fbpx
Wikipedia

Electric boat

May 04, 2023

This article is about electrically powered boats in general. For the company called "Electric Boat", see General Dynamics Electric Boat.

An electric boat is a powered watercraft driven by electric motors, which are powered by either on-board battery packs, solar panels or generators.

In 2012, PlanetSolar became the first ever solar electric vehicle to circumnavigate the globe.
The solar passenger boat Solifleur, Switzerland, 1995
Basilisk 3

While a significant majority of water vessels are powered by diesel engines, with sail power and gasoline engines also popular, boats powered by electricity have been used for over 120 years. Electric boats were very popular from the 1880s[1] until the 1920s, when the internal combustion engine became dominant. Since the energy crises of the 1970s, interest in this quiet and potentially renewable marine energy source has been increasing steadily, especially as more efficient solar cells have become available, for the first time making possible motorboats with a theoretically infinite cruise range like sailboats. The first practical solar boat was probably constructed in 1975 in England.[2] The first electric sailboat to complete a round-the-world tour (including a transit of the Panama Canal) using only green technologies is EcoSailingProject.

History

Early

 
Moritz von Jacobi, inventor of an early electric boat

An early electric boat was developed by the German inventor Moritz von Jacobi in 1839 in St Petersburg, Russia. It was a 24-foot (7.3 m) boat which carried 14 passengers at 3 miles per hour (4.8 km/h). It was successfully demonstrated to Emperor Nicholas I of Russia on the Neva River.

Golden Age

 
Outboard motorboat of Gustave Trouvé in 1881

It took more than 30 years of battery and motor development before the electric boat became a practical proposition. This method of propulsion enjoyed something of a golden age from about 1880 to 1920, when gasoline-powered outboard motors became the dominant method. Gustave Trouvé, a French electrical engineer, patented a small electric motor in 1880. He initially suggested that the motor could power a set of paddle wheels to propel boats on the water, and later argued for the use of a propeller.

 
Electric motor designed by Immisch & Co., who established the first fleet of electric launches in London

An Austrian émigré to Britain, Anthony Reckenzaun, was instrumental in the development of the first practical electric boats. While working as an engineer for the Electrical Power Storage Company, he undertook much original and pioneering work on various forms of electric traction. In 1882 he designed the first significant electric launch driven by storage batteries, and named the boat Electricity.[3] The boat had a steel hull and was over seven metres long. The batteries and electric equipment were hidden from view beneath the seating area, increasing the space available for the accommodation of passengers. The boats were used for leisure excursions up and down the River Thames and provided a very smooth, clean and quiet trip. The boat could run for six hours and operate at an average speed of 8 miles per hour.[4]

Moritz Immisch established his company in 1882 in partnership with William Keppel, 7th Earl of Albemarle, specializing in the application of electric motors to transportation. The company employed Magnus Volk as a manager in the development of their electric launch department. After 12 months of experimental work starting in 1888 with a randan skiff, the firm commissioned the construction of hulls which they equipped with electrical apparatus. The world's first fleet of electric launches for hire, with a chain of electrical charging stations, was established along the River Thames in the 1880s. An 1893 pleasure map of the Thames shows eight "charging stations for electric launches" between Kew (Strand-on-the-Green) and Reading (Caversham).[1] The company built its headquarters on the island called Platt's Eyot.

From 1889 until just before the First World War the boating season and regattas saw the silent electric boats plying their way up and downstream.[5]

 
Early electric launch on the River Thames, built by William Sargeant

The company's electric launches were widely used by the rich as a conveyance along the river. Grand ships were constructed of teak or mahogany and furnished luxuriously, with stained glass windows, silk curtains and velvet cushions. William Sargeant was commissioned by Immisch's company to build the Mary Gordon in 1898 for Leeds City Council for use on the Roundhay Park Lake - the boat still survives and is currently being restored.[6] This 70-foot long luxury pleasure craft could carry up to 75 passengers in comfort. Launches were exported elsewhere - they were used in the Lake District and all over the world.

In the 1893 Chicago World Fair 55 launches developed from Anthony Reckenzaun's work carried more than a million passengers.[7][8] Electric boats had an early period of popularity between around 1890 and 1920, before the emergence of the internal combustion engine drove them out of most applications.

Most of the electric boats of this era were small passenger boats on non-tidal waters at a time when the only power alternative was steam.

Decline

With the advent of the gasoline-powered outboard motor, the use of electric power on boats declined from the 1920s. However, in a few situations, the use of electric boats has persisted from the early 20th century to the present day. One of these is on the Königssee lake, near Berchtesgaden in south-eastern Germany. Here the lake is considered so environmentally sensitive that steam and motor boats have been prohibited since 1909. Instead the Bayerische Seenschifffahrt company and its predecessors have operated a fleet of electric launches to provide a public passenger service on the lake.[9][10][11]

The first electrically powered submarines were built in the 1890s, such as the Spanish Peral submarine, launched in 1888.[12] Since then, electric power has been used almost exclusively for the powering of submarines underwater (traditionally by batteries), although diesel was used for directly powering the propeller while on the surface until the development of diesel–electric transmission by the US Navy in 1928, in which the propeller was always powered by an electric motor, energy coming from batteries while submerged or diesel generator while surfaced.

The use of combined fuel and electric propulsion (combined diesel–electric or gas, or CODLOG) has gradually been extended over the years to the extent that some modern liners such as the Queen Mary 2 use only electric motors for the actual propulsion, powered by diesel and gas turbine engines. The advantages include being able to run the fuel engines at an optimal speed at all times and being able to mount the electric motor in a pod which may be rotated by 360° for increased manoeuvrability. Note that this is not actually an electric boat, but rather a variant of diesel–electric or turbine-electric propulsion, similar to the diesel or electric propulsion used on submarines since WWI.

Renaissance

 
An electric passenger launch on Lake Königssee in Germany

The use of electricity alone to power boats stagnated apart from their outboard use as trolling motors until the Duffy Electric Boat Company of California started mass-producing small electric craft in 1968. It was not until 1982 that the Electric Boat Association was formed and solar powered boats started to emerge.[13] To reduce friction and increase range, some boats use hydrofoils.[14]

Components

The main components of the drive system of any electrically powered boat are similar in all cases, and similar to the options available for any electric vehicle.

Charger

Electric energy has to be obtained for the battery bank from some source like the sun.

  • A mains charger allows the boat to be charged from shore-side power when available. Shore-based power stations are subject to much stricter environmental controls than the average marine diesel or outboard motor. By purchasing green electricity it is possible to operate electric boats using sustainable or renewable energy. For large vessels, an onshore battery may be necessary to provide more short-term power than the grid can supply.
     
    2.5 MW Automatic coupling robot charger for the Herjólfur Ferry in Iceland.
  • Solar panels can be built into the boat in reasonable areas in the deck, cabin roof or as awnings. Some solar panels, or photovoltaic arrays, can be flexible enough to fit to slightly curved surfaces and can be ordered in unusual shapes and sizes. Nonetheless, the heavier, rigid mono-crystalline types are more efficient in terms of energy output per square meter. The efficiency of solar panels rapidly decreases when they are not pointed directly at the sun, so some way of tilting the arrays while under way is very advantageous.
  • Towed generators are common on long-distance cruising yachts and can generate a lot of power when travelling under sail. If an electric boat has sails as well, and will be used in deep water (deeper than about 15 m or 50 ft), then a towed generator can help build up battery charge while sailing (there is no point in trailing such a generator while under electric propulsion as the extra drag from the generator would waste more electricity than it generates). Some electric power systems use the free-wheeling drive propeller to generate charge through the drive motor when sailing, but this system, including the design of the propeller and any gearing, cannot be optimised for both functions. It may be better locked off or feathered while the towed generator's more efficient turbine gathers energy.
  • Wind turbines are common on cruising yachts and can be very well suited to electric boats. There are safety considerations regarding the spinning blades, especially in a strong wind. It is important that the boat is big enough that the turbine can be mounted out of the way of all passengers and crew under all circumstances, including when alongside a dock, a bank or a pier. It is also important that the boat is big enough and stable enough that the top hamper created by the turbine on its pole or mast does not compromise its stability in a strong wind or gale. Large enough wind generators could produce a completely wind-powered electric boat. No such boats are yet known although a few mechanical wind turbine powered boats exist.
  • In hybrid electric boats, if a boat has an internal combustion engine anyway, then its alternator will provide significant charge when it is running. Two schemes are in use: the combustion engine and the electric motor are both coupled to the drive (parallel hybrid), or the combustion engine drives a generator only for charging the storage batteries (series hybrid).

In all cases, a charge regulator is needed. This ensures that the batteries are charged at their maximum safe rate when power is available, without overheating or internal damage, and that they are not overcharged when nearing full charge.

Battery bank

 
Example of a modern production electric boat
 
SB Collinda, the first solar powered boat to cross the English Channel, seen here in Bristol Harbour

There have been significant technical advances in battery technology in recent years, and more are to be expected in the future.

