Misplaced Pages

Toksong Line

Article snapshot taken from Wikipedia with creative commons attribution-sharealike license. Give it a read and then ask your questions in the chat. We can research this topic together.

#109890

159-670: The Tŏksŏng Line is a non-electrified standard-gauge secondary line of the Korean State Railway in South Hamgyŏng Province , North Korea , running from Sinbukch'ŏng on the P'yŏngra Line to Sangri . On 20 September 1929 the Chosen Government Railway opened the Pukch'ŏng Line from Sinbukch'ŏng to Pukch'ŏng . In the 1940s an extension of the railway had been planned, but the construction

318-516: A " Strong and Prosperous Nation " were implemented, and slowly the situation in North Korea began to improve - especially as a result of South Korean President Kim Dae-jung 's Sunshine Policy of rapprochement with the North. In July 2000, talks began between the two Koreas to discuss the reopening of the former Kyŏngŭi Line that once ran between Seoul and Sinŭiju via P'yŏngyang ; this line

477-402: A (nearly) continuous conductor running along the track that usually takes one of two forms: an overhead line , suspended from poles or towers along the track or from structure or tunnel ceilings, or a third rail mounted at track level and contacted by a sliding " pickup shoe ". Both overhead wire and third-rail systems usually use the running rails as the return conductor, but some systems use

636-502: A few years later. Although the USSR had promised to deliver Soviet-made electric locomotives to North Korea, this never took place, so to supplement the sixteen electric locomotives inherited from Sentetsu, in 1958 Kukch'ŏl ordered ten Type 22E 2 locomotives from the Škoda Works of Czechoslovakia . This was just a temporary measure, however, as the main goal was the development of a domestically produced electric locomotive. To this end,

795-612: A five-month shutdown. At the same time, passenger services were reopened on the eastern line to carry passengers to the Mount Kŭmgang Tourist Region , although that service was discontinued in July 2008 after the shooting of a South Korean tourist. In 2008, an inspection of the railways was carried out by the National Defence Commission , revealing massive corruption, as a result of which Kim Yong-sam

954-573: A higher total efficiency. Electricity for electric rail systems can also come from renewable energy , nuclear power , or other low-carbon sources, which do not emit pollution or emissions. Electric locomotives may easily be constructed with greater power output than most diesel locomotives. For passenger operation it is possible to provide enough power with diesel engines (see e.g. ' ICE TD ') but, at higher speeds, this proves costly and impractical. Therefore, almost all high speed trains are electric. The high power of electric locomotives also gives them

1113-467: A historical concern for double-stack rail transport regarding clearances with overhead lines but it is no longer universally true as of 2022 , with both Indian Railways and China Railway regularly operating electric double-stack cargo trains under overhead lines. Railway electrification has constantly increased in the past decades, and as of 2022, electrified tracks account for nearly one-third of total tracks globally. Railway electrification

1272-690: A joint venture of the Russian Railways and the Port of Rason , which has formally leased the line for 49 years. The upgrade work was officially completed on 22 September 2013. The second decade of the 21st century has continued the trends of the first, as further new lines have been or are being built, such as a line from Tongrim on the P'yŏngui Line to the Sŏhae Satellite Launching Station in Tongchang. The second stage of

1431-585: A licence to build the Škoda Type 30E was bought from Czechoslovakia, including technology transfer, and a number were built to the original design to gain familiarity with the process, but most of the effort was placed on designing the larger, indigenous design. The prototype of the DPRK's first domestically produced mainline electric locomotive, the Red Flag 1 , was completed at the Kim Chŏng-t'ae Works (then called

1590-525: A national mourning period of several years. This, together with the loss of aid money from former allies after the collapse of Communism in eastern Europe and the dissolution of the USSR, as well as major flooding and other natural disasters, led to a period of economic crisis known as the Arduous March ; the attempt to overcome this through the introduction of the Sŏngun policy only served to exacerbate

1749-588: A newly established Ministry of Railways (조선 민주주의 인민 공화국 철도성, Chosŏn Minjujuŭi Inmin Konghwaguk Ch'ŏldosŏng ). Re-electrification of the Yangdŏk – Ch'ŏnsŏng section of the P'yŏngra Line , which had been initially electrified in 1948 but destroyed during the Korean War, was completed with Soviet assistance on 25 May 1956, but the large-scale electrification of North Korea's rail lines began only in 1958; by

SECTION 10

#1732780171110

1908-537: A number of European countries, India, Saudi Arabia, eastern Japan, countries that used to be part of the Soviet Union, on high-speed lines in much of Western Europe (including countries that still run conventional railways under DC but not in countries using 16.7   Hz, see above). Most systems like this operate at 25   kV, although 12.5   kV sections exist in the United States, and 20   kV

2067-457: A power grid that is delivered to a locomotive, and within the locomotive, transformed and rectified to a lower DC voltage in preparation for use by traction motors. These motors may either be DC motors which directly use the DC or they may be three-phase AC motors which require further conversion of the DC to variable frequency three-phase AC (using power electronics). Thus both systems are faced with

2226-498: A relative lack of flexibility (since electric trains need third rails or overhead wires), and a vulnerability to power interruptions. Electro-diesel locomotives and electro-diesel multiple units mitigate these problems somewhat as they are capable of running on diesel power during an outage or on non-electrified routes. Different regions may use different supply voltages and frequencies, complicating through service and requiring greater complexity of locomotive power. There used to be

2385-481: A separate fourth rail for this purpose. In comparison to the principal alternative, the diesel engine , electric railways offer substantially better energy efficiency , lower emissions , and lower operating costs. Electric locomotives are also usually quieter, more powerful, and more responsive and reliable than diesel. They have no local emissions, an important advantage in tunnels and urban areas. Some electric traction systems provide regenerative braking that turns

2544-529: A shorter standard gauge line to replace the existing narrow gauge line; the work was completed quickly, and by September of that year the new, 41.7 km (25.9 mi) "Hwanghae Main Line" was opened. However, the rest of the line from Hasŏng to Haeju remained narrow gauge. The Hwanghae Main Line was, like most other lines, extensively damaged in the Korean War; refurbishment of the Hwanghae Main Line

2703-418: A third rail. The key advantage of the four-rail system is that neither running rail carries any current. This scheme was introduced because of the problems of return currents, intended to be carried by the earthed (grounded) running rail, flowing through the iron tunnel linings instead. This can cause electrolytic damage and even arcing if the tunnel segments are not electrically bonded together. The problem

2862-549: A very large portion of traffic in North Korea: Due to the ageing infrastructure, normal operation is made difficult by chronic power shortages and poor state of infrastructure maintenance. Sleepers, tunnels and bridges are in a critically poor state of repair. Tracks are laid on either wooden or concrete sleepers, using rails of 37, 40, 50, 60 kg/m (75, 81, 101, 121 lb/yd) of domestic, Chinese and Russian manufacture. Riverine gravel and crushed stone ballast

3021-459: Is 1,435 mm ( 4 ft  8 + 1 ⁄ 2  in ) standard gauge , 156 km (97 mi) of 1,520 mm ( 4 ft  11 + 27 ⁄ 32  in ) broad gauge , and 523 km (325 mi) is 762 mm ( 2 ft 6 in ) narrow gauge Of the total, about 80% is in regular use. 3,893.5 km (2,419.3 mi) of the standard gauge lines are electrified at 3 kV DC and 295.5 km (183.6 mi) of

3180-401: Is being actively pursued at this time. On 8 December 2013, an agreement was reached between North Korea and a consortium of Chinese companies to construct a high-speed railway connecting Kaesŏng , P'yŏngyang, and Sinŭiju . The project is to be a build-operate-transfer arrangement, in which the construction, scheduled to take five years, will be funded by the consortium, which will then operate

