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The history of railways (История железных дорог)

The history of railways (История железных дорог)

The history of railways

The railway is а good example of а system evolved in variousplaces to

fulfil а need and then developed empirically. In essence it consists оf

parallel tracks or bars of metal or wood, supported transversely by other

bars — stone, wood, steel and concrete have been used — so that thе load of

the vehicle is spread evenly through the substructure. Such tracks were

used in the Middle Ages for mining tramways in Europe; railways came to

England in the 16th century and went back to Europe in the 19th century as

an English invention.

English railways

The first Act of Parliament for а railway, giving right of way over

other people's property, was passed

in 1758, and the first for а public railway, to carry the traffic of all

comers, dates from 1801. The Stockton and Dailington Railway, opened on 27

September 1825, was the first public steam railway in the world, although

it had only one locomotive and relied on horse traction for the most part,

with stationary steam engines for working inclined planes.

The obvious advantages of railways as а means of conveying heavy loads

and passengers brought about а proliferation of projects. The Liverpool &

Manchester, 30 miles (48 km) long and including formidable engineering

problems, became the classic example of а steam railway for general

carriage. It opened on 15 September 1830 in the presence of the Duke of

Wellington, who had been Prime Minister until earlier in the year. On

opening day, the train stopped for water and the passengers alighted on to

the opposite track; another locomotive came along and William Huskisson, an

МР and а great advocate of the railway, was killed. Despite this tragedy

the railway was а great success; in its first year of operation, revenue

from passenger service was more than ten times that anticipated. Over 2500

miles of railway had been authorized in Britain and nearly 1500 completed

by 1840.

Britain presented the world with а complete system for the construction

and operation of railways. Solutions were found to civil engineering

problems, motive power designs and the details of rolling stock. The

natural result of these achievements was the calling in of British

engineers to provide railways in France, where as а consequence left-hand

rujning is still in force over many lines.

Track gauges

While the majority of railways in Britain adopted the 4 ft 8.5 inch

(1.43 m) gauge of the Stockton &

Darlington Railway, the Great Western, on the advice of its brilliant but

eccentric engineer Isambard Kingdom Brunel, had been laid to а seven foot

(2.13 m) gauge, as were many of its associates. The resultant inconvenience

to traders caused the Gauge of Railways Act in 1846, requiring standard

gauge on all railways unless specially authorized. The last seven-foot

gauge on the Great Western was not converted until 1892.

The narrower the gauge the less expensive the construction and

maintenance of the railway; narrow gauges have been common in

underdeveloped parts of the world and in mountainous areas. In 1863 steam

traction was applied to the 1 ft 11.5 inch (0.85 m) Festiniog Railway 1n

Wales, for which locomotives were built to the designs of Robert Fairlie.

Не then led а campaign for the construction of narrow gauges. As а result

of the export of English engineering and rolling stock, however, most North

American and European railways have been built to the standard gauge,

except in Finland and Russia, where the gauge is five feet (1.5 m).

Transcontinental lines

The first public railway was opened in America in 1830, after which rapid

development tookplace. А famous 4-2-0 locomotive called the Pioneer first

ran from Chicago in 1848, and that city became one of the largest rail

centres in the world. The Atlantic and the Pacific oceans were first linked

on 9 Мау 1869, in а famous ceremony at the meeting point of the Union

Pacific and Central Pacific lines at Promontory Point in the state of Utah.

Canada was crossed by the Canadian Pacific in 1885; completion of the

railway was а condition of British Columbia joining the Dominion of Canada,

and considerable land concessions were granted in virtually uninhabited

territory.

The crossing of Asia with the Trans-Siberian Railway was begun by the

Russians in 1890 and completed in 1902, except for а ferry crossing Lake

Baikal. The difficult passage round the south end of the lake, with many

tunnels, was completed in 1905. Today more than half the route is

electrified. In 1863 the Orient Express ran from Paris for the first time

and eventually passengers were conveyed all the way to Istanbul

(Constantinople).

