integration, historically shuttling passengers, vehicles, and cargo across the Penang Strait between Town on the island and Butterworth on the mainland since 1894, though operations shifted to faster alternatives by the early 2020s while preserving vessels for tourist cruises. This blend of practical transport and scenic rides attracts visitors seeking views of and coastal life, with fares made free in 2021 to encourage exploration. On Turkey's Asian side, Bosphorus ferry crossings operated by Şehir Hatları connect Istanbul's European districts like and to Asian hubs such as and , carrying over 40 million passengers annually across the strait that divides the continents. These frequent services, running every 10-15 minutes, serve daily urban commuters while doubling as tourist attractions for panoramic views of historic landmarks, maintaining their role despite modern alternatives like undersea tunnels. Across , overcrowding remains a significant concern on many ferry routes, exacerbated by high demand in populous areas, leading to regulatory advancements in the 2020s through frameworks like the UNESCAP Model Regulations on Domestic Ferry and guidelines targeting overloading and maintenance gaps. These measures, including limits and briefings, aim to mitigate risks in high-density operations while preserving ferries' vital connectivity function.

Europe

European ferry networks play a vital role in connecting diverse geographies across the continent, facilitating cross-border travel and tourism while increasingly incorporating sustainable technologies. In Great Britain, the Dover-Calais route operated by P&O Ferries exemplifies high-volume short-sea crossings, handling approximately 1.6 million tourist vehicles annually as of 2023, a 26% increase from the previous year, underscoring its importance for trade and leisure between the UK and France. Complementing this, domestic services like those to the Isle of Wight, managed by Wightlink and Red Funnel, transport around 4.3 million passengers yearly, with routes from Portsmouth to Ryde taking just 22 minutes and Southampton to East Cowes accommodating over 200 vehicles per sailing in about one hour, supporting island tourism and local connectivity. In the Baltic Sea region, operators like emphasize eco-innovative operations on routes between and , such as the crossing from Puttgarden to Rødby, where hybrid ferries have been deployed since 2017 to reduce CO2 emissions by up to 15,000 tons annually through battery-optimized diesel propulsion. Similarly, Viking Line's Stockholm-Helsinki service, spanning about 17 hours via in the Åland Islands, blends cruises with vehicle transport, offering amenities for tourists while serving as a key link between and . RoPax designs are prevalent in the , enabling efficient freight and handling on these routes. Southern and eastern European networks highlight tourist-oriented and urban mobility services. Grimaldi Lines operates Adriatic routes from Italian ports like and to Greek destinations such as and , providing multiple daily sailings that cater to vacationers with vehicle and passenger accommodations across the . In Turkey, Şehir Hatları manages Istanbul's extensive ferry system across the Bosphorus, carrying around 40 million passengers annually with 903 daily trips on 35 lines, integrating seamlessly with buses and metro for commuter and sightseeing travel between and . Post-Brexit adjustments have boosted UK-Ireland ferry traffic, with car ferry volumes at Northern ports rising 9.5% year-over-year to 583,000 vehicles, reflecting a nearly 25% increase from pre-2019 levels amid shifts in patterns and direct routing preferences. A distinctive feature of European operations is the support for green initiatives, exemplified by -backed subsidies under programs like InvestEU that fund zero-emission infrastructure; Norway's MF Ampere, launched in 2015 as the world's first fully ferry, operates battery-powered crossings on the Lavik-Oppedal route, preventing 5,700 tons of CO2 emissions yearly and inspiring widespread adoption of such technologies.

North America

In North America, ferry services play a vital role in connecting coastal, island, and remote communities, particularly in regions where and infrastructure is limited or impractical. These operations emphasize reliable public transportation for commuters, vehicles, and freight, integrating with broader transit networks to support daily travel and economic activity. Major systems span , the , and , handling millions of passengers annually while navigating geographic and environmental constraints. In Canada, British Columbia Ferries (BC Ferries) operates an extensive network along the province's rugged coastline, serving as a critical link for communities from Vancouver Island to the northern fjords, transporting 22.7 million passengers and 9.7 million vehicles each year. This system, one of the largest in the region, relies on a fleet of 37 vessels to cover routes spanning hundreds of kilometers, facilitating both commuter traffic and tourism without extending across the entire country. Further east, Marine Atlantic manages key interprovincial routes connecting Newfoundland and Labrador to mainland Nova Scotia, including the vital Port aux Basques to North Sydney crossing; in 2024, it carried 359,320 passengers, 141,582 passenger vehicles, and 96,349 commercial vehicles across 1,692 sailings. These services are essential for Newfoundland's island population, providing year-round access despite the challenging North Atlantic conditions. The features prominent state-run ferry systems focused on regional connectivity. Washington State Ferries (WSF) dominates operations, serving as a lifeline for the and surrounding islands with routes that carried 18.9 million riders in fiscal year 2024. Many of WSF's vessels employ double-ended designs to streamline turnarounds in busy waterways. In , the System provides essential maritime access to remote coastal communities along 3,500 miles of shoreline and over 30 ports, functioning as an extension of the state's highway network; it transported 185,000 passengers and 65,000 vehicles in 2024. A notable urban example is New York City's , which offers free service between and , accommodating approximately 70,000 daily passengers as of 2025 and serving as a key commuter and tourist link in the harbor. In Mexico, Baja Ferries operates crossings in the (Sea of Cortés), connecting the to the mainland, such as the to route; the recently introduced Cabo Star alone is projected to carry over 250,000 passengers annually, enhancing for both locals and travelers. These services support regional commerce and across the gulf's vital corridor. North American ferry operations face significant challenges from seasonal disruptions, including storms, high winds, and extreme cold that can cancel sailings and damage infrastructure, as seen in vulnerability assessments for systems like WSF and . Integration with rail services, such as Amtrak's Thruway connections that incorporate ferries in areas like and , helps extend reach but requires coordinated scheduling to mitigate delays from these environmental factors.

Other Regions

In South America, ferry services play a vital role in navigating the continent's vast river systems and rugged terrains, particularly where road infrastructure is limited. On the Amazon River in Brazil, informal fleets of slow boats and cargo-passenger vessels connect remote communities, transporting goods, mail, and hundreds of passengers over multi-day journeys from ports like Manaus to Belém or Santarém. These unregulated operations, often accommodating 800-1,000 people on open decks, underpin local economies by enabling informal trade in riverside villages inaccessible by land. In Patagonia, routes such as the Navimag ferry from Puerto Montt to Puerto Natales traverse fjords and channels, while cross-border services facilitate travel between Chile and Argentina, including bus-ferry combinations from Punta Arenas to Ushuaia via Tierra del Fuego. These adaptations highlight economic reliance on ferries for both freight and tourism in isolated southern regions. Africa's ferry networks reflect adaptations to major waterways amid economic and infrastructural challenges, with services emphasizing connectivity in underdeveloped areas. On the , local ferries operate between and , such as the route from to across , carrying passengers and vehicles over 550 kilometers to support cross-border trade and daily commutes. In , Lake Victoria ferries serve , , and , where post-1996 improvements followed the disaster that claimed over 800 lives due to overcrowding. Modern vessels like the MV Rafiki, launched in 2025 with a 250-passenger capacity, now link to Bukasa Island, reducing travel times to under three hours and bolstering informal economies through enhanced access to markets. Oceania's ferry operations contend with expansive distances and variable weather, fostering specialized services across island nations and coastal routes. In , the provides overnight crossings from (near ) to Devonport, covering 242 nautical miles in 9.5 to 11.5 hours and transporting passengers, vehicles, and freight to support Tasmania's economy. New Zealand's ferries navigate the notoriously windy between and Picton, where swells and gales frequently cause delays or cancellations, demanding robust vessel designs for reliable inter-island links. drives growth in the region, with over two million annual visitors to the relying on day-trip ferries for snorkeling and island access, generating significant economic impact. In remote Australian areas, cable ferries like the Jardine River crossing aid access to .

Records

Size and Capacity

Ferries vary significantly in size and capacity, with (GT) serving as a key measure of their overall volume and scale. The largest ferry in operation as of 2025 is the , a RoPax operated by Color Line on the Oslo-Kiel route in , with a gross tonnage of 75,100 GT. It accommodates up to 2,812 passengers and 550 cars, highlighting the advanced RoPax designs that enable high-volume transport of both people and vehicles across short-sea routes. In terms of throughput, the ferry network across the Bosphorus stands out as the busiest single route system globally, transporting approximately 40 million passengers annually through services operated by entities like Şehir Hatları. This high capacity underscores the role of ferries in densely populated urban waterways, where frequent short crossings support mass transit needs, with a fleet of around 30 vessels serving multiple lines and ports. Among the largest ferry networks by fleet scale, in the United States operates 21 auto-passenger vessels, serving around 19 million passengers and over 9 million vehicles each year across routes. Similarly, in maintains a fleet of 37 vessels, connecting coastal communities in and facilitating millions of annual trips with capacities ranging from small passenger-only boats to large RoPax ships carrying up to 2,100 passengers and 358 vehicles. These networks exemplify how extensive fleets optimize regional connectivity and economic activity. Recent developments in ferry construction are expanding limits, with newbuilds and concepts like Viking Line's proposed , a 195-meter electric RoPax ferry with 85-100 MWh aiming for around 2,000 , 800 cars, 2 kilometers of freight , and 23 knots, though no vessels exceeding 75,000 GT have entered service by late 2025.