  • Lead–acid batteries were still the most viable option until the advent of larger, lithium-ion batteries mass-produced for electric cars from approximately 2012 onwards. Deep-cycle, 'traction' batteries are the obvious choice. They are heavy and bulky, but not much more so than the diesel engine, tanks and fittings that they may replace. They need to be securely mounted, low down and centrally situated in the boat. It is essential that they cannot move around under any circumstances. Care must be taken that there is no risk of the strong acid being spilled in the event of a capsize as this could be very dangerous. Venting of explosive hydrogen and oxygen gases is also necessary. Typical lead-acid batteries must be kept topped-up with distilled water.
  • Valve-regulated lead-acid batteries (VRLA), usually known as sealed lead-acid, gel, or AGM batteries, minimize the risk of spillage, and gases are only vented when the batteries are overcharged. These batteries require minimal maintenance, as they cannot and usually do not need to be refilled with water.
  • Nickel metal hydride, lithium-ion and other battery types are becoming available, but are still expensive. These are the kind of batteries currently common in rechargeable hand tools like drills and screwdrivers, but they are relatively new to this environment. They require different charge controllers to those that suit lead-acid types.
  • Lithium-ion in this case usually means lithium iron phosphate batteries, which although are heavier than other lithium-ion, is safer for marine application. They are expensive but in applications which need reliability and ruggedness like ferries which run most of the day (10–12 hours/day) this is the best option. It has a much longer life - 5 to 7 years life-cycle.
  • Fuel cells or flow batteries may provide significant advantages in years to come. Today (2017) however they are still expensive and require specialist equipment and knowledge.

The size of the battery bank determines the range of the boat under electric power. The speed at which the boat is motored also affects range – a lower speed can make a big difference to the energy required to move a hull. Other factors that affect range include sea-state, currents, windage and any charge that can be reclaimed while under way, for example by solar panels in full sun. A wind turbine in a good wind will help, and motor-sailing in any wind could do so even more.

Speed controller

To make the boat usable and manoeuvrable, a simple-to-operate forward/stop/backwards speed controller is needed. This must be efficient—i.e. it must not get hot and waste energy at any speed—and it must be able to stand the full current that could conceivably flow under any full-load condition. One of the most common types of speed controllers uses pulse-width modulation (PWM). PWM controllers send high frequency pulses of power to the motor(s). As more power is needed the pulses become longer in duration.

Electric motor

A wide variety of electric motor technologies are in use. Traditional field-wound DC motors were and still are used. Today many boats use lightweight permanent magnet DC motors. The advantage of both types is that while the speed can be controlled electronically, this is not a requirement. Some boats use AC motors or permanent magnet brushless motors. The advantages of these are the lack of commutators which can wear out or fail and the often lower currents allowing thinner cables; the disadvantages are the total reliance on the required electronic controllers and the usually high voltages which require a high standard of insulation.

 
An example of an electric retrofit. Two 9 kW LMC motors powered by 16 Interstate deep-cycle 6-volt batteries.

Drive train

Traditional boats use an inboard motor powering a propeller through a propeller shaft complete with bearings and seals. Often a gear reduction is incorporated in order to be able to use a larger more efficient propeller. This can be a traditional gear box, coaxial planetary gears or a transmission with belts or chains. Because of the inevitable loss associated with gearing, many drives eliminate it by using slow high-torque motors. The electric motor can be encapsulated into a pod with the propeller and fixed outside the hull (saildrive) or on an outboard fixture (outboard motor).

Types

There are as many types of electric boat as there are boats with any other method of propulsion, but some types are significant for various reasons.

 
RA66 Helio is a solar-powered 20 m catamaran cruising on the Untersee, a part of Lake Constance. It is based in Radolfzell, Germany.
  • Historical and restored electric boats, such as the Mary Gordon Electric Boat, exist and are often important projects for those involved.
 
An example of an old idea re-birthed. In 2014, the first electric retrofit of its kind was performed on a 1973 Tollycraft 30' Sedan Cruiser. The vessel was originally powered by two (2) Chrysler 318 V8's accompanied by two (2) 80 gallon fuel tanks. The conversion took place in Vancouver, Canada and the vessel (e-Tolly) is now powered by two 9 kW LMC motors with energy supplied by 16 Interstate deep-cycle 6 -volt batteries. Maximum Endurance 13 h. Maximum Speed 10 knots.
  • Range anxiety is a common concern for those considering electric propulsion on a boat. In 2018, the crew of Rigging Doctor on board Wisdom crossed the Atlantic Ocean with an electric motor.[15]
 
Sailboat Wisdom on her voyage across oceans with an electric motor
  • Canal, river and lake boats. Electric boats, with their limited range and performance, have tended to be used mostly on inland waterways, where their complete lack of local pollution is a significant advantage. Electric drives are also available as auxiliary propulsion for sailing yachts on inland waters.
  • Electric outboards and trolling motors have been available for some years at prices from about $100 (US) up to several thousand. These require external batteries in the bottom of the boat, but are otherwise practical one-piece items. Most available electric outboards are not as efficient as custom drives, but are optimised for their intended use, e.g. for inland waterway fishermen. They are quiet and they do not pollute the water or the air, so they do not scare away or harm fish, birds and other wildlife. Combined with modern waterproof battery packs, electric outboards are also ideal for yacht tenders and other inshore pleasure boats.
  • Cruising yachts usually have an auxiliary engine, and there are two main uses for it: One is to power ahead or motor-sail at sea when the wind is light or from the wrong direction. The other is to provide the last 10 minutes or so of propulsion when the boat is in port and needs to be manoeuvred into a tight berth in a crowded and confined marina or harbour. Electric propulsion is not suitable for prolonged cruising at full power although the power required to motor slowly in light airs and calm seas is small. Regarding the second case, electric drives are ideally suited as they can be finely controlled and can provide substantial power for short periods of time.
 
MV Ampere, battery-electric ferry in regular operation in Norway
Official videos for Ampere
  Video on YouTube
  by NorLed on YouTube
  Charging and suction docking on YouTube
Norway's first battery-electric ferry is MV Ampere,[16][17][18] with capacity for 120 cars and 12 trucks. As of November 2016, it has operated for 106,000 km. Its battery holds 1 MWh of energy, but the 9-minute charge time is sometimes not enough, and more battery capacity is to be installed. Norway has scheduled several other electric ferry projects.[19] Based on operational data, Siemens concludes in a life cycle analysis that 61 of Norway's 112 diesel ferry routes could be replaced by electric ferries with a payback time of 5 years. The analysis includes auxiliary costs such as chargers, grid, and so on.[20]
In Finland Föri, the historic Turku city ferry across the Aura River to Abo, was converted to all-electric propulsion in April 2017. The vessel was introduced as a wood-burning steam ferry in 1904, converted to diesel operation in 1955 and now provides a continuous daily service from 0615 to late evening for foot and cycle passengers on battery power. Charging takes place at night.[21]
Other projects are considered in Canada, Sweden and Denmark.[22][23][24]
India's First Solar Ferry, a 75-passenger boat, that is powered by sun and grid charging with lithium batteries, began service in 2017.[25] Based on the predictions of consumption the payback time is 3 years.[26][27][28]
Some ferries can charge their onboard batteries while docked by using a pantograph.[29]
On the other hand, ferries can include, sometimes free, charging points for the passengers' transported electric bicycle, electric motorcycles and electric cars.[30][31]
  • Diesel–electric hybrid: There is a third potential use for a diesel auxiliary and that is to charge the batteries, when they suddenly start to wane far from shore in the middle of the night, or at anchor after some days of living aboard. In this case, where this kind of use is to be expected, perhaps on a larger cruising yacht, then a combined diesel–electric solution may be designed from the start. The diesel engine is installed with the prime purpose of charging the battery banks, and the electric motor with that of propulsion. There is some reduction in efficiency if motoring for long distances as the diesel's power is converted first to electricity and then to motion, but there is a balancing saving every time the wind-, sail- and solar-charged batteries are used for manoeuvring and for short journeys without starting the diesel. There is the flexibility of being able to start the diesel as a pure generator whenever required. The main losses are in weight and installation cost, but on the bigger cruising boats that may sit at anchor running large diesels for hours every day, these are not too big an issue, compared to the savings that can be made at other times. An example is the fishing boat Selfa El-Max 1099,[32] with 135 kWh battery and 80 kW diesel generator.[33] An LNG-powered supply vessel started operation in 2016 with a 653 kWh/1600 kW battery acting as spinning reserve during dynamic positioning, saving 15-30% fuel.[34]
  • Solar powered: A boat propelled by direct solar energy is a marine solar vehicle. The available sunlight is almost always converted to electricity by solar cells, temporarily stored in accumulator batteries, and used to drive a propeller through an electric motor. Power levels are usually on the order of a few hundred watts to a few kilowatts. Solar powered boats started to become known around 1985 and in 1995 the first commercial solar passenger boats appeared.[35] Solar powered boats have been used successfully at sea. The first crossing of the Atlantic Ocean was achieved in the winter of 2006/2007 by the solar catamaran Sun21.[36][37] (see also List of solar-powered boats)

Wired electric boats

 
The electric ferry Steffi on the Straussee, 30 km east of Berlin

Trolley boats are a special category of electric boats are the vessels receiving their electrical power by wire. This may involve overhead wires, where one or two wires are fixed over the water and the boat can make contact with them to draw electric current, or a waterproof tether cable may be used to connect the boat to shore. In case of a single overhead wire the electrical circuit has to be closed by the water itself, giving rise to a larger resistance and corrosion of the electrodes. In case of two wires no electric current has to be sent through the water, but the twin wires, which cause a short-circuit whenever they come into contact with each other, complicate the construction.