3339-411: Is derived by using resistors which ensures that stray earth currents are kept to manageable levels. Power-only rails can be mounted on strongly insulating ceramic chairs to minimise current leak, but this is not possible for running rails, which have to be seated on stronger metal chairs to carry the weight of trains. However, elastomeric rubber pads placed between the rails and chairs can now solve part of

SECTION 20

#1732780171110

3498-451: Is effected by one contact shoe each that slide on top of each one of the running rails . This and all other rubber-tyred metros that have a 1,435 mm ( 4 ft  8 + 1 ⁄ 2  in ) standard gauge track between the roll ways operate in the same manner. Railways and electrical utilities use AC as opposed to DC for the same reason: to use transformers , which require AC, to produce higher voltages. The higher

3657-526: Is electrified, companies often find that they need to continue use of diesel trains even if sections are electrified. The increasing demand for container traffic, which is more efficient when utilizing the double-stack car , also has network effect issues with existing electrifications due to insufficient clearance of overhead electrical lines for these trains, but electrification can be built or modified to have sufficient clearance, at additional cost. A problem specifically related to electrified lines are gaps in

3816-568: Is estimated to be around US$ 25 billion, and it is expected that exports of coal, rare-earth and non-ferrous metals from the DPRK to Russia will provide the funding for the project. In January 2017, a Russian delegation visited Pyongyang to discuss the expansion of cooperation between Kukch'ŏl and the Russian Railways. This included agreements to allow students at the Pyongyang Railway University to enrol at

3975-612: Is generally composed of eight coaches and one dining car operating between P'yŏngyang and Sinŭiju, two North Korean sleeping cars between P'yŏngyang and Beijing, and three China Railways coaches and one Korean State Railway sleeping car between P'yŏngyang and Dandong , China. Railway electrification system Railway electrification is the use of electric power for the propulsion of rail transport . Electric railways use either electric locomotives (hauling passengers or freight in separate cars), electric multiple units ( passenger cars with their own motors) or both. Electricity

4134-486: Is limited and losses are significantly higher. However, the higher voltages used in many AC electrification systems reduce transmission losses over longer distances, allowing for fewer substations or more powerful locomotives to be used. Also, the energy used to blow air to cool transformers, power electronics (including rectifiers), and other conversion hardware must be accounted for. Standard AC electrification systems use much higher voltages than standard DC systems. One of

4293-778: Is no longer exactly one-third of the grid frequency. This solved overheating problems with the rotary converters used to generate some of this power from the grid supply. In the US , the New York, New Haven, and Hartford Railroad , the Pennsylvania Railroad and the Philadelphia and Reading Railway adopted 11   kV 25   Hz single-phase AC. Parts of the original electrified network still operate at 25   Hz, with voltage boosted to 12   kV, while others were converted to 12.5 or 25   kV 60   Hz. In

4452-599: Is now split between the P'yŏngŭi Line in the north running from Sinŭiju to P'yŏngyang and the P'yŏngbu Line from P'yŏngyang via Kaesŏng to the Korean Demilitarized Zone , and Korail 's Kyŏngŭi Line, which runs from the DMZ via Torasan to Seoul. Work in the South began almost immediately, and service was restarted on the 6.1 km (3.8 mi) Munsan – Imjingang section of on 30 September 2001, and on

4611-447: Is sufficient traffic, the reduced track and especially the lower engine maintenance and running costs exceed the costs of this maintenance significantly. Newly electrified lines often show a "sparks effect", whereby electrification in passenger rail systems leads to significant jumps in patronage / revenue. The reasons may include electric trains being seen as more modern and attractive to ride, faster, quieter and smoother service, and

4770-410: Is that the power-wasting resistors used in DC locomotives for speed control were not needed in an AC locomotive: multiple taps on the transformer can supply a range of voltages. Separate low-voltage transformer windings supply lighting and the motors driving auxiliary machinery. More recently, the development of very high power semiconductors has caused the classic DC motor to be largely replaced with

4929-894: Is the countrywide system. 3   kV DC is used in Belgium, Italy, Spain, Poland, Slovakia, Slovenia, South Africa, Chile, the northern portion of the Czech Republic, the former republics of the Soviet Union , and in the Netherlands on a few kilometers between Maastricht and Belgium. It was formerly used by the Milwaukee Road from Harlowton, Montana , to Seattle, across the Continental Divide and including extensive branch and loop lines in Montana, and by

Toksong Line - Misplaced Pages Continue

5088-580: Is the development of powering trains and locomotives using electricity instead of diesel or steam power . The history of railway electrification dates back to the late 19th century when the first electric tramways were introduced in cities like Berlin , London , and New York City . In 1881, the first permanent railway electrification in the world was the Gross-Lichterfelde Tramway in Berlin , Germany. Overhead line electrification

5247-782: Is the operating arm of the North Korean Ministry of Railways. It is divided into five Regional Bureaus: P'yŏngyang, Kaech'ŏn , Hamhŭng , Ch'ŏngjin , and Sariwŏn . Also subordinate to the Railway Ministry are five major industrial concerns: the Kim Chong-t'ae Electric Locomotive Works in P'yŏngyang, the 4 June Rolling Stock Works in Wŏnsan, the Ch'ŏngjin Railway Factory , the 7.6 Vehicle Parts Factory and

5406-420: Is typically generated in large and relatively efficient generating stations , transmitted to the railway network and distributed to the trains. Some electric railways have their own dedicated generating stations and transmission lines , but most purchase power from an electric utility . The railway usually provides its own distribution lines, switches, and transformers . Power is supplied to moving trains with

5565-838: Is used on some narrow-gauge lines in Japan. On "French system" HSLs, the overhead line and a "sleeper" feeder line each carry 25   kV in relation to the rails, but in opposite phase so they are at 50   kV from each other; autotransformers equalize the tension at regular intervals. Various railway electrification systems in the late nineteenth and twentieth centuries utilised three-phase , rather than single-phase electric power delivery due to ease of design of both power supply and locomotives. These systems could either use standard network frequency and three power cables, or reduced frequency, which allowed for return-phase line to be third rail, rather than an additional overhead wire. The majority of modern electrification systems take AC energy from

5724-597: Is used. Tunnels are of concrete construction; many are in poor condition, having been built during the colonial era. Communications equipment and the semi-automatic signalisation infrastructure dates to the 1970s, and was imported from China and the Soviet Union. The poor state of the infrastructure severely restricts operational speeds - average train speeds are as low as 20 km/h (12 mph)–60 km/h (37 mph) (in South Korea 60 km/h (37 mph)–100 km/h (62 mph) on non-high speed lines): only on

5883-703: The Chosen Government Railway ( Sentetsu ), the South Manchuria Railway ( Mantetsu ) and private companies such as the Chosen Railway ( Chōtetsu ). At the end of the Pacific War , 2,879.3 km (1,789.1 mi) (2,466.1 km (1,532.4 mi) of standard gauge, and 413.2 km (256.8 mi) of 762 mm (30.0 in) narrow gauge) was Sentetsu owned, and 851.5 km (529.1 mi) (678.4 km (421.5 mi) of standard gauge and 173.1 km (107.6 mi) of narrow gauge)

6042-656: The Delaware, Lackawanna and Western Railroad (now New Jersey Transit , converted to 25   kV   AC) in the United States, and the Kolkata suburban railway (Bardhaman Main Line) in India, before it was converted to 25   kV 50   Hz. DC voltages between 600   V and 750   V are used by most tramways and trolleybus networks, as well as some metro systems as the traction motors accept this voltage without

6201-711: The HSL-Zuid and Betuwelijn , and 3,000   V south of Maastricht . In Portugal, it is used in the Cascais Line and in Denmark on the suburban S-train system (1650   V DC). In the United Kingdom, 1,500   V   DC was used in 1954 for the Woodhead trans-Pennine route (now closed); the system used regenerative braking , allowing for transfer of energy between climbing and descending trains on