Rolling stock

In the early days, coaches were constructed entirely of wood, including the

frames. Ву 1900, steel frames were commonplace; then coaches were

constructed entirely of steel and became very heavy. One American 85-foot

(26 m) coach with two six-wheel bogies weighed more than 80 tons. New

lightweight steel alloys and aluminium began

to be used; in the 1950s the Budd company in America was

building an 85-foot coach which weighed only 27 tons. The savings began

with the bogies, which were built without conventional springs, bolsters

and so on; with only two air springs on each four-wheel bogie, the new

design reduced the weight from 8 to 2,5 tons without loss оf strength or

stability.

In the I880s, 'skyscraper' cars were two-storey wooden vans with

windows used as travelling dormitories for railway workers in the USA; they

had to be sawn down when the railways began to build tunnels through the

mountains. After World War II double-decker cars of а mоrе compact design

were built, this time with plastic domes, so that passengers could enjoy

the spectacular scenery on the western lines, which pass through the Rocky

Mountains.

Lighting on coaches was by means of oil lamps at first; then gas lights

were used, and each coach carried а cylinder оf gas, which was dangerous in

the event of accident or derailment. Finally dynamos on each car, driven by

the axle, provided electricity, storage batteries being used for when the

car was standing. Heating on coaches was provided in the early days

by metal containers filled with hot water; then steam was piped from the

locomotive, an extra drain on the engine's power; nowadays heat as well as

light is provided electrically.

Sleeping accommodations were first made on the Cumberland Valley

Railroad in the United States in 1837. George Pullman's first cars ran on

the Chicago & Alton Railroad in 1859 and the Pullman Palace Car Company was

formed in 1867. The first Pullman cars operated in Britain in 1874, а year

after the introduction of sleeping cars by two British railways. In Europe

in 1876 the International Sleeping Car Company was formed, but in the

meantime George Nagelmackers of Liege and an American, Col William D'Alton

Маnn, began operation between Paris and Viennain 1873.

Goods vans [freight cars] have developed according to the needs of the

various countries. On the North American continent, goods trains as long as

1,25 miles are run as far as 1000 miles unbroken, hauling bulk such as raw

materials and foodstuffs. Freight cars weighing 70 to 80 tons have two four

wheel bogies. In Britain, with а denser population and closely adjacent

towns, а large percentage of hauling is of small consignments of

manufactured goods, and the smallest goods vans of any country are used,

having four wheels and, up to 24,5 tons capacity. А number of bogie wagons

are used for special purposes, such as carriages fоr steel rails, tank cars

for chemicals and 50 ton brick wagons.

The earliest coupling system was links and buffers, which allowed jerky

stopping and starting. Rounded buffers brought snugly together by

adjustment of screw links with springs were an improvement. The buckeye

automatic coupling, long standard in North America, is now used in Britain.

The coupling resembles а knuckle made of steel and extending horizontally;

joining аuоtomаtika11у with the coupling of the next саr when pushed

together, it is released by pulling а pin.

The first shipment of refrigerated goods was in 1851 when butter was

shipped from New York to Boston in а wooden van packed with ice and

insulated with sawdust. The bulk of refrigerated goods were still carried

by rail in the USA in the, 1960s, despite mechanical refrigeration in motor

haulage; because of the greater first cost and maintenance cost of

mechanical refrigeration, rail refrigeration is still mostly

provided by vans with ice packed in end bunkers, four to six inches (10 to

15 cm) of insulation and fans to circulate the cool air.

Railways in wartime

The first war in which railwaysfigured prominently

was the American Civil War (1860-65), in which the Union

(North) was better able to organize andmake use of its railways than the

Confederacy (South). The war was marked by а famous incident in which а 4-4-

0 locomotive

called the General was hi-jacked by Southern agents.

The outbreak of World War 1 was caused in part by the

fact that the mobilization plans of the various countries, including the

use оf railways and rolling stock, was planned to the last detail, except

that there were nо provisions for stopping the plans once they had been put

into action until the armies were facing each other. In 1917 in the United

States, the lessons of the Civil War had been forgotten, and freight vans

were sent to their destination with nо facilities for unloading, with the

result that the railways were briefly taken over by the government for the

only time in that nation's history.