Naturally the boat has to stay close to the wire, or its tether point, and therefore it is limited in its manoeuvrability. For ferries and on narrow canals this is no problem. The Straussee Ferry in Strausberg, Germany is an example. It crosses a lake along a 370 m trajectory and is powered by 170 V from a single overhead wire. The Kastellet ferry crosses a 200 metres (660 ft) wide shipping channel in Sweden, using a submergible tethered supply cable which is lowered to the sea-bed when the ferry is docked at the opposite terminal to its tethering point.

In the Mauvages tunnel [fr] on the Marne-Rhine Canal a bipolar overhead line provides 600 V DC to an electrical tug, pulling itself and several ships through the 4877 m tunnel along a submerged chain. This prevents the buildup of diesel exhaust fumes in the tunnel. Another example was the experimental electrical tug Teltow [de] on the Kleinmachnower See, 17 km south-west of Berlin. It was used from 1903 until 1910 and had current collection poles based on those used by trolley buses.

Pollution and embodied energy

Further information: Embodied energy

All the component parts of any boat have to be manufactured and will eventually have to be disposed of. Some pollution and use of other energy sources are inevitable during these stages of the boat's life and electric boats are no exception. The benefits to the global environment that are achieved by the use of electric propulsion are manifested during the working life of the boat, which can be many years. These benefits are also most directly felt in the sensitive and beautiful environments in which such a boat is used.

A 2016 life-cycle study in Norway states that electric ferries and hybrid offshore supply ships compensate for the environmental effects of producing lithium-ion batteries in less than 2 months.[38]

Historic debate

The British Classic Boat magazine carried a pro and con article entitled Electric debate in May 2010,[39] when lead-acid batteries dominated the battery market, and fossil fuels dominated the UK electricity system. Jamie Campbell argued against electric boating on four main counts, which were rebuffed by Kevin Desmond and Ian Rutter of the Electric Boat Association. Jamie Campbell asserted that electric propulsion can no more be justified afloat than a Seagull outboard motor, proposing wooden sailing boats and rowing dinghies as "by far the most environmentally sensitive and renewable options for recreational boating".

Electricity production

Campbell asserts that the lack of pollution from an electric boat "reeks of nimbyism" as "the discharge is all in someone else's back yard" and that the provision of re-charging points may involve digging up miles of habitat. Desmond responds that while there is no doubt that rechargeable batteries derive their energy from power stations (when not charged on board by solar and wind generation), noisier internal-combustion-engined boats obtain their fuel from even further away and that, once installed a power cable is less environmentally disruptive than a petrol station. Rutter notes that electric boats tend to recharge overnight, using 'base load'.

Efficiency

While there are losses in the charge/discharge cycle and in the conversion of electricity to motive power, Rutter points out that most electric boats need only about 1.5 kW or 2 hp to cruise at 5 mph (8 km/h), a common maximum river speed and that a 30 hp (22 kW) petrol or diesel engine producing only 2 hp (1.5 kW) is considerably more inefficient. While Campbell refers to heavy batteries requiring a "load-bearing hull" and "cranky, even unseaworthy vessels", Desmond points out that electric boaters tend to prefer efficient, low-wash hull forms that are more friendly to river banks.

Pollution

Campbell discusses the pollution that "traditional" batteries put into the water when a boat sinks, but Desmond says that electric boats are no more liable to sinking than other types and lists the leakage of fuel, engine oil and coolant additives as inevitable when an internal-combustion-engined boat sinks. Rutter points to the "very nasty cocktail of pollutants" that come out of a diesel wet exhaust in normal use.

Battery manufacture

Campbell mentions "all manner of noxious chemicals ... involved in battery manufacture", but Rutter describes them as being "lead and sulphuric acid with a few extra trace metals in a modest plastic box" with a potential lifetime of 10–12 years. Desmond says that the US has a 98% recycling rate for lead acid batteries and that the battery and lead-smelting industries observe some of the tightest pollution control standards in the world.

The article mentions 25% and 30% discounts being offered to electric boaters by the UK Environment Agency and the Broads Authority and that battery powered vehicles have 35 the carbon footprint of their petrol equivalents. It is claimed that a typical recharge after a day's cruising costs £1.50, without the use of solar or wind power.[39]

Solar ships

 
PlanetSolar, the world's largest solar-powered boat and the first ever solar electric boat to circumnavigate the globe (in 2012)

The first passenger solar vessels started to appear in Switzerland in 1995 with the Solifleur (pictured above), which was also the first solar vessel to feed more energy into the electricity grid than it consumed, on a yearly average, via a grid connection when docked.[40]

In 2010, the Tûranor PlanetSolar, a 35-metre long, 26-metre wide catamaran yacht powered by 537 square metres of solar panels, was unveiled. On 4 May 2012 it completed a 60,023 kilometres (37,297 mi) circumnavigation of the Earth in Monaco after 585 days and visiting 28 different countries, without using any fossil fuel. It is so far the largest solar-powered boat ever built.[41]

India's first solar ferry - the Aditya - a 75-passenger boat fully powered by sun, is under construction. It is expected to be completed by the middle of 2016.[26]

Japan's biggest shipping line Nippon Yusen and Nippon Oil Corporation said solar panels capable of generating 40 kilowatts of electricity would be placed on top of a 60,000 tonne car carrier ship to be used by Toyota Motor Corporation.[42][43][44]

The Monaco yacht company Wally has announced a "gigayacht" designed for billionaires torn between buying a mansion and a superyacht.[45] The Why 58 x 38 is designed to have an autonomous cruising range of 12,000 miles at 12 knots by means of 900m2 of solar panels which generate 150 kW to assist the diesel–electric motors and optional Skysails.[46] url=ECOMARINE BD

List of battery-electric ships

See also: List of solar-powered boats and Hybrid ferry
List of battery-electric ships, charged mainly from shore power
Year Name Country Battery energy
MWh		 Charge power
MW		 Charger type Notes / Refs
2015 MV Ampere Norway 1 1.2 Gravity plug
Pantograph		 Car/passenger ferry[47][48]
2017 Aditya India 0.05 0.03 Manual 75 passenger solar ferry[49]
2017 MF Tycho Brahe Denmark/Sweden 4.16 11 Robot plug HH Ferry route[50][51][52]
2017 MF Aurora [no] Denmark/Sweden 4.16 11 Robot plug HH Ferry route[50][51][52]
2017 Elektra Finland 1 Gravity plug Similar to Ampere[53][54]
2017 China 2.4 Coal ship[55]
2019 E-ferry Ellen Denmark 4.2 4.4 Automatic plug Car/passenger ferry[56][57]
2019 Junlyu China Sightseeing on Yangtze River in Wuhan[58][59]
2019 Herjólfur Iceland 3 2.5 Robot plug Sails a 6.5 NM route between Vestmannaeyjar and Landeyjahöfn.
2020 Gee's Bend USA 0.27 15 Car / 132 passenger ferry[60]
2020 Gisas Power Turkey 2.9 Tug[61]
2021 Bastø Electric Norway 4.3 7.2 Moss–Horten, 200 cars[62]
2021 Grotte Denmark 1.1 Plug Car/passenger ferry[63]
2021 Sparky New Zealand 2.8 Shore Harbour tugboat, diesel hybrid[64][65]
2022 Ika Rere New Zealand 0.3[66] Type 2 Combo[67] Passenger Ferry[68]
2022 Yangtze River Three Gorges 1[69] China 7.5 100 km Sightseeing on Yangtze River.[70] 1,300 passengers[71]

Solar electric catamaran vessel to carry at least 50 passengers.[72]