6360-684: The Hambuk Line was finished in 1995 with the wiring of the Hoeryŏng – Namyang section, while the electrification of the Kŭmgangsan Ch'ŏngnyŏn Line was completed on 15 April 1997. In 1993, a plan to double track a total of 337 km of lines was started. In the Japanese era, most trunk lines were double tracked; however, needing to rebuild quickly after the extensive destruction of the Korean War, these lines were rebuilt as single track lines - even

6519-701: The Innovia ART system. While part of the SkyTrain network, the Canada Line does not use this system and instead uses more traditional motors attached to the wheels and third-rail electrification. A few lines of the Paris Métro in France operate on a four-rail power system. The trains move on rubber tyres which roll on a pair of narrow roll ways made of steel and, in some places, of concrete . Since

Toksong Line - Misplaced Pages Continue

6678-602: The K62-class diesel locomotives were converted to electric locomotives by replacing their diesel engines with electric motors, resulting in the Kanghaenggun-class (강행군, "Forced March") , the first eleven of which were put into service on electrified trunk lines in 1998. For propaganda purposes, these were announced as being new domestically produced locomotives. This was not the only case in which refurbished equipment, or equipment bought second-hand from overseas,

6837-614: The Korean War which broke out on 25 June 1950 interrupted progress. Initially, the Korean People's Army was dominant, occupying most of the Korean Peninsula apart from a small pocket around Pusan ; during this time, many railway vehicles, such as DeRoI-class electric locomotives and steam locomotives built in Japan after the end of the war and delivered to South Korea as reparations, were taken to North Korea. At

6996-515: The P'yŏngbu Line are speeds of 100 km/h (62 mph) possible. The railway provides the primary form of long-distance transport in North Korea. Although the Soviet Army restarted operation of passenger trains just days after the formal partition of Korea in 1945, it was only after the end of the Korean War that regularly scheduled international trains between the DPRK and China were resumed. An agreement on cross-border train service

7155-494: The P'yŏngdŏk Line from P'yŏngyang to Chedong was held. The project, supported by Russia , is intended to form the first stage of a larger-scale cooperation with the Russian Railways as part of a 20-year development project that would modernise around 3,500 km (2,200 mi) of the North Korean rail network, and would include the construction of a north–south freight bypass around P'yŏngyang. The overall project cost

7314-539: The P'yŏngra Line , opened on 10 June 1965 as a shortcut line leading to a significant reduction in travel time between Chongjin and Rajin, was actually just the completion of the Ch'ŏngra Line project started by Sentetsu in 1945, but whose construction was interrupted by the end of Japanese rule. Similarly, the Tŏksŏng Line , opened by Kukch'ŏl on 6 October 1960, was simply an implementation of an unrealised Sentetsu project of

7473-426: The P'yŏngyang Metro in 1973; though most of the trolleybusses were built in North Korea to Czechoslovak and Soviet designs, the metro - despite claims of being entirely of domestic production - used mostly equipment supplied from China . However, as at that time even Seoul had no subway system, its opening was proclaimed to be proof of the superiority of the socialist system. Expansion and electrification of

7632-487: The P'yŏngyang Railway University was opened in September 1959. Thus, by the end of the 1950s, North Korea's rail network had been restored to what it had been during the period of Japanese rule, with 3,167 km (1,968 mi) of standard gauge and 599 km (372 mi) of narrow-gauge lines once again operational. The 1960s were a breakthrough decade for North Korea. With the reconstruction of damage caused by

7791-699: The Pyongyang Rolling Stock Repair Works . Of these, the Kim Chong-t'ae Works and the 4 June Works are by far the most important. There are four research institutes subordinate to the Railway Ministry for scientific research, design review, and the exploration of new technologies for the design and production of rolling stock (the P'yŏngyang Railway University , also subordinate to the Ministry, also takes part in design work and design review), and product inspection; inspection of

7950-579: The Southern Railway serving Coulsdon North and Sutton railway station . The lines were electrified at 6.7   kV 25   Hz. It was announced in 1926 that all lines were to be converted to DC third rail and the last overhead-powered electric service ran in September 1929. AC power is used at 60   Hz in North America (excluding the aforementioned 25   Hz network), western Japan, South Korea and Taiwan; and at 50   Hz in

8109-461: The United States , the New York, New Haven and Hartford Railroad was one of the first major railways to be electrified. Railway electrification continued to expand throughout the 20th century, with technological improvements and the development of high-speed trains and commuters . Today, many countries have extensive electrified railway networks with 375 000  km of standard lines in

SECTION 50

#1732780171110

8268-563: The West Sea Barrage on 24 June 1986, and numerous other such lines. Some major projects were initiated, such as the Pukpu Line which was to have been a new east–west transversal trunk line in the very north of the country, but were only partially completed: though work started in 1981, the first stage, from Manp'o to Hyesan was completed only in 1988, but further construction was suspended for over twenty years. Regardless,

8427-667: The (former) Kyŏngwŏn and Kyŏngŭi Lines . However, as early as 26 August, the Soviet army began operating trains on the Kyŏngŭi Line north of Sariwŏn ; in the south the US Army Transportation Corps took control of the railways and restarted service on the Kyŏngŭi Line from Tosŏng (north of Kaesŏng ) to the south. In May 1946 crossing the 38th parallel without a permit became illegal, and on 9 August 1946 identification cards became necessary for rail travel in

8586-507: The 1940s to extend a line that had been completed as early as 1929, or the Kŭmgol Line , whose completion was announced in 1962, when Kŭmgol was reached; this was, however, only a 3.7 km (2.3 mi) extension to complete a project begun by a private railway in the colonial era, with most of the line (almost 60 km (37 mi)) being opened in 1943. Some of the newly built lines were 762 mm (30.0 in) narrow gauge, such as

8745-519: The 3.7 km (2.3 mi) Imjingang–Torasan section on 12 February 2002. Groundbreaking ceremonies took place in September 2002 for the reconstruction of the Kaesŏng–Torasan section across the DMZ and the reconnection of the former Tonghae Pukpu Line on the east coast, which is presently split between the North's Kŭmgangsan Ch'ŏngnyŏn Line from Anbyŏn on the Kangwŏn Line via Kŭmgangsan to

8904-459: The 38 km (24 mi) distance each way. Despite the failure of the high-speed train project, development of electric locomotives continued. A particular problem was the lack of sufficient tractive power on heavy freight trains on mountainous lines, and to address this, an 8-axle articulated locomotive was designed. Based on the Red Flag 2 class, the first prototype of the Red Flag 6-class

9063-405: The 53.7 km (33.4 mi) Ŭnnyul Line opened in 1963 (this was converted to standard gauge in 1971 ), and the Sŏhaeri Line , opened in 1964 to serve iron ore mines and a small port. In the 1970s, North Korea aimed to further develop the railways through the promotion of science and technology. In the "Six-Year Plan for People's Economic Development" that started in 1971, Kim Il Sung, under

9222-441: The DMZ, and the southern section of the former Tonghae Pupkpu line from the DMZ to Chejin . The reconstruction work on these two lines was begun on 14 June 2003. The idea of reopening of inter-Korean railway  [ fr ] connections attracted attention from the world, especially from China and Russia, as it would enable the realisation of the long-desired Eurasian Land Bridge and Trans-Asian Railway projects. But in

9381-470: The DPRK on cross-border train service, and a Beijing-Pyongyang through-train service began on 3 June of that year, using China Railways rolling stock. The connection with the USSR across the Tumen River was first established during the Korean War in the form of a wooden railway bridge opened in 1952; by the mid-1950s this bridge had become insufficient for the traffic on the line, and the Korean-Russian Friendship Bridge between Tumangang and Khasan , USSR