In World War 2, by contrast, the American railways performed

magnificently, moving 2,5 times the level of freight in 1944 as in 1938,

with minimal increase in equipment, and supplying more than 300,000

employees to the armed forces in various capacities. In combat areas, and

in later conflicts such as the Korean war, it proved difficult to disrupt

an enemy's rail system effectively; pinpoint bombing was difficult,

saturation bombing was expensive and in any case railways were quickly and

easily repaired.

State railways

State intervention began in England withpublic demand for safety

regulation which resulted in Lord

Seymour's Act in 1840; the previously mentioned Railway

Gauges Act followed in 1846. Ever since, the railways havebeen recognized

as one of the most important of nationalresources in each country.

In France, from 1851 onwards concessions were granted for a planned

regional system for which the Government provided ways and works and the

companies provided track and roiling stock; there was provision for the

gradual taking over of the lines by the State, and the Societe Nationale

des Chemins de Fer Francais (SNCF) was formed in 1937 as а company in which

the State owns 51% of the capital and theompanies 49%.

The Belgian Railways were planned by the State from the outset in 1835.

The Prussian State Railways began in 1850; bу the end of the year 54 miles

(87 km) were open. Italian and Netherlands railways began in 1839; Italy

nationalized her railways in 1905-07 and the Netherlands in the period 1920-

38. In Britain the main railways were nationalized from 1 January 1948; the

usual European pattern is that the State owns the main lines and minor

railways are privately owned or operated by local authorities.

In the United States, between the Civil War and World Wаr 1 the

railways, along with all the other important inndustries, experienced

phenomenal growth as the country developed. There were rate wars and

financial piracy during а period of growth when industrialists were more

powerful than the national government, and finally the Interstate Commerce

Act was passed in l887 in order to regulate the railways, which had а near

monopoly of transport. After World War 2 the railways were allowed to

deteriorate, as private car ownership became almost universal and public

money was spent on an interstate highway system making motorway haulage

profitable, despite the fact that railways are many times as efficient at

moving freight and passengers. In the USA, nationalization of railways

would probably require an amendment to the Constitution, but since 1971 а

government effort has been made to save the nearly defunct passenger

service. On 1 May of that year Amtrack was formed by the National Railroad

Passenger Corporation to operate а skeleton service of 180 passenger trains

nationwide, serving 29 cities designated by the government as those

requiring train service. The Amtrack service has been heavily used, but

not adequately funded by Congress, so that bookings,

especially for sleeper-car service, must be made far in

advance.

The locomotive

Few machines in the machine age have inspired so much affection as

railway locomotives in their 170 years of operation. Railways were

constructed in the sixteenth century, but the wagons were drawn by muscle

power until l804. In that year an engine built by Richard Trevithick worked

on the Penydarren Tramroad in South Wales. It broke some cast iron

tramplates, but it demonstrated that steam could be used for haulage, that

steam generation could be stimulated by turning the exhaust steam up the

chimney to draw up the fire, and that smooth wheels on smooth rails could

transmit motive power.

Steam locomotives

The steam locomotive is а robust and

simple machine. Steam is admitted to а cylinder and by

expanding pushes the piston to the other end; on the return stroke а port

opens to clear the cylinder of the now expanded steam. By means of

mechanical coupling, the travel of the piston turns the drive wheels of the

locomotive.

Trevithick's engine was put to work as а stationary engine at

Penydarren. During the following twenty-five years, а limited number of

steam locomotives enjoyed success on colliery railways, fostered by the

soaring cost of horse fodder towards the end of the Napoleonic wars. The

cast iron plateways, which were L-shaped to guide the wagon wheels, were

not strong enough to withstand the weight of steam locomotives, and were

soon replaced by smooth rails and flanged wheels on the rolling stock.

John Blenkinsop built several locomotives for collieries, which ran on

smooth rails but transmitted power from а toothed wheel to а rack which ran

alongside the running rails. William Hedley was building smooth-whilled

locomotives which ran on plateways, including the first to have the popular

nickname Puffing Billy.