See also

References

  1. ^ a b The Oarsman's and Angler's Map of the River Thames from its source to London Bridge (1991. Old House Books, Devon ed.). James Reynolds & Son, London. 1893.
  2. ^ Electrical Review. 201 (7). 12 August 1977. {{cite journal}}: Missing or empty |title= (help)
  3. ^ Illustrated with wood engravings in the Electrical Review, Vol.XI, No.255, 14 October 1882, pp.296 and 297
  4. ^ . Mary Gordon Trust. Archived from the original on 6 June 2014.
  5. ^ 'Electric Boats on the Thames 1889-1914' by Edward Hawthorne, 1995 Alan Sutton Publishing Ltd; ISBN 0-7509-1015-1 : many references to Moritz Immisch's pioneering work with electric boats on pages 14-29; pages 30-40; pages 149-150, 166-169, and certain other pages
  6. ^ . Archived from the original on 7 June 2010. Retrieved 31 May 2010.
  7. ^ "The story of solar powered boats". from the original on 8 June 2010. Retrieved 31 May 2010.
  8. ^ . Elco. Archived from the original on 10 July 2011. Retrieved 21 February 2011.
  9. ^ [Bavarian Lakes Maritime Ltd.] (in German). Bavarian State Ministry of the Interior. Archived from the original on 29 September 2011. Retrieved 11 July 2011.
  10. ^ [Historical Background] (in German). Bayerische Seenschifffahrt. Archived from the original on 10 December 2011. Retrieved 11 July 2011.
  11. ^ . web.archive.org. 21 October 2014. Retrieved 11 March 2023.
  12. ^ "General Dynamics Corporation", Encyclopædia Britannica (15th ed.), 1993
  13. ^ Kevin Desmond (2017). Electric Boats and Ships: A History. McFarland Books.
  14. ^ Toll, Micah (18 October 2021). "I tested a flying electric boat and it was even cooler than it sounds". Electrek. from the original on 19 October 2021.
  15. ^ "Husband, wife to sail Atlantic during yearlong voyage". Baltimore Sun. Retrieved 11 March 2023.
  16. ^ Stensvold, Tore. "Denne fergen er revolusjonerende. Men passasjerene merker det knapt 4 July 2015 at the Wayback Machine" Teknisk Ukeblad, 20 March 2015.
  17. ^ Stensvold, Tore. "Nå lader batterifergen mer enn hun trenger 16 July 2015 at the Wayback Machine" Teknisk Ukeblad, 13 May 2015.
  18. ^ Setting a Course for Carbon-Free Shipping . Video on YouTube
  19. ^ "Batterifergen har måttet stå over avganger. Nå er løsningen klar". Teknisk Ukeblad. 18 November 2016. from the original on 18 November 2016. Retrieved 19 November 2016.
  20. ^ Stensvold, Tore. "Lønnsomt å bytte ut 70 prosent av fergene med batteri- eller hybridferger 5 January 2016 at the Wayback Machine" Teknisk Ukeblad, 14. August 2015. In English
  21. ^ "Historic Turku ferry converted to all-electric operation". Marine Log. New York: Simmons-Boardman Publishing Inc. 28 April 2017. ISSN 2166-210X.
  22. ^ Electric ferry jolts discussion over powering ships in B.C. 16 July 2015 at the Wayback Machine Vancouver Sun
  23. ^ Sweden launches world's first quick-charging electric passenger ferry 5 September 2015 at the Wayback Machine GizMag
  24. ^ "Electric drive train by Visedo to equip world's largest electric ferry". 15 June 2015. from the original on 4 March 2016. Retrieved 18 August 2015.
  25. ^ "Kerala Govt. Commissions India's First Solar-Powered Boat, Paves the Way for a Greener Tomorrow". The Better India. 11 May 2016. Retrieved 24 May 2016.
  26. ^ a b "India's First 75-Seater Solar Ferry Readies To Test The Waters". OfficeChai. 16 January 2016. from the original on 30 January 2016. Retrieved 4 February 2016.
  27. ^ "India's first solar ferry for Alappuzha". The Hindu. 3 March 2016. ISSN 0971-751X. Retrieved 24 May 2016.
  28. ^ "Kerala Govt. Commissions India's First Solar-Powered Boat, Paves the Way for a Greener Tomorrow". The Better India. 11 May 2016. from the original on 26 May 2016. Retrieved 24 May 2016.
  29. ^ "FerryCHARGER". from the original on 10 March 2019. Retrieved 21 November 2018.
  30. ^ "Electric car charging on Irish Ferries routes". from the original on 20 November 2015. Retrieved 24 August 2018.
  31. ^ "Can I Charge My Electric Car Onboard?". from the original on 24 August 2018. Retrieved 24 August 2018.
  32. ^ Valle, Marius. Or the Nova Luxe re-fit on an Aquila 44. https://www.novaluxeyachts.com/electric-projects?lightbox=dataItem-jww6lc4j "Dette er Norges første fiskebåt med elmotor 16 August 2015 at the Wayback Machine" Teknisk Ukeblad, 31 July 2015.
  33. ^ "Batterifiskebåten Karoline: Ett år uten driftsavbrudd". Teknisk Ukeblad. 22 August 2016. from the original on 23 August 2016. Retrieved 22 August 2016.
  34. ^ "Første i verden: Her skal batterier erstatte motor i kritiske situasjoner". Teknisk Ukeblad. 11 October 2016. from the original on 11 October 2016. Retrieved 11 October 2016. batteripakken ombord på Viking Energy erstatter en hovedmotor som reserve (spinning reserve)
  35. ^ . Umwelteinsatz.ch. Archived from the original on 9 October 2007. Retrieved 20 June 2009.
  36. ^ "The world's first crossing of the Atlantic on a solar boat". transatlantic21. from the original on 24 May 2009. Retrieved 20 June 2009.
  37. ^ "EERE News: EERE Network News - 06 December 2006". Apps1.eere.energy.gov. 6 December 2006. Retrieved 20 June 2009.
  38. ^ "Batterier til elferger: Miljøbelastningen er spart inn etter 1,4 måneder". Teknisk Ukeblad. 10 January 2017. from the original on 11 January 2017. Retrieved 10 January 2017.
  39. ^ a b Campbell, Jamie; Kevin Desmond; Ian Rutter (May 2010). "Electric debate". Classic Boat. Croydon, England: IPC Media (263): 48–49. ISSN 0950-3315. from the original on 6 March 2010. Retrieved 13 April 2010.
  40. ^ "Solar Ships for the new Millennium". TO Engineering. 15 March 2001. Retrieved 24 December 2022.{{cite web}}: CS1 maint: url-status (link)
  41. ^ Raphael Domjan the Swiss ecoexplorer was the founder and the expedition leader of the project PlanetSolar. "MS Tûranor PlanetSolar yacht completes her first tour around the world with a success". Charterworld.com. 4 May 2012. from the original on 7 May 2012. Retrieved 9 May 2012.
  42. ^ "Alternative Energy and Fuel News: ENN - Know Your Environment". ENN. 26 August 2008. from the original on 1 February 2009. Retrieved 20 June 2009.
  43. ^ "Japan launches first solar cargo ship". Solardaily.com. from the original on 9 February 2009. Retrieved 20 June 2009.
  44. ^ "Solar ship sails the ocean green - National". smh.com.au. 15 March 2005. from the original on 4 June 2009. Retrieved 20 June 2009.
  45. ^ "The world's first gigayacht". Motor Boat Monthly. 11 June 2010. from the original on 14 June 2010. Retrieved 11 June 2010.
  46. ^ "Why". Wally Yachts. Archived from the original on 2 April 2010. Retrieved 11 June 2010.
  47. ^ Madslien, Jorn (4 April 2017). "Pining for cleaner air in the Norwegian fjords". BBC News. from the original on 13 August 2018. Retrieved 6 December 2017.
  48. ^ Pratt, Joe (15 December 2016), (PDF), Sandia National Laboratories, archived from the original (PDF) on 9 August 2017, retrieved 5 December 2017
  49. ^ "Significant Small Ships 2017". RINA.
  50. ^ a b Kane, Mark. "World's Largest Electric Ferries: 4.16 MWh Battery, 10 MW Charging". insideevs.com. from the original on 17 December 2017. Retrieved 16 December 2017.
  51. ^ a b Slinn, Tony (22 March 2017). "The World's Largest Emission-Free Electric Ferries". NauticExpo e-Magazine. from the original on 10 August 2018. Retrieved 16 December 2017.
  52. ^ a b Tornbjerg, Jesper (25 August 2017). "Færgen er i stik om få minutter". Dansk Energi (in Danish). Retrieved 16 December 2017.
  53. ^ Knight, Stevie, 'Elektra': Commercial battery ferries become a reality, from the original on 6 December 2017, retrieved 5 December 2017
  54. ^ "VIDEO: Plugging in Finland's first electric ferry". www.marinelog.com. Marine Log. 20 November 2017. from the original on 6 December 2017. Retrieved 5 December 2017.
  55. ^ 于小明. "Fully electric cargo ship launched in Guangzhou - Business". www.chinadaily.com.cn. China Daily. from the original on 10 December 2017. Retrieved 6 December 2017.
  56. ^ "FAQ; battery". from the original on 19 April 2019. Retrieved 30 August 2019.
  57. ^ Murray, Adrienne (14 January 2020). "Plug-in and sail: Meet the electric ferry pioneers". BBC News. Retrieved 14 January 2020.
  58. ^ Butler, Jeff (10 December 2019). "China's electric ferry is first in the country". Plugboats.
  59. ^ "All-electric passenger ship a first - Chinadaily.com.cn". global.chinadaily.com.cn. 6 December 2019.
  60. ^ "First all-electric ferry in U.S. reaches milestone". WorkBoat. 6 August 2020.
  61. ^ "World's 1st all electric tugboat now at work in Istanbul". Plugboats. 9 September 2020.
  62. ^ "World's Largest Electric Ferry Now Operational In Norway". InsideEVs. 2 March 2021.
  63. ^ Hede, Mark Michael (1 October 2021). "Ny eldrevet Fanø-færge til 80 millioner lagde sikkert fra land". JydskeVestkysten. from the original on 1 October 2021.
  64. ^ "Video: Ports of Auckland welcomes world's first e-tug". EVs & Beyond. 8 June 2022.
  65. ^ "Reversed Stern Drive Tug 2513 Electric" (PDF). Archived (PDF) from the original on 9 October 2022.
  66. ^ "New Zealand electric ferry operator brings forward order for second vessel". 7 April 2023.
  67. ^ "East By West 19m Ferry". 7 April 2023.
  68. ^ "Southern hemisphere's first electric ferry launched in Wellington". 7 April 2023.
  69. ^ "Largest electric cruise ship makes debut - People's Daily Online".
  70. ^ Doll, Scooter (31 March 2022). "'World's largest electric cruise ship' makes maiden voyage in China with a whopping 7,500 kWh in battery power". Electrek. from the original on 31 March 2022.
  71. ^ "Largest electric cruise ship makes debut - People's Daily Online".
  72. ^ "ECOMARINE BD". ECOMARINE BD. Retrieved 11 March 2023.