9540-410: The Democratic People's Republic of Korea), commonly called the State Rail ( Korean :  국철 ; MR :  Kukch'ŏl ), is the operating arm of the Ministry of Railways of North Korea and has its headquarters at P'yŏngyang . The current Minister of Railways is Chang Jun-song. The first railways in the future territory of North Korea were built during the period of Japanese rule by

9699-427: The Far Eastern Federal University in Khabarovsk, and to allow other North Korean railway experts to receive further education at Russian universities. The Koreas agreed to reconnect and modernize their road and railroad networks at the April 2018 inter-Korean summit . Inter-Korean teams inspected North Korean railroads from November 30 to December 17; the railroads were found to be in poor condition. The Gyeongui Line

SECTION 60

#1732780171110

9858-475: The Juche-class EMU was built for two-system operation - possibly with a view to future operation in South Korea, where AC electrification was used. Trials were carried out around P'yŏngyang, but no further sets were built, suggesting that the experiment was deemed a failure. The set remained in storage until 1998, when it was refurbished, repainted, and put into use on a daily commuter service for scientists between P'yŏngyang and Paesanjŏm , taking one hour to cover

10017-423: The Korean War nearly complete, great advances were being made under the Ch'ŏllima Movement , the North Korean equivalent of China's Great Leap Forward ; the efforts were both focussed on and aided by the railways. Development was also aided by the fact that, during the colonial era, most Japanese construction of heavy industry including machine manufacturing, as well as the bulk of railway development, took place in

10176-411: The Netherlands, New Zealand ( Wellington ), Singapore (on the North East MRT line ), the United States ( Chicago area on the Metra Electric district and the South Shore Line interurban line and Link light rail in Seattle , Washington). In Slovakia, there are two narrow-gauge lines in the High Tatras (one a cog railway ). In the Netherlands it is used on the main system, alongside 25   kV on

10335-503: The P'yŏngyang Electric Locomotive Works) on 30 August 1961, and Kim Il Sung visited the plant for the occasion and chose the locomotive's name personally. Serial production started in 1962, with twenty built that year, followed by another thirty in 1963; eventually, over 150 were built. Meanwhile, in order to modernise on non-electrified lines, Kukch'ŏl started ordering diesel locomotives to begin replacing steam power on these lines. The first step towards dieselisation came in 1964, with

10494-420: The Red Cross reported that 1,850 houses and buildings had been destroyed and another 6,350 had been damaged. The basic restoration of the station was completed within a week, and DPRK–China international train service was reinstated on 28 April. Although the reconstruction work on the inter-Korean rail lines was nearly complete by March 2006, it wasn't until 17 May 2007, nearly seven years after negotiations on

10653-451: The Sŏhae Kammun and Pukpu Line projects were the largest railway construction projects that the DPRK undertook entirely on its own. As well as building new lines, several existing narrow gauge lines were converted to standard gauge, and by 1983, 927 km (576 mi) had been regauged. The electrification of the P'yŏngra Line was finally completed in the 1970s; the project had been started at Yangdŏk in 1948 and completed in stages over

10812-427: The UK, the London, Brighton and South Coast Railway pioneered overhead electrification of its suburban lines in London, London Bridge to Victoria being opened to traffic on 1   December 1909. Victoria to Crystal Palace via Balham and West Norwood opened in May 1911. Peckham Rye to West Norwood opened in June 1912. Further extensions were not made owing to the First World War. Two lines opened in 1925 under

10971-494: The ability to pull freight at higher speed over gradients; in mixed traffic conditions this increases capacity when the time between trains can be decreased. The higher power of electric locomotives and an electrification can also be a cheaper alternative to a new and less steep railway if train weights are to be increased on a system. On the other hand, electrification may not be suitable for lines with low frequency of traffic, because lower running cost of trains may be outweighed by

11130-516: The advantages of raising the voltage is that, to transmit certain level of power, lower current is necessary ( P = V × I ). Lowering the current reduces the ohmic losses and allows for less bulky, lighter overhead line equipment and more spacing between traction substations, while maintaining power capacity of the system. On the other hand, the higher voltage requires larger isolation gaps, requiring some elements of infrastructure to be larger. The standard-frequency AC system may introduce imbalance to

11289-420: The amount of traffic transported by rail over an eleven-day period equalled that hauled in the entire year of 1946. Traffic control is by track warrant . In recent years, emphasis has been placed on moving away from railway to road transport for movements of 150 km (93 mi)–200 km (120 mi) or less, due to the greater cost effectiveness of road transport over short distances. Railways carry

11448-587: The arrival of fourteen DVM-4 -type locomotives from Ganz-MÁVAG of Hungary , which were used both for shunting and to pull local trains on branchlines. After this positive initial experience with diesel power, an order was placed for larger, more powerful locomotives suitable for use on heavy mainline trains. Made in the USSR to meet a Hungarian requirement, the first two prototypes of the M62-type locomotives appeared on Soviet Railways in 1964 before series production and deliveries to Hungary began in 1965; by

11607-545: The construction of various large-scale industrial and power-generation projects, and some, like the first section of Ch'ŏngnyŏn Ich'ŏn Line from P'yŏngsan to Chihari opened in 1962 as a fully electrified line, were the initial phases of planned new trunk lines. However, many others, though publicised as being entirely at the instigation of the Great Leader , were simply completions of projects initiated by Japanese interests before 1945. The much celebrated completion of

11766-585: The conversion of the existing narrow gauge Samjiyŏn Line to standard gauge, construction of new trackage from Motka, terminus of the Samjiyŏn Line, to Hŭngam on the Paengmu Line , and regauging of the Paengmu Line from Hŭngam to Musan . Although survey work for the new section was begun, the DPRK's financial crisis of the 1990s led to the project being suspended until 2007. The electrification of

11925-608: The development of a high-speed train for North Korea, resulting in the unveiling of North Korea's first electric trainset, the Juche-class EMU , in 1976. Externally, the four-car set was similar in appearance to the 181 series trainsets used by the Japanese National Railways on the Kodama limited express of the day; internally, despite all of North Korea's electrification being 3000V direct current ,

12084-413: The development of the railways were achieved. A great deal of attention was paid to developing urban transit in this period. After the success of the P'yŏngyang trolleybus system opened in 1962, trolleybus services were inaugurated in Ch'ŏngjin (1970), Hamhŭng (1973), Sinŭiju (1978), and Kowŏn (1979), Nampo (1982), P'yŏngsŏng (1983), Haeju (1986), Anju (1987), and others, along with the opening of

12243-410: The distance they could transmit power. However, in the early 20th century, alternating current (AC) power systems were developed, which allowed for more efficient power transmission over longer distances. In the 1920s and 1930s, many countries worldwide began to electrify their railways. In Europe, Switzerland , Sweden , France , and Italy were among the early adopters of railway electrification. In

12402-785: The electrification of the trunk lines, construction of new routes was also started in this period. Many of these lines, such as the Unbong Line opened in 1959 to assist with construction of the Unbong Dam , the Pinallon Line opened in 1961 to serve the February 8 Vinylon Complex and the P'yŏngyanghwajŏn Line opened in the same year to serve the Pyongyang Thermal Power Plant  [ ko ] were entirely new projects, initially built to aid with

12561-448: The electrification. Electric vehicles, especially locomotives, lose power when traversing gaps in the supply, such as phase change gaps in overhead systems, and gaps over points in third rail systems. These become a nuisance if the locomotive stops with its collector on a dead gap, in which case there is no power to restart. This is less of a problem in trains consisting of two or more multiple units coupled together, since in that case if

