A chair is a type of seat, typically designed for one person and consisting of one or more legs, a flat or slightly angled seat and a back-rest. They may be made of wood, metal, or synthetic materials, and may be padded or upholstered in various colors and fabrics.
A steamboat is a boat that is propelled primarily by steam power, typically driving propellers or paddlewheels. Steamboats sometimes use the prefix designation SS, S.S. or S/S (for 'Screw Steamer') or PS (for 'Paddle Steamer'); however, these designations are most often used for steamships.
The term steamboat is used to refer to smaller, insular, steam-powered boats working on lakes and rivers, particularly riverboats. As using steam became more reliable, steam power became applied to larger, ocean-going vessels.
Background
Limitations of the Newcomen steam engine
Early steamboat designs used Newcomen steam engines. These engines were large, heavy, and produced little power, which resulted in an unfavorable power-to-weight ratio. The Newcomen engine also produced a reciprocating or rocking motion because it was designed for pumping. The piston stroke was caused by a water jet in the steam-filled cylinder, which condensed the steam, creating a vacuum, which in turn caused atmospheric pressure to drive the piston downward. The piston relied on the weight of the rod connecting to the underground pump to return the piston to the top of the cylinder. The heavy weight of the Newcomen engine required a structurally strong boat, and the reciprocating motion of the engine beam required a complicated mechanism to produce propulsion.[1]
Rotary motion engines
James Watt's design improvements increased the efficiency of the steam engine, improving the power-to-weight ratio, and created an engine capable of rotary motion by using a double-acting cylinder which injected steam at each end of the piston stroke to move the piston back and forth. The rotary steam engine simplified the mechanism required to turn a paddle wheel to propel a boat. Despite the improved efficiency and rotary motion, the power-to-weight ratio of Boulton and Watt steam engine was still low.[1]
High-pressure steam engines
The high-pressure steam engine was the development that made the steamboat practical. It had a high power-to-weight ratio and was fuel efficient. High pressure engines were made possible by improvements in the design of boilers and engine components so that they could withstand internal pressure, although boiler explosions were common due to lack of instrumentation like pressure gauges.[1] Attempts at making high-pressure engines had to wait until the expiration of the Boulton and Watt patent in 1800. Shortly thereafter high-pressure engines by Richard Trevithick and Oliver Evans were introduced.[1]
Compound or multiple expansion steam engines
The compound steam engine became widespread in the late 19th century. Compounding uses exhaust steam from a high pressure cylinder to a lower pressure cylinder and greatly improves efficiency. With compound engines it was possible for trans ocean steamers to carry less coal than freight.[1] Compound steam engine powered ships enabled a great increase in international trade.[2]
Steam turbines
The most efficient steam engine used for marine propulsion is the steam turbine. It was developed near the end of the 19th century and was used throughout the 20th century.[1]
History
Early designs
An apocryphal story from 1851 attributes the earliest steamboat to Denis Papin for a boat he built in 1705. Papin was an early innovator in steam power and the inventor of the steam digester, the first pressure cooker, which played an important role in James Watt's steam experiments. However, Papin's boat was not steam-powered but powered by hand-cranked paddles.[3]
A steamboat was described and patented by English physician John Allen in 1729.[4] In 1736, Jonathan Hulls was granted a patent in England for a Newcomen engine-powered steamboat (using a pulley instead of a beam, and a pawl and ratchet to obtain rotary motion), but it was the improvement in steam engines by James Watt that made the concept feasible. William Henry of Lancaster, Pennsylvania, having learned of Watt's engine on a visit to England, made his own engine, and put it in a boat. The boat sank, and while Henry made an improved model, he did not appear to have much success, though he may have inspired others.[5]
Model of steamship, built in 1784, by Claude de Jouffroy.