External links

  • Electric passenger Boat Designed for the city of Bordeaux (France)
  • Electric Boat Association (UK nonprofit)
  • Electric Boat Association (US nonprofit)
  • Electric Seas Organization (US nonprofit)
  • Getting to Zero Coalition
  • Project of making of 10 Passenger Solar Boat

May 04, 2023
electric, boat, this, article, about, electrically, powered, boats, general, company, called, electric, boat, general, dynamics, electric, boat, electric, boat, powered, watercraft, driven, electric, motors, which, powered, either, board, battery, packs, solar. This article is about electrically powered boats in general For the company called Electric Boat see General Dynamics Electric Boat An electric boat is a powered watercraft driven by electric motors which are powered by either on board battery packs solar panels or generators In 2012 PlanetSolar became the first ever solar electric vehicle to circumnavigate the globe The solar passenger boat Solifleur Switzerland 1995 Basilisk 3 While a significant majority of water vessels are powered by diesel engines with sail power and gasoline engines also popular boats powered by electricity have been used for over 120 years Electric boats were very popular from the 1880s 1 until the 1920s when the internal combustion engine became dominant Since the energy crises of the 1970s interest in this quiet and potentially renewable marine energy source has been increasing steadily especially as more efficient solar cells have become available for the first time making possible motorboats with a theoretically infinite cruise range like sailboats The first practical solar boat was probably constructed in 1975 in England 2 The first electric sailboat to complete a round the world tour including a transit of the Panama Canal using only green technologies is EcoSailingProject Contents 1 History 1 1 Early 1 2 Golden Age 1 3 Decline 1 4 Renaissance 2 Components 2 1 Charger 2 2 Battery bank 2 3 Speed controller 2 4 Electric motor 2 5 Drive train 3 Types 3 1 Wired electric boats 4 Pollution and embodied energy 4 1 Historic debate 4 1 1 Electricity production 4 1 2 Efficiency 4 1 3 Pollution 4 1 4 Battery manufacture 5 Solar ships 6 List of battery electric ships 7 See also 8 References 9 External linksHistory EditEarly Edit Moritz von Jacobi inventor of an early electric boat An early electric boat was developed by the German inventor Moritz von Jacobi in 1839 in St Petersburg Russia It was a 24 foot 7 3 m boat which carried 14 passengers at 3 miles per hour 4 8 km h It was successfully demonstrated to Emperor Nicholas I of Russia on the Neva River Golden Age Edit Outboard motorboat of Gustave Trouve in 1881 It took more than 30 years of battery and motor development before the electric boat became a practical proposition This method of propulsion enjoyed something of a golden age from about 1880 to 1920 when gasoline powered outboard motors became the dominant method Gustave Trouve a French electrical engineer patented a small electric motor in 1880 He initially suggested that the motor could power a set of paddle wheels to propel boats on the water and later argued for the use of a propeller Electric motor designed by Immisch amp Co who established the first fleet of electric launches in London An Austrian emigre to Britain Anthony Reckenzaun was instrumental in the development of the first practical electric boats While working as an engineer for the Electrical Power Storage Company he undertook much original and pioneering work on various forms of electric traction In 1882 he designed the first significant electric launch driven by storage batteries and named the boat Electricity 3 The boat had a steel hull and was over seven metres long The batteries and electric equipment were hidden from view beneath the seating area increasing the space available for the accommodation of passengers The boats were used for leisure excursions up and down the River Thames and provided a very smooth clean and quiet trip The boat could run for six hours and operate at an average speed of 8 miles per hour 4 Moritz Immisch established his company in 1882 in partnership with William Keppel 7th Earl of Albemarle specializing in the application of electric motors to transportation The company employed Magnus Volk as a manager in the development of their electric launch department After 12 months of experimental work starting in 1888 with a randan skiff the firm commissioned the construction of hulls which they equipped with electrical apparatus The world s first fleet of electric launches for hire with a chain of electrical charging stations was established along the River Thames in the 1880s An 1893 pleasure map of the Thames shows eight charging stations for electric launches between Kew Strand on the Green and Reading Caversham 1 The company built its headquarters on the island called Platt s Eyot From 1889 until just before the First World War the boating season and regattas saw the silent electric boats plying their way up and downstream 5 Early electric launch on the River Thames built by William Sargeant The company s electric launches were widely used by the rich as a conveyance along the river Grand ships were constructed of teak or mahogany and furnished luxuriously with stained glass windows silk curtains and velvet cushions William Sargeant was commissioned by Immisch s company to build the Mary Gordon in 1898 for Leeds City Council for use on the Roundhay Park Lake the boat still survives and is currently being restored 6 This 70 foot long luxury pleasure craft could carry up to 75 passengers in comfort Launches were exported elsewhere they were used in the Lake District and all over the world In the 1893 Chicago World Fair 55 launches developed from Anthony Reckenzaun s work carried more than a million passengers 7 8 Electric boats had an early period of popularity between around 1890 and 1920 before the emergence of the internal combustion engine drove them out of most applications Most of the electric boats of this era were small passenger boats on non tidal waters at a time when the only power alternative was steam Decline Edit With the advent of the gasoline powered outboard motor the use of electric power on boats declined from the 1920s However in a few situations the use of electric boats has persisted from the early 20th century to the present day One of these is on the Konigssee lake near Berchtesgaden in south eastern Germany Here the lake is considered so environmentally sensitive that steam and motor boats have been prohibited since 1909 Instead the Bayerische Seenschifffahrt company and its predecessors have operated a fleet of electric launches to provide a public passenger service on the lake 9 10 11 The first electrically powered submarines were built in the 1890s such as the Spanish Peral submarine launched in 1888 12 Since then electric power has been used almost exclusively for the powering of submarines underwater traditionally by batteries although diesel was used for directly powering the propeller while on the surface until the development of diesel electric transmission by the US Navy in 1928 in which the propeller was always powered by an electric motor energy coming from batteries while submerged or diesel generator while surfaced The use of combined fuel and electric propulsion combined diesel electric or gas or CODLOG has gradually been extended over the years to the extent that some modern liners such as the Queen Mary 2 use only electric motors for the actual propulsion powered by diesel and gas turbine engines The advantages include being able to run the fuel engines at an optimal speed at all times and being able to mount the electric motor in a pod which may be rotated by 360 for increased manoeuvrability Note that this is not actually an electric boat but rather a variant of diesel electric or turbine electric propulsion similar to the diesel or electric propulsion used on submarines since WWI Renaissance Edit An electric passenger launch on Lake Konigssee in Germany The use of electricity alone to power boats stagnated apart from their outboard use as trolling motors until the Duffy Electric Boat Company of California started mass producing small electric craft in 1968 It was not until 1982 that the Electric Boat Association was formed and solar powered boats started to emerge 13 To reduce friction and increase range some boats use hydrofoils 14 Components EditThe main components of the drive system of any electrically powered boat are similar in all cases and similar to the options available for any electric vehicle Charger Edit Electric energy has to be obtained for the battery bank from some source like the sun A mains charger allows the boat to be charged from shore side power when available Shore based power stations are subject to much stricter environmental controls than the average marine diesel or outboard motor By purchasing green electricity it is possible to operate electric boats using sustainable or renewable energy For large vessels an onshore battery may be necessary to provide more short term power than the grid can supply 2 5 MW Automatic coupling robot charger for the Herjolfur Ferry in Iceland Solar panels can be built into the boat in reasonable areas in the deck cabin roof or as awnings Some solar panels or photovoltaic arrays can be flexible enough to fit to slightly curved surfaces and can be ordered in unusual shapes and sizes Nonetheless the heavier rigid mono crystalline types are more efficient in terms of energy output per square meter The efficiency of solar panels rapidly decreases when they are not pointed directly at the sun so some way of tilting the arrays while under way is very advantageous Towed generators are common on long distance cruising yachts and can generate a lot of power when travelling under sail If an electric boat has sails as well and will be used in deep water deeper than about 15 m or 50 ft then a towed generator can help build up battery charge while sailing there is no point in trailing such a generator while under electric propulsion as the extra drag from the generator would waste more electricity than it generates Some electric power systems use the free wheeling drive propeller to generate charge through the drive motor when sailing but this system including the design of the propeller and any gearing cannot be optimised for both functions It may be better locked off or