12720-404: The end of funding. Most electrification systems use overhead wires, but third rail is an option up to 1,500   V. Third rail systems almost exclusively use DC distribution. The use of AC is usually not feasible due to the dimensions of a third rail being physically very large compared with the skin depth that AC penetrates to 0.3 millimetres or 0.012 inches in a steel rail. This effect makes

12879-525: The end of the 1960s, nearly 900 km (560 mi) of lines had been electrified, and by 1973, when the electrification of the P'yŏngra Line was completed, over 1,300 km (810 mi) of lines had been electrified, realising the goal of electrifying all major trunk lines. Electrification of the lines was accompanied by the manufacture of electric locomotives. Domestic production of small electric locomotives for use in mines had begun in 1958, but production of mainline electric locomotives didn't start until

13038-540: The end of the year the war had become a stalemate; little exchange of territory happened over the next two years of fighting until the Korean Armistice Agreement was signed on 27 July 1953. North Korea was left devastated after the war, with damage being even more extensive than in the south. Factories, houses, bridges, roads, and railways were destroyed in heavy US Air Force bombing raids; Pyongyang's tram system had been completely destroyed, to

13197-473: The end of their service lives years before, Kukch'ŏl was nevertheless forced to rely once again on Japanese-built steam locomotives built before the Liberation of Korea. However, political reasons made it impossible to admit that the country, which only twenty years earlier had been self-sufficient in the production of rolling stock, was unable to supply much-needed new locomotives. Thus, the most decrepit of

13356-661: The entire network. After the electrification of part of the narrow gauge Paengmu Line was completed in August 1991, the Sinhŭng Line was electrified in 1992, as was a section of the Ongjin Line ; in the same year, a "Railway Modernisation Plan" to further promote development of railway infrastructure was announced. Plans to continue the construction of the Pukpu Line were kept alive; the next stage of this project envisioned

13515-591: The experiment was curtailed. In 1970 the Ural Electromechanical Institute of Railway Engineers carried out calculations for railway electrification at 12 kV DC , showing that the equivalent loss levels for a 25 kV AC system could be achieved with DC voltage between 11 and 16   kV. In the 1980s and 1990s 12 kV DC was being tested on the October Railway near Leningrad (now Petersburg ). The experiments ended in 1995 due to

13674-516: The extent that salvaging it was deemed uneconomical and was abandoned. Reconstruction, however, started already before the end of the war and, with the aid of the Chinese People's Volunteer Corps, by the time the ceasefire was signed 1,382 km (859 mi) of railway lines had been restored. The north's transportation network was so severely damaged that in many places, the horse was the only viable means of transport; consequently, much of

13833-500: The fact that electrification often goes hand in hand with a general infrastructure and rolling stock overhaul / replacement, which leads to better service quality (in a way that theoretically could also be achieved by doing similar upgrades yet without electrification). Whatever the causes of the sparks effect, it is well established for numerous routes that have electrified over decades. This also applies when bus routes with diesel buses are replaced by trolleybuses. The overhead wires make

13992-424: The first half of the decade, the situation had become so dire that in 1998 Kim Yong-sam, who had replaced Pak Yŏng-sŏk as Minister of Railways in September of that year, announced that due to the critical state of electricity generation in the country, electricity could not be guaranteed for the operation of trains, and consequently the use of steam locomotives would be reinstated on some lines. Despite having reached

14151-494: The first train carrying construction materials from Munsan in the South to the Kaesŏng Industrial Region , and footwear and clothing on the return trip to the South. This service, operated by Korail, has been interrupted several times as a result of political events between North and South that have caused the closure of the industrial district. The industrial district was most recently reopened on 16 September 2013 after

14310-499: The framework of a cooperation agreement made between Russia and North Korea in 2000, and is viewed as the first step in the reconstruction of a Trans-Korean mainline, which would allow the shipment of goods by rail all the way from South Korea to Europe. The project included restoring 18 bridges, 12 culverts and three tunnels with a combined length of more than 4.5 km, as well as laying 54 km of four-rail dual gauge (1,435 mm and 1,520 mm) track. A transfer terminal at

14469-1012: The general power grid. This is especially useful in mountainous areas where heavily loaded trains must descend long grades. Central station electricity can often be generated with higher efficiency than a mobile engine/generator. While the efficiency of power plant generation and diesel locomotive generation are roughly the same in the nominal regime, diesel motors decrease in efficiency in non-nominal regimes at low power while if an electric power plant needs to generate less power it will shut down its least efficient generators, thereby increasing efficiency. The electric train can save energy (as compared to diesel) by regenerative braking and by not needing to consume energy by idling as diesel locomotives do when stopped or coasting. However, electric rolling stock may run cooling blowers when stopped or coasting, thus consuming energy. Large fossil fuel power stations operate at high efficiency, and can be used for district heating or to produce district cooling , leading to

14628-411: The high cost of the electrification infrastructure. Therefore, most long-distance lines in developing or sparsely populated countries are not electrified due to relatively low frequency of trains. Network effects are a large factor with electrification. When converting lines to electric, the connections with other lines must be considered. Some electrifications have subsequently been removed because of

14787-449: The initial reconstruction efforts were focussed on rebuilding the railways - especially the lines connecting the DPRK to China and Russia, in order to ease the shipment of goods from those two countries. However, some new construction did take place, mostly to complete projects interrupted either by the end of Japanese rule or by the Korean War, such as the Tŏkp'al Line , which had been started by

14946-452: The line for 30 years, after which the Railway Ministry will take over operations and complete ownership of the line. The rail line is to be a double-track line of about 400 km (250 mi) with an operating speed of over 200 km/h (120 mph). On 21 October 2014 a groundbreaking ceremony for the Sŭngri ("Victory") project to modernise the P'yŏngnam Line from Namp'o to P'yŏngyang and

15105-595: The line was destroyed during the Korean War, and no further electric railcars were used after that for many years. However, the opening of the P'yŏngyang Metro, along with worldwide attention on high-speed electric trainsets such as the Japanese Bullet Train put into service in 1964 and the ER200 class introduced by the Soviet Railways in 1974, led the Railway Ministry to direct efforts towards

15264-497: The losses (saving 2   GWh per year per 100   route-km; equalling about €150,000 p.a.). The line chosen is one of the lines, totalling 6000   km, that are in need of renewal. In the 1960s the Soviets experimented with boosting the overhead voltage from 3 to 6   kV. DC rolling stock was equipped with ignitron -based converters to lower the supply voltage to 3   kV. The converters turned out to be unreliable and

15423-422: The maximum power that can be transmitted, also can be responsible for electrochemical corrosion due to stray DC currents. Electric trains need not carry the weight of prime movers , transmission and fuel. This is partly offset by the weight of electrical equipment. Regenerative braking returns power to the electrification system so that it may be used elsewhere, by other trains on the same system or returned to

15582-438: The most important international passenger service in the DPRK, operate via Sinŭiju four times weekly (Monday, Wednesday, Thursday and Saturday). Customs and immigration checks take place at Sinŭiju. The trip takes 22 hours 51 minutes from P'yŏngyang to Beijing, and 23 hours 18 minutes from Beijing to P'yŏngyang. Stops made in the DPRK are at P'yŏngyang, Ch'ŏngju Ch'ŏngnyŏn , Ch'ŏnggang and Sinŭiju Ch'ŏngnyŏn stations. The train

15741-513: The most important lines, such as the P'yŏngŭi Line to China. Although work was said to have begun that year, none of the planned double tracking projects has been completed yet. Despite all the lofty plans, between 1990 and 1996 only 67 km (42 mi) of new line was completed; the situation was little better in the second half of the Nineties, with 102 km (63 mi) of new line finished. On 8 July 1994, Kim Il Sung died, leading to