Speed and Age

The record for the fastest ferry is held by the HSC Francisco, a wave-piercing catamaran built in 2013 by Incat Tasmania in Australia, which achieved a top speed of 58.1 knots (107 km/h) during sea trials in 2013. This vessel, powered by liquefied natural gas and gas turbines, was initially operated by Buquebus in Buenos Aires, Argentina, and remains the benchmark for passenger ferry speed, surpassing previous holders in the high-speed catamaran category. Modern fast ferries exceeding 50 knots are predominantly catamaran designs, such as those from Incat, which prioritize lightweight aluminum hulls and efficient propulsion for short-sea routes. Among the oldest operating ferries is the Stadt Wehlen on Germany's River, built in 1879 by Sächsische Dampfschiffahrt and still in active service as of 2025 with its original . This vessel, part of the world's largest and oldest fleet, provides excursion services along the , demonstrating the preservation of 19th-century technology through regular maintenance and limited operational use. Ferry longevity often extends 40-50 years or more through periodic refits, particularly in regions with high operational demands like 's island networks, where vessels from the 1970s continue to serve despite aging infrastructure. For instance, the , originally launched in 1974 as a British ferry, remains in service in 2025 for Greek operator on Aegean routes after multiple refits. Similarly, the former Saint Eloi (built 1975) operates in at over 50 years old, highlighting how refits to engines and hulls enable extended lifespans amid economic constraints on fleet renewal. The operational landscape for pre-1950 steam-powered ferries has seen a marked decline due to international emissions regulations, such as the IMO's global limits implemented in , which restrict high-emission legacy vessels and favor retrofits or retirement. These rules have phased out many historic steamers from regular service, confining survivors like those on the to excursions where exemptions or low-duty cycles mitigate compliance costs.

Network Scale

Indonesia maintains one of the world's largest ferry networks, operated primarily by the state-owned PT ASDP Indonesia Ferry, which spans over 300 routes covering the 's extensive waterways and connects remote islands essential for national connectivity. This extensive system supports vital inter-island transport in the nation, with notable services like those between and facilitating daily commutes and trade. While exact vessel counts vary due to including small local boats, the network's scale underscores its role in serving millions of passengers annually across diverse maritime routes. The busiest ferry network globally is in , , where the system handles at least 40 million passengers per year as of 2025, operated by entities like Şehir Hatları across dozens of lines linking and . With a fleet of around 30 vessels serving multiple lines and ports, this urban network exemplifies high-density throughput, averaging frequent departures and integrating with other transit modes to manage peak commuter flows. Its annual volume highlights the critical role of ferries in densely populated coastal cities, far surpassing many international counterparts in daily ridership. In , the integrated ferry systems across , , and form an extensive regional network with over 50 major international routes, including key crossings like those between and or and . Operators such as and provide seamless connections vital for both passenger travel and freight, covering fjords, straits, and Baltic waters to link the efficiently. This interconnected web supports and economic ties, with route density enabling short-hop services that rival and alternatives in accessibility. Greece's ferry infrastructure stands out for route density, with 143 ports serving ferries that connect the to over 200 inhabited , primarily in the Aegean and Ionian Seas. The network's total route coverage emphasizes conceptual scale over precise kilometers, prioritizing seasonal schedules to over 100 destinations during peak travel periods. This setup not only sustains island economies but also positions as having Europe's densest ferry system .

Sustainability

Alternative Propulsion Systems

Battery-electric ferries represent a major shift toward zero-emission , particularly on short routes where frequent charging is feasible. The world's first fully battery-electric car ferry, MF , entered service in in 2015, operating the 6-kilometer Lavik-Oppedal route across the with a for 120 vehicles and 350 passengers. Equipped with a 1,090 kWh , Ampere achieves zero direct emissions during operation, consuming approximately 150 kWh per crossing and recharging in about 10 minutes between its 34 daily voyages, demonstrating viability for high-frequency short-sea services. This technology has since expanded, with over 200 battery-electric ferries operational worldwide by mid-2025, largely propelled by subsidies under the European Union's Green Deal aiming for climate-neutral transport by 2050. As of 2025, notable advancements include the delivery of the world's largest all-electric ferry, Hull 096, with a 40 MWh , and reports indicate that 70% of global new ferry orders now incorporate electric systems. Hydrogen fuel cell propulsion offers another pathway for emission-free ferries, leveraging fuel cells to generate from without . In , the MF became the world's first liquid -powered ferry in 2023, serving a triangular route between Hjelmeland, Skipavik, and Nesvik with capacity for 300 passengers and 80 vehicles. Powered by two 200 kW fuel cell modules, totaling 400 kW, and carrying up to approximately 5 tons of liquid (80 m³ tank), provides a range of approximately 100 kilometers per refueling, enabling multiple daily trips on routes too long for pure operation while producing only as exhaust. Initial trials in 2023 confirmed its operational reliability, though scaling requires advancements in and infrastructure. Hybrid systems combining or dual- engines with bridge the gap for longer or variable routes, optimizing use through electric assistance during loads or low-speed maneuvers. In , Seaspan Ferries introduced - dual- vessels in 2017, such as the Seaspan Reliant, which integrates LNG engines with storage to achieve approximately 10% savings compared to conventional ferries by enabling single-engine operation and . These reduce reliance on while providing backup power, with the component handling hotel loads and port emissions. Despite these advances, alternative propulsion faces key challenges, including the substantial weight of —which can exceed 100 tons on larger vessels, impacting and —and the high costs of developing shore-based charging or refueling , often requiring investments of millions per terminal. These factors limit adoption to subsidized short-sea networks, though ongoing innovations in and modular fueling are addressing them.

Emissions and Efficiency Measures

Ferries, particularly those operating on short-sea routes, have a relatively low carbon footprint compared to other modes of transport. For a foot passenger, emissions are approximately 18 grams of CO₂ per passenger-kilometer, with ranges of 10-50 grams depending on vessel type and load (e.g., higher when carrying vehicles). This contrasts sharply with short-haul aviation, which emits around 150 grams of CO₂ per passenger-kilometer, highlighting ferries' efficiency for regional travel. Operational strategies further enhance efficiency by reducing fuel use and emissions. Slow steaming, where vessel speed is reduced by about 10%, can achieve fuel savings of up to 27% due to the cubic between speed and , though this must schedule impacts for time-sensitive ferry services. Shore power connections at docks allow engines to shut down during berthing, eliminating idling emissions and potentially cutting port-related pollution by up to 98% for auxiliary engines. Electric ferry systems can further reduce direct emissions by relying on shore-supplied clean energy during operation. Regulatory measures enforce emission controls across the sector. The International Maritime Organization's () 2020 sulfur cap limits fuel sulfur content to 0.5% globally outside emission control areas, reducing sulfur oxide emissions from ferries and other ships by an estimated 77% compared to pre-2020 levels, though it has indirect effects like reduced cloud formation and slight warming. The 's Ballast Water Management Convention, effective since 2017 with full compliance by 2024, requires treatment systems to prevent the spread of via ballast water discharge, indirectly supporting ecosystem health and reducing biodiversity-related environmental impacts. By 2025, advancements include wider adoption in ferry fleets to meet FuelEU Maritime targets, with operators like transitioning routes to B30 blends (30% ) for up to 25% lower lifecycle emissions. AI-driven route planning optimizes paths to avoid adverse winds and currents, yielding fuel savings of 1-5% for major operators like , with potential up to 10-25% in pilot tests for smaller vessels.