feathered while the towed generator s more efficient turbine gathers energy Wind turbines are common on cruising yachts and can be very well suited to electric boats There are safety considerations regarding the spinning blades especially in a strong wind It is important that the boat is big enough that the turbine can be mounted out of the way of all passengers and crew under all circumstances including when alongside a dock a bank or a pier It is also important that the boat is big enough and stable enough that the top hamper created by the turbine on its pole or mast does not compromise its stability in a strong wind or gale Large enough wind generators could produce a completely wind powered electric boat No such boats are yet known although a few mechanical wind turbine powered boats exist In hybrid electric boats if a boat has an internal combustion engine anyway then its alternator will provide significant charge when it is running Two schemes are in use the combustion engine and the electric motor are both coupled to the drive parallel hybrid or the combustion engine drives a generator only for charging the storage batteries series hybrid In all cases a charge regulator is needed This ensures that the batteries are charged at their maximum safe rate when power is available without overheating or internal damage and that they are not overcharged when nearing full charge Battery bank Edit Example of a modern production electric boat SB Collinda the first solar powered boat to cross the English Channel seen here in Bristol Harbour There have been significant technical advances in battery technology in recent years and more are to be expected in the future Lead acid batteries were still the most viable option until the advent of larger lithium ion batteries mass produced for electric cars from approximately 2012 onwards Deep cycle traction batteries are the obvious choice They are heavy and bulky but not much more so than the diesel engine tanks and fittings that they may replace They need to be securely mounted low down and centrally situated in the boat It is essential that they cannot move around under any circumstances Care must be taken that there is no risk of the strong acid being spilled in the event of a capsize as this could be very dangerous Venting of explosive hydrogen and oxygen gases is also necessary Typical lead acid batteries must be kept topped up with distilled water Valve regulated lead acid batteries VRLA usually known as sealed lead acid gel or AGM batteries minimize the risk of spillage and gases are only vented when the batteries are overcharged These batteries require minimal maintenance as they cannot and usually do not need to be refilled with water Nickel metal hydride lithium ion and other battery types are becoming available but are still expensive These are the kind of batteries currently common in rechargeable hand tools like drills and screwdrivers but they are relatively new to this environment They require different charge controllers to those that suit lead acid types Lithium ion in this case usually means lithium iron phosphate batteries which although are heavier than other lithium ion is safer for marine application They are expensive but in applications which need reliability and ruggedness like ferries which run most of the day 10 12 hours day this is the best option It has a much longer life 5 to 7 years life cycle Fuel cells or flow batteries may provide significant advantages in years to come Today 2017 however they are still expensive and require specialist equipment and knowledge The size of the battery bank determines the range of the boat under electric power The speed at which the boat is motored also affects range a lower speed can make a big difference to the energy required to move a hull Other factors that affect range include sea state currents windage and any charge that can be reclaimed while under way for example by solar panels in full sun A wind turbine in a good wind will help and motor sailing in any wind could do so even more Speed controller Edit To make the boat usable and manoeuvrable a simple to operate forward stop backwards speed controller is needed This must be efficient i e it must not get hot and waste energy at any speed and it must be able to stand the full current that could conceivably flow under any full load condition One of the most common types of speed controllers uses pulse width modulation PWM PWM controllers send high frequency pulses of power to the motor s As more power is needed the pulses become longer in duration Electric motor Edit A wide variety of electric motor technologies are in use Traditional field wound DC motors were and still are used Today many boats use lightweight permanent magnet DC motors The advantage of both types is that while the speed can be controlled electronically this is not a requirement Some boats use AC motors or permanent magnet brushless motors The advantages of these are the lack of commutators which can wear out or fail and the often lower currents allowing thinner cables the disadvantages are the total reliance on the required electronic controllers and the usually high voltages which require a high standard of insulation An example of an electric retrofit Two 9 kW LMC motors powered by 16 Interstate deep cycle 6 volt batteries Drive train Edit Traditional boats use an inboard motor powering a propeller through a propeller shaft complete with bearings and seals Often a gear reduction is incorporated in order to be able to use a larger more efficient propeller This can be a traditional gear box coaxial planetary gears or a transmission with belts or chains Because of the inevitable loss associated with gearing many drives eliminate it by using slow high torque motors The electric motor can be encapsulated into a pod with the propeller and fixed outside the hull saildrive or on an outboard fixture outboard motor Types EditThere are as many types of electric boat as there are boats with any other method of propulsion but some types are significant for various reasons RA66 Helio is a solar powered 20 m catamaran cruising on the Untersee a part of Lake Constance It is based in Radolfzell Germany Historical and restored electric boats such as the Mary Gordon Electric Boat exist and are often important projects for those involved An example of an old idea re birthed In 2014 the first electric retrofit of its kind was performed on a 1973 Tollycraft 30 Sedan Cruiser The vessel was originally powered by two 2 Chrysler 318 V8 s accompanied by two 2 80 gallon fuel tanks The conversion took place in Vancouver Canada and the vessel e Tolly is now powered by two 9 kW LMC motors with energy supplied by 16 Interstate deep cycle 6 volt batteries Maximum Endurance 13 h Maximum Speed 10 knots Range anxiety is a common concern for those considering electric propulsion on a boat In 2018 the crew of Rigging Doctor on board Wisdom crossed the Atlantic Ocean with an electric motor 15 Sailboat Wisdom on her voyage across oceans with an electric motor Canal river and lake boats Electric boats with their limited range and performance have tended to be used mostly on inland waterways where their complete lack of local pollution is a significant advantage Electric drives are also available as auxiliary propulsion for sailing yachts on inland waters Electric outboards and trolling motors have been available for some years at prices from about 100 US up to several thousand These require external batteries in the bottom of the boat but are otherwise practical one piece items Most available electric outboards are not as efficient as custom drives but are optimised for their intended use e g for inland waterway fishermen They are quiet and they do not pollute the water or the air so they do not scare away or harm fish birds and other wildlife Combined with modern waterproof battery packs electric outboards are also ideal for yacht tenders and other inshore pleasure boats Cruising yachts usually have an auxiliary engine and there are two main uses for it One is to power ahead or motor sail at sea when the wind is light or from the wrong direction The other is to provide the last 10 minutes or so of propulsion when the boat is in port and needs to be manoeuvred into a tight berth in a crowded and confined marina or harbour Electric propulsion is not suitable for prolonged cruising at full power although the power required to motor slowly in light airs and calm seas is small Regarding the second case electric drives are ideally suited as they can be finely controlled and can provide substantial power for short periods of time MV Ampere battery electric ferry in regular operation in Norway Official videos for Ampere Video on YouTube by NorLed on YouTube Charging and suction docking on YouTubeCommercial ferries Norway s first battery electric ferry is MV Ampere 16 17 18 with capacity for 120 cars and 12 trucks As of November 2016 update it has operated for 106 000 km Its battery holds 1 MWh of energy but the 9 minute charge time is sometimes not enough and more battery capacity is to be installed Norway has scheduled several other electric ferry projects 19 Based on operational data Siemens concludes in a life cycle analysis that 61 of Norway s 112 diesel ferry routes could be replaced by electric ferries with a payback time of 5 years The analysis includes auxiliary costs such as chargers grid and so on 20 In Finland Fori the historic Turku city ferry across the Aura River to Abo was converted to all electric propulsion in April 2017 The vessel was introduced as a wood burning steam ferry in 1904 converted to diesel operation in 1955 and now provides a continuous daily service from 0615 to late evening for foot and cycle passengers on battery power Charging takes place at night 21 Other projects are considered in Canada Sweden and Denmark 22 23 24 India s First Solar Ferry a 75 passenger boat that is powered by sun and grid charging with lithium batteries began service in 2017 25 Based on the predictions of consumption the payback time is 3 years 26 27 28 Some ferries can charge their onboard batteries while docked by using a pantograph 29 On the other hand ferries can include sometimes free charging points for the passengers transported electric bicycle electric motorcycles and electric cars 30 31 Diesel electric hybrid There is a third potential use for a diesel auxiliary and that is to charge the batteries when