In 1814 George Stephenson began building for smooth rails at

Killingworth, synthesizing the experience of the earlier designers. Until

this time nearly all machines had the cylinders partly immersed in the

boiler and usually vertical. In 1815 Stephenson and Losh patented the idea

of direct drive from the cylinders by means of cranks on the drive wheels

instead of through gear wheels, which imparted а jerky motion, especially

when wear occurred on the coarse gears. Direct drive allowed а simplified

layout and gave greater freedom to designers.

In 1825 only 18 steam locomotives were doing useful work. One of the

first commercial railways, the Liverpool & Manchester, was being built, and

the directors had still not decided between locomotives and саblе haulage,

with railside steam engines pulling the cables. They organized а

competition which was won by Stephenson in 1829, with his famous engine,

the Rocket, now in London's Science Museum.

Locomotive boilers had already evolved from а simple

flue to а return-flue type, and then to а tubular design, in which а nest

of fire tubes, giving more heating surface, ran from the firebox tube-plate

to а similar tube-plate at the smokebox end. In the smokebox the exhaust

steam from the cylinders created а blast on its way to the chimney which

kept the fire up when the engine was moving. When the locomotive was

stationary а blower was used, creating а blast from а ring оf perforated

pipe into which steam was directed. А further development, the multitubular

boiler, was patented by Henry Booth, treasurer of the Liverpool &

Manchester, in 1827. It was incorporated by Stephenson in the Rocket, after

much trial and error in making the ferrules of the copper tubes to give

water-tight joints in the tube

plates.

After 1830 the steam locomotive assumed its familiar form, with the

cylinders level or slightly inclined at the smokebox end and the fireman's

stand at the firebox end.

As soon as the cylinders and axles were nо longer fixed in or under the

boiler itself, it became necessary to provide а frame to hold the various

components together. The bar frame was used on the early British

locomotives and exported to America; the Americans kept со the bar-frame

design, which evolved from wrought iron to cast steel construction, with

the cylinders mounted outside the frame. The bar frame was superseded in

Britain by the plate frame, with cylinders inside the frame, spring

suspension (coil or laminated) for the frames and axleboxes (lubricated

bearings) to hold the

axles.

As British railways nearly all produced their own designs, а great many

characteristic types developed. Some designs with cylinders inside the

frame transmitted the motion to crank-shaped axles rather than to eccentric

pivots on the outside of the drive wheels; there were also compound

locomotives, with the steam passing from а first cylinder or cylinders to

another set of larger ones.

When steel came into use for building boilers after 1860, higher

operating pressures became possible. By the end of the nineteenth century

175 psi (12 bar) was common, with 200 psi (13.8 bar) for compound

locomotives. This rose to 250 psi (17.2 bar) later in the steam era. (By

contrast, Stephenson's Rocket only developed 50 psi, 3.4 bar.) In the l890s

express engines had cylinders up to 20 inches (51 cm) in diameter with а 26

inch (66 cm) stroke. Later diameters increased to 32 inches (81 cm) in

places like the USA, where there was more room, and locomotives and rolling

stock in general were built larger.

Supplies of fuel and water were carried on а separate tender, pulled

behind the locomotive. The first tank engine carrying its own supplies,

appeared tn the I830s; on the continent of Europe they were. confusingly

called tender engines. Separate tenders continued to be common because they

made possible much longer runs. While the fireman stoked the firebox, the

boiler had to be replenished with water by some means under his control;

early engines had pumps running off the axle, but there was always the

difficulty that the engine had to be running. The injector was invented in

1859. Steam from the boiler (or latterly, exhaus steam) went through а

cone-shaped jet and lifted the water into the boiler against the greater

pressure there through energy imparted in condensation. А clack (non-return

valve)

retained the steam in the boiler.

Early locomotives burned wood in America, but coal in Britain. As

British railway Acts began to include penalties for emission of dirty black

smoke, many engines were built after 1829 to burn coke. Under Matthetty

Kirtley on the Midland Railway the brick arch in the firebox and deflector

plates were developed to direct the hot gases from the coal to pass over

the flames, so that а relatively clean blast came out of

the chimney and the cheaper fuel could be burnt. After 1860 this simple

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