Safety and Incidents

Major Accidents

One of the most tragic ferry incidents occurred on March 6, 1987, when the ferry capsized shortly after departing the , , en route to , . The primary cause was the bow doors remaining open due to negligence by the crew, including the assistant bosun falling asleep on duty and poor communication under departure pressure, allowing seawater to flood the car deck and destabilize the vessel within minutes. The ship listed severely and partially grounded on its port side in shallow water, resulting in 193 deaths, predominantly from among the 539 passengers and crew aboard, with many others injured in the chaos. The disaster on September 28, 1994, stands as one of the deadliest peacetime maritime tragedies in , when the ferry sank in the about 25 miles southeast of Utö, , during a voyage from , , to , . Official investigations determined that a faulty bow door shield failed under heavy storm conditions, with waves wrenching it off and causing massive water ingress into the car deck, leading to rapid flooding and capsizing within an hour. Of the 989 people on board, 852 perished, mostly from drowning and in the cold 10–11°C waters, with only 138 survivors rescued; just 93 bodies were recovered amid the . In , the capsized on April 16, 2014, while en route from to , carrying 476 passengers and crew in calm waters off the southwestern coast. The sinking resulted from overloading with excessive cargo that was improperly secured, combined with an abrupt sharp turn by the inexperienced , causing the vessel to and rapidly through side doors. This led to 304 deaths, including 250 high school students on a , with survivors facing below deck due to misleading evacuation instructions from the crew. Analysis of global ferry accidents reveals recurring patterns in causation, with overloading contributing to approximately 50% of cases through reduced stability and increased vulnerability to minor disturbances. Hazardous weather conditions, including storms and rough seas, account for about 30% of incidents, often exacerbating structural weaknesses or crew errors. As of November 2025, no major ferry disasters with hundreds of fatalities have occurred since the Sewol sinking, though smaller incidents persist in regions like , prompting ongoing safety inquiries. For instance, in July 2025, a ferry off Sulawesi, , killed at least three people with over 500 rescued, and another ferry sank near , killing at least five with 30 missing.

Safety Regulations and Improvements

The (IMO) plays a central role in establishing global safety standards for ferries through the International Convention for the Safety of Life at Sea (SOLAS), particularly Chapter III on and arrangements. SOLAS mandates that passenger ships, including ferries, carry sufficient life-saving equipment—such as lifeboats, liferafts, lifejackets, and immersion suits—capable of accommodating 100% of the persons on board, with arrangements ensuring safe evacuation even in adverse conditions. For ro-ro passenger ships like many ferries, additional requirements under SOLAS Chapter II-1 include probabilistic damage stability criteria to prevent capsizing, along with monitoring systems for vehicle decks to detect shifts in during rough . These provisions, updated through amendments like SOLAS 2000, emphasize rapid muster and abandonment procedures, aiming for full evacuation within specified timeframes based on ship size and conditions. Regionally, the has implemented stringent regulations for ro-ro ferries following lessons from past incidents, with Directive 2003/25/EC introducing enhanced damage stability standards that exceed SOLAS baselines, requiring ships to remain afloat after severe flooding scenarios. These rules mandate watertight bulkheads, bilge alarms, and restricted vehicle deck openings to mitigate water ingress risks, applying to all EU-flagged ro-ro passenger vessels over 500 gross tons. In the United States, the enforces comprehensive s under 46 CFR Subchapter K for small passenger vessels and Subchapter H for larger ferries, including annual surveys for structural integrity, , and lifesaving equipment compliance, with certificates of inspection required for operations carrying more than six paying passengers. These regional frameworks align with but often surpass IMO requirements to address local operational hazards. Key improvements in ferry safety include the mandatory installation of voyage data recorders (VDRs), often called "black boxes," required by SOLAS Chapter V since 2002 for all new passenger ships regardless of size, and phased in for existing passenger ships and ships of 3,000 gross tons and above by 2006, capturing data on , communications, and bridge activities for accident investigations. Crew training has advanced through simulation-based programs compliant with the 's Standards of Training, Certification and Watchkeeping (, incorporating scenarios for emergency drills, management, and crowd control to enhance without real-world risks. Additionally, overload sensors—such as load cells and weight monitoring systems—have been integrated into some ferry designs, particularly inland and short-sea operations, to prevent exceeding limits and maintain , with systems alerting operators to excess passengers or . Emerging trends as of 2025 focus on technology-driven enhancements, including AI-powered collision avoidance systems that integrate , AIS, and to predict and mitigate hazards in real-time, increasingly adopted on autonomous and semi-autonomous ferries for improved . inspections are also gaining traction for non-intrusive hull and structural assessments, reducing the need for divers or and enabling proactive to uphold standards. These advancements have contributed to substantial declines in passenger fatality rates on regulated ferries since the , with global data indicating fewer incidents in IMO-compliant fleets due to better prevention and response capabilities.