they suddenly start to wane far from shore in the middle of the night or at anchor after some days of living aboard In this case where this kind of use is to be expected perhaps on a larger cruising yacht then a combined diesel electric solution may be designed from the start The diesel engine is installed with the prime purpose of charging the battery banks and the electric motor with that of propulsion There is some reduction in efficiency if motoring for long distances as the diesel s power is converted first to electricity and then to motion but there is a balancing saving every time the wind sail and solar charged batteries are used for manoeuvring and for short journeys without starting the diesel There is the flexibility of being able to start the diesel as a pure generator whenever required The main losses are in weight and installation cost but on the bigger cruising boats that may sit at anchor running large diesels for hours every day these are not too big an issue compared to the savings that can be made at other times An example is the fishing boat Selfa El Max 1099 32 with 135 kWh battery and 80 kW diesel generator 33 An LNG powered supply vessel started operation in 2016 with a 653 kWh 1600 kW battery acting as spinning reserve during dynamic positioning saving 15 30 fuel 34 Solar powered A boat propelled by direct solar energy is a marine solar vehicle The available sunlight is almost always converted to electricity by solar cells temporarily stored in accumulator batteries and used to drive a propeller through an electric motor Power levels are usually on the order of a few hundred watts to a few kilowatts Solar powered boats started to become known around 1985 and in 1995 the first commercial solar passenger boats appeared 35 Solar powered boats have been used successfully at sea The first crossing of the Atlantic Ocean was achieved in the winter of 2006 2007 by the solar catamaran Sun21 36 37 see also List of solar powered boats Wired electric boats Edit The electric ferry Steffi on the Straussee 30 km east of Berlin Trolley boats are a special category of electric boats are the vessels receiving their electrical power by wire This may involve overhead wires where one or two wires are fixed over the water and the boat can make contact with them to draw electric current or a waterproof tether cable may be used to connect the boat to shore In case of a single overhead wire the electrical circuit has to be closed by the water itself giving rise to a larger resistance and corrosion of the electrodes In case of two wires no electric current has to be sent through the water but the twin wires which cause a short circuit whenever they come into contact with each other complicate the construction Naturally the boat has to stay close to the wire or its tether point and therefore it is limited in its manoeuvrability For ferries and on narrow canals this is no problem The Straussee Ferry in Strausberg Germany is an example It crosses a lake along a 370 m trajectory and is powered by 170 V from a single overhead wire The Kastellet ferry crosses a 200 metres 660 ft wide shipping channel in Sweden using a submergible tethered supply cable which is lowered to the sea bed when the ferry is docked at the opposite terminal to its tethering point In the Mauvages tunnel fr on the Marne Rhine Canal a bipolar overhead line provides 600 V DC to an electrical tug pulling itself and several ships through the 4877 m tunnel along a submerged chain This prevents the buildup of diesel exhaust fumes in the tunnel Another example was the experimental electrical tug Teltow de on the Kleinmachnower See 17 km south west of Berlin It was used from 1903 until 1910 and had current collection poles based on those used by trolley buses Pollution and embodied energy EditFurther information Embodied energy All the component parts of any boat have to be manufactured and will eventually have to be disposed of Some pollution and use of other energy sources are inevitable during these stages of the boat s life and electric boats are no exception The benefits to the global environment that are achieved by the use of electric propulsion are manifested during the working life of the boat which can be many years These benefits are also most directly felt in the sensitive and beautiful environments in which such a boat is used A 2016 life cycle study in Norway states that electric ferries and hybrid offshore supply ships compensate for the environmental effects of producing lithium ion batteries in less than 2 months 38 Historic debate Edit The British Classic Boat magazine carried a pro and con article entitled Electric debate in May 2010 39 when lead acid batteries dominated the battery market and fossil fuels dominated the UK electricity system Jamie Campbell argued against electric boating on four main counts which were rebuffed by Kevin Desmond and Ian Rutter of the Electric Boat Association Jamie Campbell asserted that electric propulsion can no more be justified afloat than a Seagull outboard motor proposing wooden sailing boats and rowing dinghies as by far the most environmentally sensitive and renewable options for recreational boating Electricity production Edit Campbell asserts that the lack of pollution from an electric boat reeks of nimbyism as the discharge is all in someone else s back yard and that the provision of re charging points may involve digging up miles of habitat Desmond responds that while there is no doubt that rechargeable batteries derive their energy from power stations when not charged on board by solar and wind generation noisier internal combustion engined boats obtain their fuel from even further away and that once installed a power cable is less environmentally disruptive than a petrol station Rutter notes that electric boats tend to recharge overnight using base load Efficiency Edit While there are losses in the charge discharge cycle and in the conversion of electricity to motive power Rutter points out that most electric boats need only about 1 5 kW or 2 hp to cruise at 5 mph 8 km h a common maximum river speed and that a 30 hp 22 kW petrol or diesel engine producing only 2 hp 1 5 kW is considerably more inefficient While Campbell refers to heavy batteries requiring a load bearing hull and cranky even unseaworthy vessels Desmond points out that electric boaters tend to prefer efficient low wash hull forms that are more friendly to river banks Pollution Edit Campbell discusses the pollution that traditional batteries put into the water when a boat sinks but Desmond says that electric boats are no more liable to sinking than other types and lists the leakage of fuel engine oil and coolant additives as inevitable when an internal combustion engined boat sinks Rutter points to the very nasty cocktail of pollutants that come out of a diesel wet exhaust in normal use Battery manufacture Edit Campbell mentions all manner of noxious chemicals involved in battery manufacture but Rutter describes them as being lead and sulphuric acid with a few extra trace metals in a modest plastic box with a potential lifetime of 10 12 years Desmond says that the US has a 98 recycling rate for lead acid batteries and that the battery and lead smelting industries observe some of the tightest pollution control standards in the world The article mentions 25 and 30 discounts being offered to electric boaters by the UK Environment Agency and the Broads Authority and that battery powered vehicles have 3 5 the carbon footprint of their petrol equivalents It is claimed that a typical recharge after a day s cruising costs 1 50 without the use of solar or wind power 39 Solar ships Edit PlanetSolar the world s largest solar powered boat and the first ever solar electric boat to circumnavigate the globe in 2012 The first passenger solar vessels started to appear in Switzerland in 1995 with the Solifleur pictured above which was also the first solar vessel to feed more energy into the electricity grid than it consumed on a yearly average via a grid connection when docked 40 In 2010 the Turanor PlanetSolar a 35 metre long 26 metre wide catamaran yacht powered by 537 square metres of solar panels was unveiled On 4 May 2012 it completed a 60 023 kilometres 37 297 mi circumnavigation of the Earth in Monaco after 585 days and visiting 28 different countries without using any fossil fuel It is so far the largest solar powered boat ever built 41 India s first solar ferry the Aditya a 75 passenger boat fully powered by sun is under construction It is expected to be completed by the middle of 2016 26 Japan s biggest shipping line Nippon Yusen and Nippon Oil Corporation said solar panels capable of generating 40 kilowatts of electricity would be placed on top of a 60 000 tonne car carrier ship to be used by Toyota Motor Corporation 42 43 44 The Monaco yacht company Wally has announced a gigayacht designed for billionaires torn between buying a mansion and a superyacht 45 The Why 58 x 38 is designed to have an autonomous cruising range of 12 000 miles at 12 knots by means of 900m2 of solar panels which generate 150 kW to assist the diesel electric motors and optional Skysails 46 url ECOMARINE BDList of battery electric ships EditSee also List of solar powered boats and Hybrid ferry List of battery electric ships charged mainly from shore power Year Name Country Battery energyMWh Charge powerMW Charger type Notes Refs2015 MV Ampere Norway 1 1 2 Gravity plugPantograph Car passenger ferry 47 48 2017 Aditya India 0 05 0 03 Manual 75 passenger solar ferry 49 2017 MF Tycho Brahe Denmark Sweden 4 16 11 Robot plug HH Ferry route 50 51 52 2017 MF Aurora no Denmark Sweden 4 16 11 Robot plug HH Ferry route 50 51 52 2017 Elektra Finland 1 Gravity plug Similar to Ampere 53 54 2017 China 2 4 Coal ship 55 2019 E ferry Ellen Denmark 4 2 4 4 Automatic plug Car passenger ferry 56 57 2019 Junlyu China Sightseeing on Yangtze River in Wuhan 58 59 2019 Herjolfur Iceland 3 2 5 Robot plug Sails a 6 5 NM route between Vestmannaeyjar and Landeyjahofn 2020 Gee s Bend USA 0 27 15 Car 132 passenger ferry 60 2020 Gisas Power Turkey 2 9 Tug 61 2021 Basto Electric Norway 4 3 7 2 Moss Horten 200 cars 62 2021 Grotte Denmark 1 1 Plug Car passenger ferry 63 2021 Sparky New Zealand 2 8 Shore Harbour tugboat diesel hybrid 64 65 2022 Ika Rere New Zealand 0 3 66 Type 2 Combo 67 Passenger Ferry 68 2022 Yangtze River Three Gorges 1 69 China 7 5 100 km Sightseeing on Yangtze River 