15900-672: The narrow gauge at 1.5 kV DC. Manual and semi-automatic substations are used, located 15 km (9.3 mi), 30 km (19 mi) or 60 km (37 mi) apart (50 km (31 mi)–60 km (37 mi) apart on the Kangwŏn Line ). North Korea's national transportation policy focusses on the railway as the primary means of transport for both passengers and freight. Passenger services include both long-distance trains, as well as commuter services for students and workers; freight transport focusses on industrial raw materials and military traffic, as well as import-export traffic. By putting heavy emphasis on rail transport of goods, by 1983

16059-604: The national railway system continued as well. New trunk lines were opened, such as the completion of the Ch'ŏngnyŏn Ich'ŏn Line on 10 October 1972, the completion of the Ch'ŏngnyŏn P'arwŏn Line , and the opening of shorter lines intended to serve new mines, power plants and factories, such as the Musan Kwangsan Line (1971), the Ch'ŏnghwaryŏk Line and the Namhŭng Line in 1976, the Sŏhae Kammun Line over

16218-402: The need for overhead wires between those stations. Maintenance costs of the lines may be increased by electrification, but many systems claim lower costs due to reduced wear-and-tear on the track from lighter rolling stock. There are some additional maintenance costs associated with the electrical equipment around the track, such as power sub-stations and the catenary wire itself, but, if there

16377-404: The new northern east–west trunk line originally planned in 1980, which was to have run from Hyesan to Musan , was finally partially completed in 2017, when the regauging of the narrow gauge Samjiyŏn Line from Hyesan to Samjiyŏn and Motka was finally finished. The plans to continue extension of that line to Musan and eventually to Hoeryŏng have not been abandoned, but it does not appear that it

16536-411: The north of the country; the DPRK was also blessed with an abundance of natural resources and a number of large hydroelectric power plants that had also been built by the Japanese. Much of the work done on the railways in this period was focussed on the electrification of trunk lines. Due to the increased importance placed on the railways, by 1965 Kukch'ŏl was transferred from the Ministry of Transport to

16695-541: The northern part of Korea. On 10 August 1946 the Provisional People’s Committee for North Korea nationalised all railways in the Soviet occupation zone; everything related to railway operations came under the aegis of the People's Committee for Transportation. The railways were nearly paralysed by a lack of experienced staff as a result of the expulsion of ethnic Japanese - most railway workers, especially

16854-505: The phase separation between the electrified sections powered from different phases, whereas high voltage would make the transmission more efficient. UIC conducted a case study for the conversion of the Bordeaux-Hendaye railway line (France), currently electrified at 1.5   kV DC, to 9   kV DC and found that the conversion would allow to use less bulky overhead wires (saving €20 million per 100   route-km) and lower

17013-429: The port is nearing completion, along with dredging and construction of a quay, storage areas, industrial and office buildings. A single control centre will manage future operations on the line, which will be capable of handling up to 4 million tonnes of cargo per year from the port. Operation and management of the upgraded line, which cost over 5.5 billion rubles (excluding the cost of the port upgrades), will be handled by

17172-481: The privately owned West Chosen Central Railway in the early 1940s, to run from Tŏkch'ŏn to P'arwŏn , but of which only 12.3 km (7.6 mi) to Changsangri had been completed by war's end; the project was revived after the Korean War and finished to P'arwŏn in 1954. Within three months of the armistice, 308 bridges with a total length of 15,000 m (49,000 ft) were either repaired or newly built by railway corps volunteers, and 37 stations were rebuilt as

17331-508: The problem by insulating the running rails from the current return should there be a leakage through the running rails. The Expo and Millennium Line of the Vancouver SkyTrain use side-contact fourth-rail systems for their 650 V DC supply. Both are located to the side of the train, as the space between the running rails is occupied by an aluminum plate, as part of stator of the linear induction propulsion system used on

17490-429: The products of the factories is also undertaken by the national quality inspection board. The Railway Ministry also operates a network of sports clubs throughout the country, in sports such as football , basketball , volleyball , tennis , and ice hockey . The Kigwancha Sports Club belongs to the Railway Ministry, which fields teams in the country's top-level basketball, volleyball, and football leagues; in football,

17649-572: The railway factories at West P'yŏngyang (today's Kim Chong-t'ae Electric Locomotive Works ; it received its present name in 1969 to honour South Korean revolutionary activist Kim Chong-t'ae , a member of the Revolutionary Party for Reunification , who was executed by the South Korean government that year. ) and at Wŏnsan (the 4 June Rolling Stock Works ) were rebuilt and expanded with Polish assistance. The locomotive factory

17808-474: The railway infrastructure and many of the locomotives were destroyed. On 31 December 1950, a train, consisting of the locomotive Matei 10 and 25 cars, going from Hanp'o to Munsan was ordered to stop at Changdan by the US Army , and was destroyed; the track was also destroyed, after which the Kyŏngŭi Line remained severed for over 50 years. UN forces were quickly pushed back south of the 38th parallel, and by

17967-471: The railway network was gradually restored to its pre-war status. Although the USSR did not militarily intervene in the Korean War due to fear of criticism from the United Nations (UN), it played a major and active role in post-war reconstruction. Within the context of an economic and technical assistance agreement worth 1 billion rubles signed between the two countries a railway co-operation agreement

18126-520: The railways were rebuilt and further expanded. A replacement railway bridge was opened over the Taedong River in P'yŏngyang on 17 June 1954, and three months later, on 25 September 1954 the Kangwŏn Line was reopened between Kosan and P'yŏnggang . The Yalu River Bridge between Sinŭiju and Dandong , China, which had been severely damaged during the war, was rebuilt before war's end. On 5 February 1954, an agreement signed between China and

18285-505: The raising of prices - a bus ticket that had cost 20 chŏn suddenly increased twentyfold to 1 wŏn ; this applied to the railways, too: a ticket from P'yŏngyang to Ch'ŏngjin, which had cost 16 wŏn, went up 37 times, to 590 wŏn. Around the same time, some new locomotives were bought from China, and many second-hand locomotives and freight and passenger cars were bought, mostly from China, but also from Russia, Slovakia , Poland, Germany, and even Switzerland, were brought in to help ameliorate

18444-465: The resistance per unit length unacceptably high compared with the use of DC. Third rail is more compact than overhead wires and can be used in smaller-diameter tunnels, an important factor for subway systems. The London Underground in England is one of few networks that uses a four-rail system. The additional rail carries the electrical return that, on third-rail and overhead networks, is provided by

18603-570: The revenue obtained for freight and passenger traffic. Different systems are used for urban and intercity areas; some electric locomotives can switch to different supply voltages to allow flexibility in operation. Six of the most commonly used voltages have been selected for European and international standardisation. Some of these are independent of the contact system used, so that, for example, 750   V   DC may be used with either third rail or overhead lines. There are many other voltage systems used for railway electrification systems around

18762-498: The running rails. On the London Underground, a top-contact third rail is beside the track, energized at +420 V DC , and a top-contact fourth rail is located centrally between the running rails at −210 V DC , which combine to provide a traction voltage of 630 V DC . The same system was used for Milan 's earliest underground line, Milan Metro 's line 1 , whose more recent lines use an overhead catenary or

18921-467: The same task: converting and transporting high-voltage AC from the power grid to low-voltage DC in the locomotive. The difference between AC and DC electrification systems lies in where the AC is converted to DC: at the substation or on the train. Energy efficiency and infrastructure costs determine which of these is used on a network, although this is often fixed due to pre-existing electrification systems. Both

19080-475: The same time, war aid in the form of locomotives and freight cars arrived from friendly socialist countries such as the USSR, China , Poland , Hungary , and Czechoslovakia . American-led United Nations forces quickly turned the tide of the war, however; by 19 October of the same year had captured P'yŏngyang, and a week later, South Korean troops reached the Yalu River . Throughout the Korean War, much of