References

  1. [1]
    FERRY Definition & Meaning | Dictionary.com
    a commercial service with terminals and boats for transporting persons, automobiles, etc., across a river or other comparatively small body of water.
  2. [2]
    Ferry - Definition, Meaning & Synonyms - Vocabulary.com
    A ferry is a boat that carries people, cars, and cargo back and forth across a body of water. The Staten Island Ferry ferries commuters from Manhattan to Staten ...
  3. [3]
    Ferry: Legal Definition and Transportation Guidelines
    A ferry is a type of vessel that operates on a regular schedule to transport people and vehicles between two locations that are no more than 300 miles apart.
  4. [4]
    Ferry - Etymology, Origin & Meaning
    Originating from Old English ferian and Proto-Germanic *farjan, ferry means to carry or transport, especially over water, and also refers to a boat or ...
  5. [5]
    https://www.merriam-webster.com/dictionary/ferry
  6. [6]
    Ferry Boats a Way of Life in Early Connecticut
    Ferries have existed in Connecticut from the earliest days of the colony because of its many rivers and streams too wide to cross by any other means.<|separator|>
  7. [7]
    Ferries: Transportation During the Cherokee Removal 1837 - 1839
    Dec 21, 2021 · Before bridges were common, ferries played an important role in transportation as they provided conveyance over large streams and rivers. Ferry ...
  8. [8]
    America's History of Ferry Accidents & What You Need to Know
    Ferry transportation has been an integral part of America's transportation network for centuries, evolving from humble river crossings to sophisticated ...
  9. [9]
    Different Types of Ferries Used in the Shipping World - Marine Insight
    Jan 21, 2011 · Roll-On/Roll-Off Ferries: These ferries are also known as Ro-Ro ferries. They are a very useful ferry type especially when it comes to cargo ...
  10. [10]
    Everything You Need to Know About Ferries - Martide
    Sep 8, 2022 · Ferries are mainly known as a type of boat that transports passengers from one place to another, and then, often, back again.<|control11|><|separator|>
  11. [11]
    Quantitative Procedures for Designing and Operating Ferry Services
    Ferry transportation services play an important role in regional transportation—providing additional transit capacity to transportation networks and serving as ...
  12. [12]
    Ferry Services and the Community Development of Peripheral ...
    Mar 1, 2022 · For more than 170 years, ferry services have contributed to various aspects of Hong Kong that pertain to social identity, transport network ...
  13. [13]
    Compare ferry Operators with directferries.com
    Bluebridge. Bluebridge is the brand name of a popular and modern passenger ferry service operated by StraitNZ, connecting New Zealand's capital city Wellington ...
  14. [14]
    https://www.degruyterbrill.com/document/doi/10.1515/9781400853465.11/html
  15. [15]
    [PDF] pharaonic prelude—being on the move in ancient egypt from ...
    ABSTRACT. As textual, iconographic, and archaeological evidence shows, travel and mobility were an essential force within Egyptian culture.
  16. [16]
    1995__Sea and River Craft in the Ancient Near East.pdf
    Jan 5, 2025 · Mesopotamian seagoing ships as early as the third millennium BCE sailed to distant but unknown lands for raw materials, almost certainly ...
  17. [17]
    Julius Caesar's Expedition to Brittania - Warfare History Network
    With materials brought from Spain, and through the nearly superhuman efforts of his legionaries, 600 new ships were built, along with 28 traditional war galleys ...
  18. [18]
    Caesar's Leap Across the Channel: The Roman Expedition to Britain ...
    Aug 1, 2025 · On August 26, 55 BC, Julius Caesar stood on the shores of Gaul, gazing across the narrow waters of the English Channel toward a land that ...
  19. [19]
    Theme Envelope of Yongji Yellow River Iron Cows
    Pujin Ferry, located in now Yongji City, Shanxi Province, was a famous ferry crossing in the ancient Yellow River. In the thirteenth year of the reign of ...
  20. [20]
    [PDF] Hiroaki Myiashita Ancient Ships of Japan
    Abundant archaeological evidence has been found from ancient times, unlike the me- dieval period (1167 – 1568 C.E.) and later, for which there is no evidence as ...
  21. [21]
    Clydebuilt ship that changed the world celebrated with new replica
    Sep 15, 2025 · A contract is awarded to build a new replica of Henry Bell's steamship "Comet" that first sailed from Port Glasgow in 1812.
  22. [22]
    Henry Bell, Helensburgh and The Comet
    Dec 15, 2023 · Henry Bell, a Helensburgh entrepreneur, created the Comet, Europe's first commercial steamship, which was wrecked in 1820. He was the first ...
  23. [23]
    Steamboat | History, Uses & Facts - Britannica
    Oct 27, 2025 · Steamboat, any watercraft propelled by steam, but more narrowly, a shallow-draft paddle wheel steamboat widely used on rivers in the 19th century.
  24. [24]
    19th Century Steamships | Bureau of Ocean Energy Management
    19th-century steamships, introduced by Charles Morgan, used steam power and iron hulls. Examples include the New York, Mary, and Josephine.
  25. [25]
    12 things to know about the Staten Island Ferry - SILive.com
    Aug 8, 2016 · Although the first motorized ferry between Staten Island and Manhattan, the steam-powered Nautilus, was launched in 1817, it was Vanderbilt ...
  26. [26]
    London's Steamships: Their Functions and Their Owners in the Mid ...
    Jun 7, 2017 · This paper surveys London's steamships, their functions and their owners in the mid-nineteenth century.Missing: 19th | Show results with:19th
  27. [27]
    Ship - Steam Navigation, Trade, Industry | Britannica
    Oct 15, 2025 · There was a strong geographic expansion under way in Canada and the United States that would be more quickly advanced by steamboats than by land ...
  28. [28]
    A Short History of British India Steam Navigation - Electric Scotland
    The service was inaugurated by BI vessel, Merkara, which left London on February 12, 1881, and anchored in the approaches to the harbour of Brisbane on the ...Missing: 19th | Show results with:19th
  29. [29]
    Ship - 19th Century, Maritime, Trade | Britannica
    Oct 15, 2025 · Pure sailing ships were in active use for another generation, while the earliest steamships were being launched. But by 1875 the pure sailer was ...
  30. [30]
    Diesel-Electric Marine Propulsion - Paxman History Pages
    Feb 2, 2016 · The Company received its first order for engines for a diesel-electric propulsion system in 1930. ... Ferry Company's first diesel-electric vessel ...Missing: Staten | Show results with:Staten
  31. [31]
    The Day I Steered the Ferry - Where Steam Lives
    In the year of my birth, 1965, the City of New York's Department of Marine & Aviation took delivery of its first diesel-electric Staten Island ferries, the ...
  32. [32]
    Ferry traffic - Viking Line
    In 1959, the s/s Viking was the first genuine car ferry to begin service for Viking Line between the Finnish mainland, Åland and Sweden.
  33. [33]
    40 years of Japanese long haul car ferries
    This ship was the first international ferry between Japan and other countries after WWII, and was operated together by Kampu Ferry of Japan and Pukwan Ferry of ...Missing: post | Show results with:post
  34. [34]
    What are Ro-Ro Ships? - Marine Insight
    Mar 10, 2024 · They were introduced in the 1950s. ... Below are the few essential points we must remember while stowing cargo in Roll on-Roll Off vessels:.
  35. [35]
    Container Shipping and the Decline of New York, 1955–1975
    Dec 13, 2011 · Containerization had a devastating impact on New York City's economy, and was a major contributor to the collapse of its industrial base between 1967 and 1975.
  36. [36]
    Electronic Nautical Charts (ENC) and Electronic Chart Display and ...
    In 2000, IMO adopted the revised SOLAS regulation V/19 - Carriage requirements for shipborne navigational systems and equipment to allow an ECDIS to be accepted ...
  37. [37]
    Yara Birkeland | The first zero emission, autonomous ship
    Yara Birkeland will be the world's first fully electric and autonomous container ship, with zero emissions.
  38. [38]
    Yara Birkeland, world's 1st fully electric autonomous containership ...
    May 8, 2025 · Yara Birkeland, the world's first fully electric and autonomous container vessel, is celebrating three years of service.
  39. [39]
    Double-ended ferries: The art of design - Marine Log
    Oct 12, 2016 · With its propulsion at each end, the double-ended ferry has excellent stopping power and superior maneuverability, especially if using an ...
  40. [40]
    (PDF) Design of a Double Ended Ferry - Academia.edu
    The double-ended ferry is dimensioned to carry at least 150 cars and 400 passen- gers. The length of the round trip is 10 nautical miles, and the ship operates ...
  41. [41]
    Double-ended Ferries, Which end is front? | SailNet Community
    Oct 15, 2003 · The ferry goes directly from one dock to the next without turning. Each end has a rudder and propellers.
  42. [42]
    Chapter 2 - Fundamentals of Ferry Capacity
    Double-ended vessels require less maneuvering to depart the dock since they can pull away from the dock facing the direction of travel, whereas single-ended ...
  43. [43]
    Marine Master Plan: Questions | Cape May-Lewes Ferry
    DOUBLE-ENDED FERRIES -- This refers to ferries like ours where vehicles can be on and off-loaded from either end of the vessel, but unlike ours, in this case, ...