The first steam-powered ship Pyroscaphe was a paddle steamer powered by a Newcomen steam engine; it was built in France in 1783 by Marquis Claude de Jouffroy and his colleagues as an improvement of an earlier attempt, the 1776 Palmipède. At its first demonstration on 15 July 1783, Pyroscaphe travelled upstream on the river Saône for some fifteen minutes before the engine failed. Presumably this was easily repaired as the boat is said to have made several such journeys.[6][self-published source?][7] Following this, De Jouffroy attempted to get the government interested in his work, but for political reasons was instructed that he would have to build another version on the Seine in Paris. De Jouffroy did not have the funds for this, and, following the events of the French revolution, work on the project was discontinued after he left the country.[8][self-published source?][9]
Similar boats were made in 1785 by John Fitch in Philadelphia and William Symington in Dumfries, Scotland. Fitch successfully trialled his boat in 1787, and in 1788, he began operating a regular commercial service along the Delaware River between Philadelphia and Burlington, New Jersey, carrying as many as 30 passengers. This boat could typically make 7 to 8 miles per hour (11 to 13 km/h) and travelled more than 2,000 miles (3,200 km) during its short length of service. The Fitch steamboat was not a commercial success, as this travel route was adequately covered by relatively good wagon roads. The following year, a second boat made 30-mile (48 km) excursions, and in 1790, a third boat ran a series of trials on the Delaware River before patent disputes dissuaded Fitch from continuing.[5]
Meanwhile, Patrick Miller of Dalswinton, near Dumfries, Scotland, had developed double-hulled boats propelled by manually cranked paddle wheels placed between the hulls, even attempting to interest various European governments in a giant warship version, 246 feet (75 m) long. Miller sent King Gustav III of Sweden an actual small-scale version, 100 feet (30 m) long, called Experiment.[10] Miller then engaged engineer William Symington to build his patent steam engine that drove a stern-mounted paddle wheel in a boat in 1785. The boat was successfully tried out on Dalswinton Loch in 1788 and was followed by a larger steamboat the next year. Miller then abandoned the project.
19th century
Charlotte Dundas, built by William Symington.
The failed project of Patrick Miller caught the attention of Lord Dundas, Governor of the Forth and Clyde Canal Company, and at a meeting with the canal company's directors on 5 June 1800, they approved his proposals for the use of "a model of a boat by Captain Schank to be worked by a steam engine by Mr Symington" on the canal.
The boat was built by Alexander Hart at Grangemouth to Symington's design with a vertical cylinder engine and crosshead transmitting power to a crank driving the paddlewheels. Trials on the River Carron in June 1801 were successful and included towing sloops from the river Forth up the Carron and thence along the Forth and Clyde Canal.
In 1801, Symington patented a horizontal steam engine directly linked to a crank. He got support from Lord Dundas to build a second steamboat, which became famous as the Charlotte Dundas, named in honour of Lord Dundas's daughter. Symington designed a new hull around his powerful horizontal engine, with the crank driving a large paddle wheel in a central upstand in the hull, aimed at avoiding damage to the canal banks. The new boat was 56 ft (17.1 m) long, 18 ft (5.5 m) wide and 8 ft (2.4 m) depth, with a wooden hull. The boat was built by John Allan and the engine by the Carron Company.
The first sailing was on the canal in Glasgow on 4 January 1803, with Lord Dundas and a few of his relatives and friends on board. The crowd were pleased with what they saw, but Symington wanted to make improvements and another more ambitious trial was made on 28 March. On this occasion, the Charlotte Dundas towed two 70 ton barges 30 km (almost 20 miles) along the Forth and Clyde Canal to Glasgow, and despite "a strong breeze right ahead" that stopped all other canal boats it took only nine and a quarter hours, giving an average speed of about 3 km/h (2 mph). The Charlotte Dundas was the first practical steamboat, in that it demonstrated the practicality of steam power for ships, and was the first to be followed by continuous development of steamboats.[11]
The 1909 replica of the North River Steamboat, the first steamboat to achieve commercial success transporting passengers along the Hudson River.