19239-542: The shadow of such lofty visions, North Korea's railways remained in critical condition; to counter this, the government announced the "7.1 Economic Management Improvement Measures" on 1 July 2002, under which a number of reforms like those China had implemented in the 1980s were introduced, such as giving companies more independence, the establishment of joint ventures with foreign investors (mostly Chinese, but also some South Korean), bringing foreign exchange rates closer to reality, increasing wages, etc. However, it also included

19398-405: The situation on North Korea's railways. Money was also invested in the reconstruction of railway stations - a completely new station was built at Kaesŏng with South Korean money, whilst P'yŏngyang's central railway station underwent a major renovation in 2005, which included the restoration of walls, the installation of new waiting room doors, and the installation of a large neon sign. 2004 saw

19557-427: The situation. Naturally, this seriously affected the railways as well, leading to severe deterioration of rolling stock and infrastructure, which significantly reduced operational capacity and efficiency, and made timetable operations practically impossible. Through the 1990s, investment in rolling stock came to a standstill as well. Although a small number of newly built diesel locomotives were imported from Russia in

19716-454: The skilled labourers, the locomotive crews, mechanics, engineers, and administrators, were Japanese; to make the situation worse, the Soviet Army plundered a great deal of industrial equipment from northern Korea - factory machines, components for hydroelectric dams, and a large number of locomotives and rolling stock. Passengers resorted to riding on the infrequent freight trains, and even on locomotives. The Korean State Railway ( Kukch'ŏl )

19875-521: The slogan "자력 갱생" ( Charyŏk Kaengsaeng , "Self-Reliance"), declared that everything - economy, scientific advance, and development of industrial technology - should be made entirely domestically. Though a considerable amount was achieved through domestic effort, a fair amount of the advances that were made came from foreign sources and were simply relabelled as North Korean. The 1970s and 1980s can be considered as having been North Korea's "golden age", and though it did not last long, considerable successes in

20034-524: The start of the 1980s, the total length of electrified standard gauge rail lines in North Korea reaching 3,940 km (2,450 mi); additionally, trackage within many industrial complexes was also electrified. As electrification had become a national-level policy, Kukch'ŏl set out to develop new electric motive power. Electric railcars had been used before the war by the Kŭmgangsan Electric Railway , and these were used by Kukch'ŏl until

20193-569: The steep approaches to the tunnel. The system was also used for suburban electrification in East London and Manchester , now converted to 25   kV   AC. It is now only used for the Tyne and Wear Metro . In India, 1,500   V DC was the first electrification system launched in 1925 in Mumbai area. Between 2012 and 2016, the electrification was converted to 25   kV 50   Hz, which

20352-491: The subject began between North and South, that they were finally reopened. An agreement on cross-border operations had been made between Kukch'ŏl and Korail already in April 2004, but three subsequent attempts to run trains failed, until finally the military authorities on both sides adopted a security agreement on 11 May 2007, allowing the reopening of the lines on 17 May. The reopening consisted of two ceremonial trains, one over

20511-443: The supply grid, requiring careful planning and design (as at each substation power is drawn from two out of three phases). The low-frequency AC system may be powered by separate generation and distribution network or a network of converter substations, adding the expense, also low-frequency transformers, used both at the substations and on the rolling stock, are particularly bulky and heavy. The DC system, apart from being limited as to

20670-694: The three-phase induction motor fed by a variable frequency drive , a special inverter that varies both frequency and voltage to control motor speed. These drives can run equally well on DC or AC of any frequency, and many modern electric locomotives are designed to handle different supply voltages and frequencies to simplify cross-border operation. Five European countries – Germany, Austria, Switzerland, Norway and Sweden – have standardized on 15   kV 16 + 2 ⁄ 3   Hz (the 50   Hz mains frequency divided by three) single-phase AC. On 16 October 1995, Germany, Austria and Switzerland changed from 16 + 2 ⁄ 3   Hz to 16.7   Hz which

20829-575: The through traffic to non-electrified lines. If through traffic is to have any benefit, time-consuming engine switches must occur to make such connections or expensive dual mode engines must be used. This is mostly an issue for long-distance trips, but many lines come to be dominated by through traffic from long-haul freight trains (usually running coal, ore, or containers to or from ports). In theory, these trains could enjoy dramatic savings through electrification, but it can be too costly to extend electrification to isolated areas, and unless an entire network

20988-662: The time Kukch'ŏl received their first deliveries of the type - designated K62-class by the factory - in 1967, the M62 had become the backbone of diesel power all over the Comecon world: in addition to Hungary, in 1965 and 1966 the type was put in service in large numbers in Poland, Czechoslovakia, and East Germany . A total of 64 were delivered to North Korea between 1967 and 1974, quickly becoming mainstays on non-electrified lines due to their high performance and ease of use. Along with

21147-616: The top men's club, based in Sinŭiju , won five national championships between 1996 and 2000 in the DPR Korea League , and took part in the 2017 AFC Cup . The Railway Ministry's top ice hockey club, P'yŏngyang Ch'ŏldo , or "P'yŏngch'ŏl" for short, is one of the most successful clubs in the country, having won the national championship at least eleven times since 1997. The Korean State Railway operates over 5,248 km (3,261 mi) of railway, of which 4,725 km (2,936 mi)

21306-466: The train stops with one collector in a dead gap, another multiple unit can push or pull the disconnected unit until it can again draw power. The same applies to the kind of push-pull trains which have a locomotive at each end. Power gaps can be overcome in single-collector trains by on-board batteries or motor-flywheel-generator systems. In 2014, progress is being made in the use of large capacitors to power electric vehicles between stations, and so avoid

21465-713: The train's kinetic energy back into electricity and returns it to the supply system to be used by other trains or the general utility grid. While diesel locomotives burn petroleum products, electricity can be generated from diverse sources, including renewable energy . Historically, concerns of resource independence have played a role in the decision to electrify railway lines. The landlocked Swiss confederation which almost completely lacks oil or coal deposits but has plentiful hydropower electrified its network in part in reaction to supply issues during both World Wars. Disadvantages of electric traction include: high capital costs that may be uneconomic on lightly trafficked routes,

21624-413: The transmission and conversion of electric energy involve losses: ohmic losses in wires and power electronics, magnetic field losses in transformers and smoothing reactors (inductors). Power conversion for a DC system takes place mainly in a railway substation where large, heavy, and more efficient hardware can be used as compared to an AC system where conversion takes place aboard the locomotive where space

21783-470: The tyres do not conduct the return current, the two guide bars provided outside the running ' roll ways ' become, in a sense, a third and fourth rail which each provide 750 V DC , so at least electrically it is a four-rail system. Each wheel set of a powered bogie carries one traction motor . A side sliding (side running) contact shoe picks up the current from the vertical face of each guide bar. The return of each traction motor, as well as each wagon ,

21942-432: The voltage, the lower the current for the same power (because power is current multiplied by voltage), and power loss is proportional to the current squared. The lower current reduces line loss, thus allowing higher power to be delivered. As alternating current is used with high voltages. Inside the locomotive, a transformer steps the voltage down for use by the traction motors and auxiliary loads. An early advantage of AC

22101-405: The weight of an on-board transformer. Increasing availability of high-voltage semiconductors may allow the use of higher and more efficient DC voltages that heretofore have only been practical with AC. The use of medium-voltage DC electrification (MVDC) would solve some of the issues associated with standard-frequency AC electrification systems, especially possible supply grid load imbalance and

22260-460: The western line from Munsan to Kaesŏng (27 km (17 mi)), and another over the eastern line from Kŭmgangsan to Jejin. The western train was operated from south to north by a Korail locomotive and five coaches, while the eastern train was pulled by a Korean State Railway locomotive and five coaches; each train carried 150 invited guests from the South and the North. Commercial freight operations were finally restarted on 11 December 2007, with