  44. [44]
    Manoeuvrability analysis of double ended ferries in preliminary design
    Double ended passenger/vehicle ferries are often utilized for fast turn around in closed seas. The passenger traffic in Istanbul has wide use of passenger ...
  45. [45]
    About our fleet | WSDOT - | WA.gov
    The fleet includes 21 ferries across Puget Sound and the Salish Sea, and it is the largest ferry system in the United States.Missing: double- ended
  46. [46]
    Puget Sound double-ended ferry boats | Travels With Towhee
    Sep 17, 2018 · Double-ended ferries have identical ends with engines and propellers. The forward propeller either turns to minimize resistance or is feathered ...
  47. [47]
    Island Class - BC Ferries
    The Island Class vessels feature a double-ended design for easy loading and unloading, featuring wide vehicle lanes, indoor pet areas, dedicated pedestrian ...
  48. [48]
    Jumbo Mark-II-class ferry - Wikipedia
    Each ferry can carry up to 2,500 passengers and 202 vehicles, making them the largest ferries in the fleet, and the second longest double-ended ferries in the ...<|separator|>
  49. [49]
    Double Ended Ferry - Road ferries - Damen Shipyards
    With a capacity of up to 1,750 passengers and 300 cars, the Road Ferry is fitted with ice strengthening and is capable of operating in storm force 11!
  50. [50]
    Chapter 5.2 – Roll-on/Roll-off (RORO)
    RORO vessels are rectangularly shaped and feature large open spaces and multiple decks, allowing vehicles and cargo on trailers to be easily rolled on and off ...Missing: mechanism | Show results with:mechanism
  51. [51]
    Ro-Ro vessels, roll-on roll-off cargo by sea - Bilogistik
    Aug 10, 2018 · These ramps enable the loading and unloading of vehicles through the stern or the stern and the bow in a swift and straightforward process.Missing: mechanism | Show results with:mechanism
  52. [52]
    Ro-Ro Ships Design, Construction, and Vessel Types - Marine Public
    Insights into roll-on roll-off ship engineering, car carriers, and maritime standards ... Bow and stern ramps. Pax Car Ferry. Extended capacity. Longer routes.Missing: mechanism | Show results with:mechanism
  53. [53]
    RO-RO Ship History - GlobalSecurity.org
    Jul 7, 2011 · The modern roll-on/roll-off ship can trace its origins back more than one hundred years to the early days of the steam train. Ships were ...
  54. [54]
    The Evolution of RoRo Vessels: From Humble Beginnings ... - Logisoft
    Jul 29, 2024 · In the late 1940s and early 1950s, the RoRo concept was adapted for merchant shipping, primarily for short-sea ferry routes. These early ...
  55. [55]
    RO-RO Transport: what it is, features, and benefits - Savino Del Bene
    Jul 22, 2025 · Vehicles are accurately positioned on internal decks and securely fastened using specialized systems such as chains or straps, ensuring ...
  56. [56]
    A Guide for Ro Ro Lashing Chain - H-Lift
    Feb 6, 2024 · A Ro-Ro (Roll-on/Roll-off) lashing chain tensioner is a device used to secure vehicles and cargo on Ro-Ro vessels during transportation.
  57. [57]
    The Complete Guide to RoPax Vessels - Trans-Asia Shipping Lines
    Jul 30, 2025 · Passengers can enjoy seating areas, sleeping areas and cabins for longer journeys, shops, and food options. Larger vehicles may have restaurants ...Missing: variants | Show results with:variants
  58. [58]
    Ropax Vessels: The Dual-Purpose Ferries Connecting Land and Sea
    Jan 3, 2025 · Ropax vessels vary in size, with smaller ones carrying a few hundred passengers and fewer vehicles, while larger ones can accommodate thousands ...Missing: variants | Show results with:variants
  59. [59]
    Stena E-Flexer RoPax Ferry - Ship Technology
    Jan 18, 2019 · The standard version can carry up to 1,000 passengers, including crew, 120 passenger vehicles, and 3,100 lane metres of freight. The ...Recommended Buyers Guides · E-Flexer Ropax Design And... · Propulsion And PerformanceMissing: amenities | Show results with:amenities<|separator|>
  60. [60]
    Viking Line's Viking Grace Passenger Ferry - Ship Technology
    Dec 3, 2013 · Viking Line's new build ferry has the capacity to accommodate 2,800 passengers in 880 cabins. All the passenger cabins are fitted out on decks ...Missing: Ro- Ro
  61. [61]
    High-speed craft - International Maritime Organization
    High-speed craft (HSC) include, among others, air-cushion vehicles (such as hovercraft) and hydrofoil boats. With the development of many new types of HSC ...
  62. [62]
    Naval Gazing Main/Exotic Hulls Part 3 - Planing and Hydrofoils
    Sep 7, 2025 · Starting in the late 50s, hydrofoils became a serious player in the high-speed passenger ferry market, particularly on inland waters. For ...
  63. [63]
    [PDF] Liang Yun · Alan Bliault Huan Zong Rong - Rexresearch1.com
    A series of new variations of high-performance marine vessels (HPMVs) have been developed in the last half century, including improvements to planing ...
  64. [64]
    HSS Stena Explorer – Past and Present. - Dover Ferry Photos
    Twin hulled SWATH (Small Waterplane Area Twin Hull) aluminium catamaran, designated the 'HSS 1500′ class , built by Finnyards, Rauma, Finland.Missing: example | Show results with:example
  65. [65]
    End of the line for Stena Voyager - BBC News
    Sep 1, 2011 · It will save 20 minutes on the journey and means that modern conventional ships can make the crossing almost as quickly as the HSS. And it was ...Missing: 1500 class example
  66. [66]
    [PDF] Fast Ferry Operations and Issues : Phase 2, Report ME 99-5A, 2003
    High Speed Vessel Types: Advantages and Disadvantages…………… ... The speed, power, and fuel consumption of a craft are of prime interest to all parties ... Once the ...
  67. [67]
    Technical and cost analysis of zero-emission high-speed ferries - NIH
    Reducing the ferry's speed and optimizing equipment improves fuel efficiency and economic viability.
  68. [68]
    Liberty Lines commissions first high-speed ferry with mtu hybrid ...
    Jun 28, 2024 · In June 2024, the Italian shipping company Liberty Lines launched the world's first hybrid fast ferry of this category and size in Trapani, ...
  69. [69]
    Ferry system electrification | WSDOT - | WA.gov
    On July 1, 2025, Gov. Bob Ferguson announced that Eastern Shipbuilding Group was awarded a contract to build three new hybrid-electric 160-auto ferries. We ...
  70. [70]
    About Us - Ferry - County of Frontenac
    Top Hull Speed: 5 knots. The Frontenac Howe Islander is a cable ferry that runs on two different cables. The drive cable is a 3/4” cable that is driven ...
  71. [71]
    The Lytton Reaction Ferry – powered by the Fraser River
    May 4, 2018 · This ferry operates from 06:30 am until 10:15 pm 7 days a week, 365 days a year. The river never freezes over here. The ferry capacity is 9 tonnes GVW and 18 ...Missing: Australia | Show results with:Australia
  72. [72]
    Baynes Sound Connector - BC Ferries
    Built 2015, Vancouver · Overall length (m) 78.5 · Maximum displacement (t) 750.0 · Car capacity 45 · Passenger & crew capacity 200 · Maximum speed (knots) 8.5 ...
  73. [73]
    Denman Island cable ferry surpasses 30000 sailings in three years
    May 6, 2019 · The vessel has a maximum speed of over 8.5 knots, and the capacity to carry 50 vehicles, and 150 passengers and crew. See a typo/mistake? Have a ...
  74. [74]
    A Line in the Water: Cable Ferries Are Coming to B.C.
    Jan 26, 2015 · There are hundreds of these types of cable ferries around the world, including dozens of them in Canada. At 1,900 metres in length, this ...Missing: worldwide | Show results with:worldwide
  75. [75]
    [PDF] Human Powered Chain Ferries
    Dec 22, 2016 · The other large English chain ferries are the Cowes Floating Bridge (Isle of Wight), the King Harry. F erry (Cornwall) and the Sandbanks Ferry ( ...
  76. [76]
    Iconic Ferries of the World Part 2: Asia | The Shipyard
    Mar 12, 2023 · 12. Olkhon Island (Russia) · 11. Star Ferry (Hong Kong, China) · 10. Lake Pichola (India) · 9. Selenge River Cable Ferry (Mongolia) · 8. Yarlung ...Missing: examples | Show results with:examples
  77. [77]
    NEW CHANNEL FERRY; For the First Time, Trains From France Are ...
    The British had train ferries working across the Firth of Forth and the River Tay in Scotland as long ago as 1860, before the present Forth and Tay bridges were ...
  78. [78]
    Railroad Car Ferries: History, Purpose, Photos - American-Rails.com
    Jan 31, 2025 · Railroad car ferries are vessels designed to carry railroad cars across water, connecting rail networks and aiding trade, especially in early ...
  79. [79]
    Making Sense of Passenger Vessel Data
    May 6, 2013 · According to the National Census of Ferry Operators 2008, in 2007 a typical ferry plying U.S. waters had a median passenger capacity of 149.
  80. [80]
    Getting around in Venice - Lonely Planet
    Jan 8, 2025 · One of Venice's great transport secrets is the traghetto, a gondola ferry that traverses the Grand Canal at key points and is a staple of many ...
  81. [81]
    What happened to passenger hovercraft? - BBC News
    Nov 9, 2015 · The Hovertravel service between Southsea and Ryde survives because hovercraft are best suited to short routes like those across the Solent, says ...Missing: decline 2009
  82. [82]
    Denmark-Norway | Highlights | Color Line
    Travel from Denmark to Norway in only 3 hours and 15 minutes with SuperSpeed 1. Ferry from Hirtshals to Kristiansand · Ferry Crossing. Hirtshals - Larvik. -10% ...Hirtshals-Larvik · Hirtshals to Kristiansand · Seats On SuperSpeed · Dining