70 1 300 passengers 71 Gallery of battery ships MV Ampere MF Tycho Brahe E ferry EllenSolar electric catamaran vessel to carry at least 50 passengers 72 See also EditCatalina 30 Cruising DC distribution system ship propulsion e5 Project Electric aircraft Electric battery Electric outboard motor Electric vehicle Frisian Solar Challenge Hydrogen powered ship Integrated electric propulsion Diesel electric transmission Turbine electric transmission Lloyd s Register Open source hardware Oceanvolt Renewable energy Solar Splash Trolley boatReferences Edit a b The Oarsman s and Angler s Map of the River Thames from its source to London Bridge 1991 Old House Books Devon ed James Reynolds amp Son London 1893 Electrical Review 201 7 12 August 1977 a href Template Cite journal html title Template Cite journal cite journal a Missing or empty title help Illustrated with wood engravings in the Electrical Review Vol XI No 255 14 October 1882 pp 296 and 297 Batteries Mary Gordon Trust Archived from the original on 6 June 2014 Electric Boats on the Thames 1889 1914 by Edward Hawthorne 1995 Alan Sutton Publishing Ltd ISBN 0 7509 1015 1 many references to Moritz Immisch s pioneering work with electric boats on pages 14 29 pages 30 40 pages 149 150 166 169 and certain other pages Mary Gordon Electric River Boat Archived from the original on 7 June 2010 Retrieved 31 May 2010 The story of solar powered boats Archived from the original on 8 June 2010 Retrieved 31 May 2010 History of our Classic Motor Yachts Elco Archived from the original on 10 July 2011 Retrieved 21 February 2011 Bayerische Seenschifffahrt GmbH Bavarian Lakes Maritime Ltd in German Bavarian State Ministry of the Interior Archived from the original on 29 September 2011 Retrieved 11 July 2011 Geschichtliche Hintergrunde Historical Background in German Bayerische Seenschifffahrt Archived from the original on 10 December 2011 Retrieved 11 July 2011 Electric Mobility Electric Boats on Bavaria s Lake Koenigssee Mobility amp Motors Pictures of the Future Innovation Home Siemens Global Website web archive org 21 October 2014 Retrieved 11 March 2023 General Dynamics Corporation Encyclopaedia Britannica 15th ed 1993 Kevin Desmond 2017 Electric Boats and Ships A History McFarland Books Toll Micah 18 October 2021 I tested a flying electric boat and it was even cooler than it sounds Electrek Archived from the original on 19 October 2021 Husband wife to sail Atlantic during yearlong voyage Baltimore Sun Retrieved 11 March 2023 Stensvold Tore Denne fergen er revolusjonerende Men passasjerene merker det knapt Archived 4 July 2015 at the Wayback Machine Teknisk Ukeblad 20 March 2015 Stensvold Tore Na lader batterifergen mer enn hun trenger Archived 16 July 2015 at the Wayback Machine Teknisk Ukeblad 13 May 2015 Setting a Course for Carbon Free Shipping 2014 archive Video on YouTube Batterifergen har mattet sta over avganger Na er losningen klar Teknisk Ukeblad 18 November 2016 Archived from the original on 18 November 2016 Retrieved 19 November 2016 Stensvold Tore Lonnsomt a bytte ut 70 prosent av fergene med batteri eller hybridferger Archived 5 January 2016 at the Wayback Machine Teknisk Ukeblad 14 August 2015 In English Historic Turku ferry converted to all electric operation Marine Log New York Simmons Boardman Publishing Inc 28 April 2017 ISSN 2166 210X Electric ferry jolts discussion over powering ships in B C Archived 16 July 2015 at the Wayback Machine Vancouver Sun Sweden launches world s first quick charging electric passenger ferry Archived 5 September 2015 at the Wayback Machine GizMag Electric drive train by Visedo to equip world s largest electric ferry 15 June 2015 Archived from the original on 4 March 2016 Retrieved 18 August 2015 Kerala Govt Commissions India s First Solar Powered Boat Paves the Way for a Greener Tomorrow The Better India 11 May 2016 Retrieved 24 May 2016 a b India s First 75 Seater Solar Ferry Readies To Test The Waters OfficeChai 16 January 2016 Archived from the original on 30 January 2016 Retrieved 4 February 2016 India s first solar ferry for Alappuzha The Hindu 3 March 2016 ISSN 0971 751X Retrieved 24 May 2016 Kerala Govt Commissions India s First Solar Powered Boat Paves the Way for a Greener Tomorrow The Better India 11 May 2016 Archived from the original on 26 May 2016 Retrieved 24 May 2016 FerryCHARGER Archived from the original on 10 March 2019 Retrieved 21 November 2018 Electric car charging on Irish Ferries routes Archived from the original on 20 November 2015 Retrieved 24 August 2018 Can I Charge My Electric Car Onboard Archived from the original on 24 August 2018 Retrieved 24 August 2018 Valle Marius Or the Nova Luxe re fit on an Aquila 44 https www novaluxeyachts com electric projects lightbox dataItem jww6lc4j Dette er Norges forste fiskebat med elmotor Archived 16 August 2015 at the Wayback Machine Teknisk Ukeblad 31 July 2015 Batterifiskebaten Karoline Ett ar uten driftsavbrudd Teknisk Ukeblad 22 August 2016 Archived from the original on 23 August 2016 Retrieved 22 August 2016 Forste i verden Her skal batterier erstatte motor i kritiske situasjoner Teknisk Ukeblad 11 October 2016 Archived from the original on 11 October 2016 Retrieved 11 October 2016 batteripakken ombord pa Viking Energy erstatter en hovedmotor som reserve spinning reserve Solarschiffe fur die Expo Umwelteinsatz ch Archived from the original on 9 October 2007 Retrieved 20 June 2009 The world s first crossing of the Atlantic on a solar boat transatlantic21 Archived from the original on 24 May 2009 Retrieved 20 June 2009 EERE News EERE Network News 06 December 2006 Apps1 eere energy gov 6 December 2006 Retrieved 20 June 2009 Batterier til elferger Miljobelastningen er spart inn etter 1 4 maneder Teknisk Ukeblad 10 January 2017 Archived from the original on 11 January 2017 Retrieved 10 January 2017 a b Campbell Jamie Kevin Desmond Ian Rutter May 2010 Electric debate Classic Boat Croydon England IPC Media 263 48 49 ISSN 0950 3315 Archived from the original on 6 March 2010 Retrieved 13 April 2010 Solar Ships for the new Millennium TO Engineering 15 March 2001 Retrieved 24 December 2022 a href Template Cite web html title Template Cite web cite web a CS1 maint url status link Raphael Domjan the Swiss ecoexplorer was the founder and the expedition leader of the project PlanetSolar MS Turanor PlanetSolar yacht completes her first tour around the world with a success Charterworld com 4 May 2012 Archived from the original on 7 May 2012 Retrieved 9 May 2012 Alternative Energy and Fuel News ENN Know Your Environment ENN 26 August 2008 Archived from the original on 1 February 2009 Retrieved 20 June 2009 Japan launches first solar cargo ship Solardaily com Archived from the original on 9 February 2009 Retrieved 20 June 2009 Solar ship sails the ocean green National smh com au 15 March 2005 Archived from the original on 4 June 2009 Retrieved 20 June 2009 The world s first gigayacht Motor Boat Monthly 11 June 2010 Archived from the original on 14 June 2010 Retrieved 11 June 2010 Why Wally Yachts Archived from the original on 2 April 2010 Retrieved 11 June 2010 Madslien Jorn 4 April 2017 Pining for cleaner air in the Norwegian fjords BBC News Archived from the original on 13 August 2018 Retrieved 6 December 2017 Pratt Joe 15 December 2016 Battery Electric and Hybrid Vessels in Norway and Denmark Ampere Vision and HH Ferries PDF Sandia National Laboratories archived from the original PDF on 9 August 2017 retrieved 5 December 2017 Significant Small Ships 2017 RINA a b Kane Mark World s Largest Electric Ferries 4 16 MWh Battery 10 MW Charging insideevs com Archived from the original on 17 December 2017 Retrieved 16 December 2017 a b Slinn Tony 22 March 2017 The World s Largest Emission Free Electric Ferries NauticExpo e Magazine Archived from the original on 10 August 2018 Retrieved 16 December 2017 a b Tornbjerg Jesper 25 August 2017 Faergen er i stik om fa minutter Dansk Energi in Danish Retrieved 16 December 2017 Knight Stevie Elektra Commercial battery ferries become a reality archived from the original on 6 December 2017 retrieved 5 December 2017 VIDEO Plugging in Finland s first electric ferry www marinelog com Marine Log 20 November 2017 Archived from the original on 6 December 2017 Retrieved 5 December 2017 于小明 Fully electric cargo ship launched in Guangzhou Business www chinadaily com cn China Daily Archived from the original on 10 December 2017 Retrieved 6 December 2017 FAQ battery Archived from the original on 19 April 2019 Retrieved 30 August 2019 Murray Adrienne 14 January 2020 Plug in and sail Meet the electric ferry pioneers BBC News Retrieved 14 January 2020 Butler Jeff 10 December 2019 China s electric ferry is first in the country Plugboats All electric passenger ship a first Chinadaily com cn global chinadaily com cn 6 December 2019 First all electric ferry in U S reaches milestone WorkBoat 6 August 2020 World s 1st all electric tugboat now at work in Istanbul Plugboats 9 September 2020 World s Largest Electric Ferry Now Operational In Norway InsideEVs 2 March 2021 Hede Mark Michael 1 October 2021 Ny eldrevet Fano faerge til 80 millioner lagde sikkert fra land JydskeVestkysten Archived from the original on 1 October 2021 Video Ports of Auckland welcomes world s first e tug EVs amp Beyond 8 June 2022 Reversed Stern Drive Tug 2513 Electric PDF Archived PDF from the original on 9 October 2022 New Zealand electric ferry operator brings forward order for second vessel 7 April 2023 East By West 19m Ferry 7 April 2023 Southern hemisphere s first electric ferry launched in Wellington 7 April 2023 Largest electric cruise ship makes debut People s Daily Online Doll Scooter 31 March 2022 World s largest electric cruise ship makes maiden voyage in China with a whopping 7 500 kWh in battery power Electrek Archived from the original on 31 March 2022 Largest electric cruise ship makes debut People s Daily Online ECOMARINE BD ECOMARINE BD Retrieved 11 March 2023 External links EditElectric Boat Design Electric passenger Boat Designed for the city of Bordeaux France Electric Boat Association UK nonprofit Electric Boat Association Australia nonprofit Electric Boat Association US nonprofit Electric Seas Organization US nonprofit Getting to Zero Coalition Project of making of 10 Passenger Solar Boat Portals Renewable energy Energy Retrieved from https en wikipedia org w index php title Electric boat amp oldid 1148607214, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.