22419-532: The world, and the list of railway electrification systems covers both standard voltage and non-standard voltage systems. The permissible range of voltages allowed for the standardised voltages is as stated in standards BS   EN   50163 and IEC   60850. These take into account the number of trains drawing current and their distance from the substation. 1,500   V DC is used in Japan, Indonesia, Hong Kong (parts), Ireland, Australia (parts), France (also using 25 kV 50 Hz AC ) ,

22578-534: The world, including China , India , Japan , France , Germany , and the United Kingdom . Electrification is seen as a more sustainable and environmentally friendly alternative to diesel or steam power and is an important part of many countries' transportation infrastructure. Electrification systems are classified by three main parameters: Selection of an electrification system is based on economics of energy supply, maintenance, and capital cost compared to

22737-516: The worst known railway disaster in North Korea when an explosion at the station in Ryongch'ŏn destroyed buildings in a large swathe around the city's station , killing 54 and injuring 1,245 people in the blast itself and the subsequent fires, according to official casualty reports. A wide area was reported to have been affected, with some airborne debris reportedly falling across the border in China;

22896-524: The years following the Korean War, until the final section between Rajin and Ch'ŏngjin was energised in 1973. With the electrification of the P'yŏngŭi Line in 1964 and the completion of the P'yŏngra Line project, both of the main trunk lines connecting P'yŏngyang with China and the USSR respectively, became fully electrified. By the end of the 1970s, the goal of eliminating steam power from the primary trunk lines had been achieved, with nearly 87.5% of all railway movements being hauled by electric locomotives by

23055-646: Was completed in 1956, and Kim Il Sung visited the reconstruction works in June of that year. Conversion of the Hasŏng—Haeju—Haeju Port section to standard gauge took place in 1958. Work was carried out by youth "volunteer" teams, who finished the project on 12 August 1958 – 75 days after work began. In honour of the efforts of the youth volunteer teams, the Sariwŏn—Haeju line was given its current name, Hwanghae Ch'ŏngnyŏn Line – Hwanghae Youth Line. In 1956,

23214-865: Was created as a department of the Ministry of Transportation in 1948 after the founding of North Korea. Initially, Kukch'ŏl had 3,767 km (2,341 mi) of functional railway, including the restored electrified Yangdŏk – Sinch'ang – Ch'ŏnsŏng section of the P'yŏngwŏn Line , and the newly electrified Kaego – Koin section of the Manp'o Line . On 10 December 1947, the assets of the Chosen Government Railway were formally divided between North and South, leaving Kukch'ŏl with 617 steam locomotives (141 tank , 476 tender ), 8 electric locomotives, and 1,280 passenger cars and 9,154 freight cars (747 and 6,928 respectively according to other sources ). Other new construction took place prior to 1950, but

23373-437: Was exacerbated because the return current also had a tendency to flow through nearby iron pipes forming the water and gas mains. Some of these, particularly Victorian mains that predated London's underground railways, were not constructed to carry currents and had no adequate electrical bonding between pipe segments. The four-rail system solves the problem. Although the supply has an artificially created earth point, this connection

23532-553: Was first applied successfully by Frank Sprague in Richmond, Virginia in 1887-1888, and led to the electrification of hundreds of additional street railway systems by the early 1890s. The first electrification of a mainline railway was the Baltimore and Ohio Railroad's Baltimore Belt Line in the United States in 1895–96. The early electrification of railways used direct current (DC) power systems, which were limited in terms of

23691-596: Was inspected from November 30 to December 5, and the Kumgangsan Chongnyon Line from December 8 to 17. The inspections could only proceed after the UN granted exemptions to sanctions at the end of November; American approval followed on December 21. A groundbreaking ceremony for the railroad and road project was held in Kaesŏng on December 26 with each country sending 100 attendees. The Korean State Railway

23850-597: Was opened on 9 August 1959. North Korea had inherited a fairly extensive network of 762 mm (30.0 in) narrow-gauge rail lines from both Sentetsu and formerly privately owned railways. One of these was the Hwanghae Line running from Hasŏng to Haeju . After nationalising the Chosen Railway 's narrow-gauge lines in the Hwanghae region in April 1944, Sentetsu had decided that traffic levels between Sariwŏn and Hasŏng were sufficient to merit construction of

24009-413: Was privately owned. In September 1945 the rolling stock was 678 locomotives (124 steam tank , 446 tender , 99 narrow gauge steam, and 8 electric locomotives), one steam-powered railway crane , 29 powered railcars , 747 passenger cars, and 6,928 freight cars. The official division of Korea into Soviet and American zones of occupation along the 38th parallel in August 1945 disrupted train service on

24168-555: Was removed from the position and handed over to the State Security Department. He was then replaced by the current Railways Minister, Chon Kil-su, in October 2008. The investigation revealed that railway workers had stripped nearly 100 locomotives held in strategic reserve for wartime use, selling them to China as scrap metal; as the minister responsible, Kim was held accountable and was removed from his post, and

24327-524: Was reopened on 29 August 1959, while the 4 June Works, manufacturing freight cars as well as repairing steam locomotives and busses, became operational on 15 June 1957. The station building of P'yŏngyang Station , which had been made mostly of wood and had been destroyed during the Korean War, was also rebuilt, with the grandiose stone station building in use today, with a total area of 13,000 m (140,000 sq ft) being opened in 1957. To train new generations of railway engineers and railway workers,

24486-505: Was reported as new domestic production: the tram system opened in Ch'ŏngjin in 2002 was announced as using domestically built tram cars (they were in fact bought second-hand from the Czech Republic ), and the used passenger cars bought from BLS Lötschbergbahn of Switzerland in the same year were reported as having been built by factory workers in their free time. From 1998, measures to improve economic management and to build

24645-532: Was reportedly executed in March 2009. Also in 2008, work began on the reconstruction of the line between Tumangang Station on the DPRK- Russian border and the port of Rajin , where construction was planned for a new container terminal to handle freight traffic from Asia Pacific countries to Europe, which would cut down considerably on transit time when compared to shipping by sea. This project fits within

24804-509: Was signed between the two countries on 5 February 1954, and regular operation of Beijing –P'yŏngyang through trains began four months later, on 3 June, using China Railway rolling stock. In 1983 the Korean State Railway began operation of P'yŏngyang–Beijing trains as well, using its own rolling stock, and since then Kukch'ŏl and China Railway each operate two weekly round trips between the two capitals. These trains, by far

24963-505: Was signed, which included a promise to deliver VL19 class electric locomotives to North Korea. China provided 800 million RMB worth of assistance, along with considerable aid from socialist countries in Eastern Europe, especially Poland: between 1954 and 1956, Polish Railway engineers and mechanics assisted in North Korea with the repair of damaged steam locomotives and rolling stock. With extensive Soviet and Chinese assistance,

25122-586: Was stopped because of the defeat of Japan in the Pacific War . The planned extension, from Pukch'ŏng to Sangri, was completed by the Korean State Railway and opened on 6 October 1960, and given its current name. Two passenger trains are known to operate on this line: A yellow background in the "Distance" box indicates that section of the line is not electrified. Korean State Railway The Korean State Railway ( Korean :  조선민주주의인민공화국 철도성 ; MR :  Chosŏn Minjujuŭi Inmin Konghwaguk Ch'ŏldosŏng ; lit.  Ministry of Railways of

25281-401: Was unveiled in 1981, production began in 1986 and it was put into service in 1987. In technical terms, they were essentially just two permanently-coupled Red Flag 2-class locomotives, representing little innovation over the original design. Thus, though at a slow pace, development of North Korea's railways continued. Entering the 1990s, Kukch'ŏl continued with its plans for electrification of

#109890