  83. [83]
    Color Fantasy and Color Magic Cruise Ships, Norway
    Aug 9, 2024 · Color Fantasy can accommodate a maximum of 2,605 individuals, with a guest capacity 2,400. The vessel contains 966 cabins with 2,667 beds and ...Missing: definition examples
  84. [84]
    Ferry Terminals and Small Craft Berthing Facilities - Manual Part 1
    Jul 9, 2018 · Slips consist of water areas located directly in front of transfer bridges. They are typically bordered by fender racks. These racks generally ...
  85. [85]
    [PDF] RoRo port and terminal solutions
    • RoRo pontoon linkspans​​ Allow ferries to berth at quays that are otherwise unsuitable because of their size and shape and/or tidal conditions. Berths can also ...
  86. [86]
    [PDF] Linkspans - MacGregor
    The function of linkspans is to level the height difference between the quay and the cargo deck of the vessel in order to provide smoother, safer and.<|separator|>
  87. [87]
    [PDF] Berthing - Maritime Safety Innovation Lab LLC
    Berthing is the controlled mating of a ship with a berth, requiring precise control. This guide covers best practices, risks, and aids like electronic aids.Missing: methods: | Show results with:methods:
  88. [88]
    [PDF] Marine Fendering Systems - Rigmarine
    This section is an aid to selecting and specifying appropriate fender systems for various common applications. It provides typical ship dimensions and.
  89. [89]
    Modelling and simulation of interaction forces in tugboat-assisted ...
    In addition, wind and ocean currents would also affect the manoeuvring and increase the difficulty of the docking operation. While the forces have larger impact ...Missing: ferry | Show results with:ferry
  90. [90]
    Seaspan deploys SmartDock autodocking on the first of two ferries
    Nov 9, 2023 · The SmartDock system enables Seaspan to perform autonomous docking maneuvers even in challenging conditions, where currents reach up to two knots.
  91. [91]
    [PDF] RESOLUTION MSC.518(105) (adopted on 28 April 2022) MODEL ...
    Apr 28, 2022 · 1. These model regulations (a) provide framework provisions on domestic ferry safety for incorporation into national law; ...Missing: 100- 500m approach
  92. [92]
    Queue-constrained packing: A vehicle ferry case study - ScienceDirect
    Mar 1, 2021 · This means that the number of available yard queues influences the degree to which the queue constraints constrain the loading problem.
  93. [93]
    [PDF] Ferry Terminal Inspection Procedures Manual M 3105 - WSdot.com
    Jul 7, 2025 · The ferry terminal vehicle loading facilities are inspected structurally under the agreement. Inspected elements typically include abutments, ...Missing: distribution | Show results with:distribution<|control11|><|separator|>
  94. [94]
    46 CFR § 178.330 - Simplified stability proof test (SST).
    (4) A weight equal to the total weight of all passengers, crew, and variable loads permitted on the vessel is on board and distributed so as to provide normal ...
  95. [95]
    Passenger Weight and Inspected Vessel Stability Requirements
    Dec 14, 2010 · The Coast Guard amends its regulations governing the maximum weight and number of passengers that may safely be permitted on board a vessel and other stability ...
  96. [96]
    [PDF] P&O Ferries ‒ Safety Briefing - Nautilus International
    Mar 24, 2022 · It is vital that any new crewmember joining a ship is aware of their obligations regarding safety procedures, the actions to take during an ...
  97. [97]
    Ship passenger rights - Mobility and Transport - European Union
    EU law protects passengers whose travels are delayed or cancelled and give persons with disabilities or reduced mobility the same opportunities for travelling ...
  98. [98]
    Complete Guide to SOLAS Lifeboat Requirements in 2025
    Jul 21, 2025 · Sufficient capacity for 100% of persons on board, with lifeboats on each side of the vessel. Launchable with full load within 5 minutes, even ...
  99. [99]
    How a ferry company thinks about AI trip planning | PhocusWire
    Jun 26, 2025 · Stena Line Travel and Retail Group CEO Jari Virtanen opens up about the company AI trip planning solution that was born on the back of ...Missing: crowd control Istanbul
  100. [100]
    Public Transport for Large Events - UITP
    These events are also opportunities to introduce smart technologies, such as real-time updates, integrated ticketing systems and AI-driven crowd and operations ...Missing: ferry queuing
  101. [101]
    Innovative Crowd Management That Transforms Public Transit
    Sep 11, 2025 · In 2025, TfL accelerated its deployment of IoT sensors across the city's Tube and bus networks to better monitor passenger loads. An AI platform ...Missing: Istanbul ferry
  102. [102]
    Water Transport - Banglapedia
    Oct 13, 2023 · According to a recent report of ESCAP, Inland Waterways of Bangladesh are estimated to carry about 14% annual passengers (87.80 million per year) ...<|separator|>
  103. [103]
    https://www.imo.org/en/MediaCentre/MeetingSummaries/Pages/MSC-103rd-session.aspx
  104. [104]
    Ro-Ro Ferry Service Connecting Mumbai And Konkan Launches In ...
    Aug 27, 2025 · The Ro-Ro service connecting Mumbai to Konkan via Sindhudurg and Ratnagiri will be launched on September 1 this year.
  105. [105]
    Andaman Ferry Booking - IRCTC Tourism
    IRCTC Tourism is Offering Affordable Online Package Booking for Encouraging Tourism in India. The Ministry of Tourism Provide Best Travel and Tour Packages.<|separator|>
  106. [106]
    PELNI Serves Over 5 Million Passengers Throughout 2024
    Jan 17, 2025 · PT Pelayaran Nasional Indonesia or PT PELNI (Persero) transported 2.76 million customers until August 2022. This number experienced a 191 ...
  107. [107]
    The 30-Hour Ferry Rides That Keep Indonesia Connected
    Feb 24, 2020 · ... archipelago consisting of more than 17,000 officially registered islands. ... islands, William boarded his first PELNI six years ago. A ...
  108. [108]
    Indonesia's Pelni Ferries Are a Lifeline for Decentralized Nation - VOA
    Aug 5, 2017 · Indonesian National Shipping has a fleet of 26 passenger ships that unhurriedly loop around the archipelago, circulating families, ...Missing: Line 200 17000
  109. [109]
    Japan Long Course Ferry Service Association
    Appreciation for marine transportation services have greatly increased following the March 11. 2011 earthquake and tsunami that struck the tohoku and Pacific ...
  110. [110]
    [PDF] 2011 Japan Earthquake/Tsunami – Lessons Learned - IAPH
    Earthquake resistant berth:Specially reinforced berths against earthquake ... Situation of Tokyo Bay (Tohoku Earthquake, 2011). - 400 vessels. - Tsunami ...Missing: post- | Show results with:post-
  111. [111]
    [PDF] KNOWLEDGE NOTE 1-2 Building Performance - GFDRR
    Buildings under current codes and with base isolation fared well in the 2011 GEJE. Japan's code requires buildings to withstand 100% of their weight in lateral ...Missing: ferry | Show results with:ferry
  112. [112]
    Beloved Penang ferries given new life as tourist attractions after ...
    Aug 8, 2021 · The iconic double-decker ferries connecting Penang island's main city, George Town, to Butterworth, on the Malaysian mainland, were withdrawn from a service.
  113. [113]
    Penang launches first-time free ferry rides for pedestrians - The Vibes
    Dec 20, 2021 · Pedestrian passengers disembarking from the ferries can also board the RapidPenang stage buses to move around a major part of George Town – ...<|separator|>
  114. [114]
    The Bright Side: Istanbul's ferries carry passengers and memories ...
    Aug 30, 2025 · The main operator Sehir Hatlari carries at least 40 million passengers a year. "Any view of Istanbul must include Maiden's Tower, a ferry and a ...
  115. [115]
    Istanbul Ferries: Connecting Europe and Asia with Scenic ...
    Aug 31, 2025 · To this day, Şehir Hatları manages a fleet of 30 ferries and operates 32 routes, ranking among the globe's largest municipal ferry companies.
  116. [116]
    addressing ferry safety challenges in developing regions
    Apr 24, 2025 · Overcrowding and overloading is a persistent challenge, especially in developing regions, due to a multiplicity of factors including inadequate ...Missing: 2020s | Show results with:2020s
  117. [117]
    Domestic Ferry Safety - International Maritime Organization
    These voluntary guidelines aim to address the high number of casualties associated with domestic ferry incidents by providing a framework for member states to ...Missing: approaches 100- 500m
  118. [118]
    Annual Report Accounts 2023 - Port Of Dover
    Jul 2, 2024 · The report demonstrates an increase in passenger numbers of 35% to 8.9 million and a rise of 26% to 1.6 million tourist vehicles from 2022's figures.
  119. [119]
    Wightlink | Isle of Wight ferries - Wightlink Ferries
    Award-winning ferry service between the Isle of Wight and UK mainland, bringing 4.3 million people together every year. Crossing times from just 22 minutes.Tickets · Timetables · Contact us · Live service status
  120. [120]
    Isle of Wight Ferry | Southampton to Isle of Wight | Red Funnel Ferries
    Journey times: Red Jet 28 minutes, Vehicle Ferry 60 minutes, Freight Ferry 70 minutes. Freight-only sailings have restricted capacity and are available for ...Route · Isle of Wight Ferry Timetable · Ferry Information · Isle of Wight Ferry Routes
  121. [121]
    A fleet of hybrid ferries - Scandlines
    Scandlines' hybrid ferries combine diesel with electricity, using batteries to optimize engine load, reducing CO2 emissions by up to 15,000 tons per year.