The American Robert Fulton was present at the trials of the Charlotte Dundas and was intrigued by the potential of the steamboat. While working in France, he corresponded with and was helped by the Scottish engineer Henry Bell, who may have given him the first model of his working steamboat.[12] Fulton designed his own steamboat, which sailed along the River Seine in 1803.
Fulton later obtained a Boulton and Watt steam engine, shipped to America, where his first proper steamship was built in 1807,[13] North River Steamboat (later known as Clermont), which carried passengers between New York City and Albany, New York. Clermont was able to make the 150-mile (240 km) trip in 32 hours. The steamboat was powered by a Boulton and Watt engine and was capable of long-distance travel. It was the first commercially successful steamboat, transporting passengers along the Hudson River.
In 1807 Robert L. Stevens began operation of the Phoenix, which used a high-pressure engine in combination with a low-pressure condensing engine. The first steamboats powered only by high pressure were the Aetna and Pennsylvania, designed and built by Oliver Evans.[14]
In October 1811 a ship designed by John Stevens, Little Juliana, would operate as the first steam-powered ferry between Hoboken and New York City. Stevens' ship was engineered as a twin-screw-driven steamboat in juxtaposition to Clermont's Boulton and Watt engine.[15] The design was a modification of Stevens' prior paddle steamer Phoenix, the first steamship to successfully navigate the open ocean in its route from Hoboken to Philadelphia.[16]
In 1812, Henry Bell's PS Comet was inaugurated.[17] The steamboat was the first commercial passenger service in Europe and sailed along the River Clyde in Scotland.[17]
The Margery, launched in Dumbarton in 1814, in January 1815 became the first steamboat on the River Thames, much to the amazement of Londoners. She operated a London-to-Gravesend river service until 1816, when she was sold to the French and became the first steamboat to cross the English Channel. When she reached Paris, the new owners renamed her Elise and inaugurated a Seine steamboat service.[18]
In 1818, Ferdinando I, the first Italian steamboat, left the port of Naples, where it had been built.[19]
Ocean-going
SS Savannah, the first steam-powered ship to cross the Atlantic Ocean—1819
The first sea-going steamboat was Richard Wright's first steamboat "Experiment", an ex-French lugger; she steamed from Leeds to Yarmouth, arriving Yarmouth 19 July 1813.[20] "Tug", the first tugboat, was launched by the Woods Brothers, Port Glasgow, on 5 November 1817; in the summer of 1818 she was the first steamboat to travel round the North of Scotland to the East Coast.[21][page needed]
Steamships required carrying fuel (coal) at the expense of the regular payload. For this reason for some time sailships remained more economically viable for long voyages. However, as the steam engine technology improved, more power could be generated by the same quantity of fuel and longer distances could be traveled. A steamship built in 1855 required about 40% of its available cargo space to store enough coal to cross the Atlantic, but by the 1860s, transatlantic steamship services became cost-effective and steamships began to dominate these routes. By the 1870s, particularly in conjunction with the opening of the Suez Canal in 1869, South Asia became economically accessible for steamships from Europe. By the 1890s, the steamship technology so improved that steamships became economically viable even on long-distance voyages such as linking Great Britain with its Pacific Asian colonies, such as Singapore and Hong Kong. This resulted in the downfall of sailing.[22]
Arkville is a hamlet in the Town of Middletown, Delaware County, New York, United States. It is located along New York State Route 28, one mile north of the village of Margaretville in the western Catskill Mountains. It has the ZIP code 12406.
Arkville is built either on or very close to the site of an old Lenape village called Pakatagkan.
The main office of the Catskill Center for Conservation and Development is located in the Erpf House along Route 28. The hamlet straddles the Catskill Park Blue Line, which moves from the former Ulster and Delaware Railroad tracks to Dry Brook and then the East Branch of the Delaware River a short distance to the west.