  122. [122]
    Stockholm–Åland–Helsinki vv - Viking Line
    05.01 Last sailing from Helsinki at 17.15. 06.01 Arrival in Stockholm at 10.00. 06.01–28.01 No sailings from Stockholm. 07.01–29.01 No sailings from Helsinki.
  123. [123]
    Varsovia – Large Ro-Pax for Polferries' Baltic Sea service
    Sep 10, 2024 · Polferries' Varsovia, a state-of-the-art Ro-Pax ferry, enhances Baltic Sea travel with low-emission engines, spacious cabins, and efficient ...
  124. [124]
    Ferries to Sardinia, Spain, Greece, Sicily and Tunisa.
    The Grimaldi Lines route from Civitavecchia to Olbia and vice versa is seasonal and active in the summer months from 01/06/2026 to 30/09/2026.Grimaldi Lines Rates · Travel with Grimaldi Lines... · Greece · Grimaldi Club
  125. [125]
    About Us - Şehir Hatları ®
    Şehir Hatları carries out 903 trips per day with 53 ship terminals and 30 ferries, transporting around 40 million passengers per year. Traveling across the ...Missing: 50 | Show results with:50
  126. [126]
    Fall in freight passing through Northern Ireland ports - BBC
    Sep 20, 2023 · Car ferry traffic was up by 9.5% to 583,000 vehicles; compared with the pre-Covid level in 2019 it represents an increase of nearly 25%.
  127. [127]
    InvestEU: NIB lends to zero and low carbon vessels with ...
    Mar 14, 2024 · NIB signs a 7-year loan to co-finance ferry and express boat operator Norled AS' investments in zero and low carbon vessels and related land-based ...
  128. [128]
    MF Ampere marks its 10th anniversary – a world first that started a ...
    The world's first all-electric ferry went into operation on February 16, 2015, when MF Ampere crossed the stretch between Lavik and Oppedal on the E39 ...
  129. [129]
    Amazon boat trip by slow boat - Stingy Nomads
    Jul 19, 2020 · A slow boat is a big ferry that can transport both passengers and cargo on the river. Since there are no roads connecting many parts of the ...<|separator|>
  130. [130]
    https://www.annaroundtheworld.com/blog/everything-you-need-to-know-about-the-amazon-ferry-from-manaus-to-macap/
  131. [131]
    From Punta Arenas to Ushuaia – by bus and ferry to the end of the ...
    Sep 19, 2023 · In this blog we explore how to travel overland by bus between Punta Arenas in Chile across Tierra del Fuego to Ushuaia in Argentina.
  132. [132]
    Ferry Ride on Lake Nasser from Aswan to Wadi Halfa - Jammin Global
    Feb 10, 2012 · The ferry runs from Aswan, the southernmost city in Egypt, along the 550 kms (340 mi) of Lake Nasser to Wadi Halfa, the first town after crossing into Sudan.Missing: River | Show results with:River
  133. [133]
    Lake Victoria Tanzania ferry disaster: Divers hunt for survivors - BBC
    Sep 21, 2018 · In 1996, more than 800 people died when the MV Bukoba capsized on Lake Victoria. It was one of the the worst ferry disasters of the last century ...
  134. [134]
    https://www.independent.co.ug/gen-katumba-launches-250-passenger-mv-rafiki-on-lake-victoria/
  135. [135]
    Spirit Of Tasmania | Be A Spirited Traveller
    Spirit of Tasmania is a ferry service connecting Tasmania to the Mainland. Providing transport for passengers, cars, caravans and trucks.Before you sail · Book · Sailing schedule · Vehicle boarding
  136. [136]
    Cook Strait Weather: Everything You Need To Know - Interislander
    It's worth noting that a choppy Cook Strait swell or poor weather can mean the ferry crossing takes longer. Or, the Interislander ferry may take a slightly ...
  137. [137]
    Facts About The Great Barrier Reef
    Fact: The Great Barrier Reef is a popular tourist destination with over two million visitors each year. Tourism to the reef generates approximately AU$6 billion ...Missing: 2023 | Show results with:2023
  138. [138]
    $$250 for a one-minute ride… and you can't get to the Tip without it ...
    Aug 11, 2025 · $250 for a one-minute ride… and you can't get to the Tip without it! The Jardine River Ferry – quick, pricey, and an absolute rite of passage ...
  139. [139]
    Color Magic cruise ship - takes you from Oslo to Kiel - Color Line
    The Color Magic cruise ship was built in year 2007 and has enough room for 2600 passengers. Discover the ferry that takes you from Kiel to Oslo.Missing: definition examples
  140. [140]
    Color Magic ferry (COLOR LINE) - CruiseMapper
    Rating 4.0 (68) The ship has a maximum capacity of 2812 passengers and 550 cars. Launched in 2007, she currently operates on the Norway-Germany ferry route between Oslo and ...
  141. [141]
    PHOTO ESSAY: Istanbul's ferries, a lifeline connecting continents ...
    Jul 1, 2025 · Forty million commuters, tourists, vendors and other travelers ride the Istanbul Metropolitan City Lines every year, according to official figures.<|control11|><|separator|>
  142. [142]
    [PDF] Washington State Ferries - Fact Sheet - February 2025
    Second-largest ferry system in the world for vehicles carried with more than 9 million in 2024. •. Fleet of 21 auto-passenger vessels. •. Operates 20 terminals ...
  143. [143]
    About Us | BC Ferries
    Today we have 37 ferries moving more than 22.7 million passengers and 9.7 million vehicles every year.Our leadership · Investor Relations · Freedom of Information
  144. [144]
    List of BC Ferries ships - Wikipedia
    There are at least 45 vessels, ranging from small passenger-only water taxis, up to the 358-car Spirit-class ferries. All of the vessels in use by BC Ferries ...Current vessels · Former vessels · Future vessels<|control11|><|separator|>
  145. [145]
    Viking Line presents concept for world's largest fully electric Ro-Pax ...
    Jun 6, 2025 · The concept envisions a 195-metre-long vessel capable of carrying approximately 2,000 passengers and two kilometres of freight capacity. It ...
  146. [146]
    Fastest ferry | Guinness World Records
    With a top speed of 58.1 knots (67 mph; 107 km/h), it is the fastest ferry in the world. The HSC Francisco, named after Pope Francis, the first Argentinian ...
  147. [147]
    Dual-Fuel Ferry Claims World's Fastest Ship - gCaptain
    Jun 19, 2013 · The 99-meter vessel, named Francisco, tops out at a lightship speed of 58.1 knots, or 66 miles per hour. The company admits that, of course, ...
  148. [148]
    The World's Fastest Ship – Built in Tasmania is Christened by ...
    May 2, 2019 · Francisco is the fourth Incat built vessel with service speed over 50 knots. The past three consecutive winners of the Hales Trophy, the ...
  149. [149]
    Paddle steamer “Stadt Wehlen” - Sächsische Dampfschifffahrt
    Built in 1879, the PD “Stadt Wehlen” with its original steam engine is the oldest paddle steamer in the fleet. Cozy salons, reconstructed with great attention ...
  150. [150]
    History - Sächsische Dampfschifffahrt
    On July 30th, 1837, the Saxon Steamship Company began regular operations with the maiden voyage of the paddle steamer “Königin Maria”. After the company was ...
  151. [151]
    https://pocketmags.com/us/ships-monthly-magazine/aug-25/articles/greek-ferries
  152. [152]
    Appears it can be done. Former Sealink ferry Saint Eloi launched ...
    Mar 23, 2023 · Former Sealink ferry Saint Eloi launched 1975 still in service at 48 years of age. 1975 former Sealink ferry now operating in Greece | Heritage ...Contrasts in 70s and 80s ferry design; the Prince of Scandinavia ...How long does the ferry ships stay in service on average? 20 years+More results from www.facebook.com
  153. [153]
    Insight: Ships get older and slower as emissions rules bite | Reuters
    Jul 12, 2022 · Average age of vessels up more than two years since 2017 · New emissions rules may force older ships to go slower · One-fifth of ships fitted with ...
  154. [154]
    Marine Steam Engines: Why Modern Yachts Still Echo Steam-Era ...
    Jul 23, 2025 · Environmental regulations also pose challenges for steam yacht operation. Modern emissions standards and fuel efficiency requirements make steam ...
  155. [155]
    Passenger Ferries Market Size, Share & 2030 Trends Report
    Aug 14, 2025 · Indonesia's ASDP grew its network to 154 routes covering 13,000 km, linking remote islands and opening cross-border services to Malaysia and the ...
  156. [156]
    Passenger Ferry Market Size & Opportunities, 2025-2032
    Aug 4, 2025 · State-owned PT ASDP Indonesia Ferry operates a vast network of routes supporting millions of passengers annually. Government investment in ...<|separator|>
  157. [157]
    Ferry - Wikipedia
    A ferry is a boat or ship that transports passengers, and occasionally vehicles and cargo, across a body of water. A small passenger ferry with multiple stops, ...
  158. [158]
    Largest passenger ferry system (by passenger trips)
    Largest passenger ferry system (by passenger trips) ; Who: Istanbul ; What: 100,000,000 people ; Where: Türkiye (Istanbul) ; When: 2012.
  159. [159]
    Scandinavian ferry routes: which countries are linked by ferries?
    May 19, 2022 · There's only one major ferry connection between Sweden and Norway. It's a relatively short journey linking the cities of Strömstad and ...
  160. [160]
    Ferries from Denmark to Sweden
    There are 2 ferry routes operating between Denmark and Sweden offering you combined total of 56 sailings per week. Stena Line operates 2 routes, Frederikshavn ...
  161. [161]
    [PDF] Applying the Island Transport Equivalent to the Greek Islands
    With 143 ports serving ferries, Greece has the densest ferry port network in Europe, followed by Denmark with 72 and Croatia with 62 (FEI, 2017). Over the past ...
  162. [162]
    Greek Islands Ferry Routes 2025 - Ferryhopper
    In 2025, ferries from Thessaloniki to the North Aegean islands normally run with 1-2 weekly departures to Lesbos, Chios, Samos, as well as Lemnos. The ferry ...<|separator|>
  163. [163]
    MF Ampere - World´s first fully electric ferry sailing for over 10 years
    The MF Ampere is the world's first fully electric ferry, sailing 17 times around the equator on batteries, reducing CO2 emissions by 2,700 tons annually.
  164. [164]
    [PDF] Battery Electric Ferry: The Ampere in Norway - EPRI
    The Ampere, the world's first electric battery powered car and passenger ferry, entered operation with Norled in January 2015 in Norway.
  165. [165]
    Ferries Worldwide Are Becoming Electrified
    Jun 4, 2025 · Worldwide, 70% of ferries on order will have electric drivetrains, according to CleanTechnica. Existing vessels are often being retrofitted for ...
  166. [166]
    Linde Starts Up Supply to World's First Hydrogen Ferry
    Mar 31, 2023 · Linde is supplying ferry operator Norled with clean hydrogen for the fuel-cell powered MF Hydra. In addition to supplying clean liquid hydrogen ...
  167. [167]
    Norled's MF Hydra achieves significant operational milestones
    Sep 30, 2024 · The world's first commercial passenger and car ferry fueled by liquid hydrogen and has now been in operation since March 2023.
  168. [168]
    MAN Energy Solutions Wins Order for Battery-Hybrid Dual-Fuel ...
    Jun 4, 2019 · For Seaspan, it was essential to avoid any diesel operation due to environmental and ecological reasons. High system efficiency and the lowest ...
  169. [169]
    How did Seaspan Ferries take the easy route to 90% less carbon ...
    Nov 23, 2023 · Learn what three measures helped Canadian ferry operator Seaspan Ferries slash the well-to-wake carbon intensity of one of its vessels by a colossal 90%.
  170. [170]
    [PDF] — Electric passenger ferries Future charging infrastructure - ABB
    Onboard the ship, space and weight constraints may dictate how much battery volume may be deployed. Batteries are heavy (higher density than bunker fuel) and ...
  171. [171]
    Electric Ferries: Range & Sustainability, Explained - Candela
    Aug 29, 2024 · High initial investment costs, along with the lack of fast-charging infrastructure, are major challenges for the growth of the electric ferry ...
  172. [172]
    Climate change: Should you fly, drive or take the train? - BBC
    Aug 23, 2019 · The BEIS has also put a figure on ferry transport - 18g of CO2 per passenger kilometre for a foot passenger, which is less than a coach, or 128g ...
  173. [173]
    Which form of transport has the smallest carbon footprint?
    Aug 30, 2023 · Taking the Eurostar emits around 4 grams of CO2 per passenger kilometer, compared to 154 grams from a short-haul flight. So the footprint of ...
  174. [174]
    [PDF] Regulated Slow Steaming in Maritime Transport
    This means that a 10% reduction in speed results in an approximate 27% reduction in shaft power requirements.Missing: percentage | Show results with:percentage
  175. [175]
    Shore Power Technology Assessment at U.S. Ports | US EPA
    Shore power infrastructure has the potential to significantly reduce emissions by enabling vessels to turn off their engines, and instead plug into the ...Missing: ferries | Show results with:ferries
  176. [176]
    Ferry and Ro-Ro Ship Shore Power - ESL Power Systems, Inc.
    Environmental Benefits: By using shore power, ferries can significantly reduce diesel emissions, improving air quality in port areas. Cost Savings: Reducing ...
  177. [177]
    IMO 2020 – cutting sulphur oxide emissions
    Known as “IMO 2020”, the rule limits the sulphur in the fuel oil used on board ships operating outside designated emission control areas to 0.50% m/m (mass by ...
  178. [178]
    Analysis: How low-sulphur shipping rules are affecting global warming
    Jul 3, 2023 · In 2020, regulations introduced by the IMO imposed strict limits on the sulphur content of marine fuels. The new rules lowered the maximum ...<|separator|>
  179. [179]
    Implementing the Ballast Water Management Convention
    The BWM Convention aims to prevent spread of harmful organisms. Ships must manage ballast water, have a management plan, record book, and certificate. D-1 and ...Missing: ferries | Show results with:ferries
  180. [180]
    https://www.carbonbrief.org/analysis-how-low-sulphur-shipping-rules-are-affecting-global-warming/
  181. [181]
    Stena Line implements AI for voyage optimization - Marine Log
    Jun 3, 2024 · Leading European ferry operator Stena Line reports that it is seeing a 1-5%reduction in fuel consumption thanks to its strategic use of artificial intelligence ...
  182. [182]
    AI helps ferries cut fuel consumption in Sweden - DC Velocity
    Aug 16, 2022 · Pilot tests show that iHelm can cut fuel consumption by 10% to 25% for small- to medium-sized vessels that are less than 330 feet long, and 3% ...
  183. [183]
    Herald of Free Enterprise: A wake-up call for Ro-Ro safety - safety4sea
    Apr 25, 2019 · As a result, 193 people onboard (others say 188) lost their lives, mostly from hypothermia. Many others were injured. Probable causes. The ...
  184. [184]
    https://www.dcvelocity.com/articles/55293-ai-helps-ferries-cut-fuel-consumption-in-sweden
  185. [185]
    Estonia ferry disaster inquiry backs finding bow door was to blame
    Jan 23, 2023 · The 1994 Estonia ferry disaster that claimed the lives of 852 people was caused by a faulty bow door rather than by a collision or explosion.<|separator|>
  186. [186]
    https://safety4sea.com/wp-content/uploads/2019/04/UK-Department-of-Transport-MV-HERALD-OF-FREE-ENTERPRISE-Report-Formal-Investigation-2019_04.pdf
  187. [187]
    South Koreans still seek answers 10 years after Sewol ferry disaster
    Apr 16, 2024 · On the morning of April 16, 2014, the Sewol sank with 476 passengers and crew on board. Of the 304 people killed, 250 were students from the ...
  188. [188]
    Ferry disaster: Too much cargo contributed to sinking, police say
    May 7, 2014 · The South Korean ferry disaster that killed more than 260 people last month was caused in part by excessive cargo and a failure to tie that cargo down properly.
  189. [189]
    DCA19MM047.aspx - NTSB
    The vessel burned to the waterline and sank just after daybreak, and no survivors were found. Thirty-three passengers and one crewmember died.
  190. [190]
    Five years after 34 died in Conception boat fire, NTSB says Coast ...
    Sep 2, 2024 · Thirty-four people died aboard the Conception on Labor Day in 2019, when a fire erupted on the main deck while dozens of divers slept in a windowless bunk room ...
  191. [191]
    Trends, Causal Analysis, and Recommendations from 14 Years of ...
    This high rate of accidents and fatalities is linked to a number of causes, including substandard vessels, overcrowding, and a lack of training for emergency ...
  192. [192]
    EDITORIAL | Ferry fatalities nearly double in 2023 - Baird Maritime
    Feb 5, 2024 · Tragically, 2024 is already looking worse – much worse. In January 2024, alone, 237 people have been the victims of ten ferry accidents.
  193. [193]
    Summary of SOLAS chapter III - International Maritime Organization
    Life-saving appliances · History of life-saving appliances requirements · Prevention of accidents involving lifeboats · FAQs related to life-saving appliances.
  194. [194]
    Safety of ro-ro ferries - International Maritime Organization
    The development of ro-ros​​ The modern roll-on/roll-off ship can trace its origins back more than one hundred years to the early days of the steam train.
  195. [195]
    [PDF] Safety of ro-ro passenger ships - European Parliament
    Feb 18, 2022 · Directive 2003/25/EC, which established specific damage stability requirements for ferries following the accident with the MS Estonia and which ...
  196. [196]
    Passenger Vessels - dco.uscg.mil - Coast Guard
    International Safety Management (ISM) for Small Passenger Vessels: ISM applies to vessels inspected under 46 CFR Subchapter H, K and T that carry more than 12 ...
  197. [197]
    Voyage Data Recorders - International Maritime Organization
    The regulation requires a VDR, which may be an S-VDR, to be fitted on existing cargo ships of 3,000 gross tonnage and upwards, phasing in the requirement for ...
  198. [198]
    DNV: Simulation is becoming central to preparing seafarers for real ...
    Sep 1, 2025 · High-quality and realistic simulation training plays a vital role in preparing crews for the real-world challenges they will face. The updated ...
  199. [199]
    Overload Monitoring System for Inland River Ferries - IEEE Xplore
    This article elaborates an intelligent monitoring system for monitoring and collecting various information of passenger ferry during the operation of the ship ...
  200. [200]
    Top 5 safety innovations in the maritime industry in 2025
    Sep 4, 2025 · 1. Predictive maintenance driven by AI data insights · 2. Intelligent Navigation · 3. Robotics and Augmented Reality in Onboard Maintenance and ...
  201. [201]
    UAV Maritime Inspections: Enhancing Efficiency and Safety at Sea
    These include dynamic monitoring of ships and passenger ferries, monitoring dangerous goods, issuing navigation warnings in tributary waters, supervising water ...
  202. [202]
    Insight report on safety in the passenger ferry industry
    Jun 1, 2018 · Ninety-three per cent of ferry accidents occurred during domestic voyages, with 90% of fatalities occurring in just 20 countries and 76% in 10.