Rail transportation (Ajax): Difference between revisions
m (removed greznea) |
|||
(24 intermediate revisions by 4 users not shown) | |||
Line 11: | Line 11: | ||
=Technology= | =Technology= | ||
The robust [[Ajax|global]] rail network has been facilitated by numerous technologies, many of them with their roots at the dawn of the industrial era, others more recent. | The robust [[Ajax|global]] rail network has been facilitated by numerous technologies, many of them with their roots at the dawn of the industrial era, others more recent. | ||
==Existing Rail Categories== | |||
{{see also|High-speed rail in East Belisaria}} | |||
* '''High Speed Rail (HSR):''' The advent of High Speed Rail in Ajax brought profound economic, social & political changes throughout the world. [[Tsurushima]] was among the first nations to develop their own indigenous HSR trains known as the Chōkyūsen network. HSR networks that were developed & commenced operations between 1960 and 1969 are considered as the "First Generation" HSR, their success prompted other nations across Ajax to initiate their own HSR projects. While there is no official standardization of HSR speeds, the general consensus is that trains capable of speeds above 200km/h are considered as a HSR network. Many countries throughout Ajax have active or are in the process of developing a HSR network including: [[Tsurushima]], [[Brumen]], [[Drevstran]], [[Ottonia]], and [[Uluujol]]. While a majority of HSR networks ferry passengers, there are some HSR networks that specializes in freight, mail & logistics. | |||
* '''Semi-High Speed Rail (HrSR):''' | |||
* '''Conventional Rail:''' | |||
==Motive Power== | ==Motive Power== | ||
While traditionally locomotives were reliant on steam generated through the burning of coal, and then internal combustion diesel engines, to move trains, the 20th century saw the increasing electrification of rail networks using a mix of third-rail and overhead-wire -supplied power. While initially (and, in some places, still) generated through the burning of {{wp|fossil fuels}}, that electric source of power meant that the mid- and late-20th century proliferation of renewable and nuclear power enabled the movement of vast numbers of people and cargo at relatively light expense while dramatically reducing the rail networks' environmental impact. | While traditionally locomotives were reliant on steam generated through the burning of coal, and then internal combustion diesel engines, to move trains, the 20th century saw the increasing electrification of rail networks using a mix of third-rail and overhead-wire -supplied power. While initially (and, in some places, still) generated through the burning of {{wp|fossil fuels}}, that electric source of power meant that the mid- and late-20th century proliferation of {{wp|renewable power|renewable}} and {{wp|nuclear power}} enabled the movement of vast numbers of people and cargo at relatively light expense while dramatically reducing the rail networks' environmental impact. | ||
In the present, electrified systems account for much of the world's networks. Steam and diesel-powered vehicles still exist, serving in some specialized roles or in operation on {{wp|heritage railways}}, but by and large they have been supplanted by electric trains drawing from either overhead wires or third rail systems (with the latter being especially common in mass transit systems). | In the present, electrified systems account for much of the world's networks. Steam and diesel-powered vehicles still exist, serving in some specialized roles, in locations where electrification is impossible or impractical, or in operation on {{wp|heritage railways}}, but by and large they have been supplanted by electric trains drawing from either overhead wires or third rail systems (with the latter being especially common in mass transit systems). | ||
==Rolling Stock== | ==Rolling Stock== | ||
Line 26: | Line 31: | ||
! Manufacturer Name !! Country of Origin !! Date Established !! Other Notes | ! Manufacturer Name !! Country of Origin !! Date Established !! Other Notes | ||
|- | |- | ||
| [[Svaartaron]] || [[Ottonia]] || 1848 || One of two principle | | [[Svaartaron]] || [[Ottonia]] || 1848 || One of two principle Ottonian rolling stock suppliers. | ||
|- | |- | ||
| [[VHI]] || [[Ottonia]] || 1890 || One of two principle | | [[VHI]] || [[Ottonia]] || 1890 || One of two principle Ottonian rolling stock suppliers. | ||
|- | |- | ||
| Example || Example || Example || Example | | Example || Example || Example || Example | ||
Line 38: | Line 43: | ||
==Rail Gauges== | ==Rail Gauges== | ||
{{main|Rail Gauges (Ajax) | {{main|Rail Gauges (Ajax)}} | ||
Due to the initial geographic isolation of many rail networks, a variety of regional needs and engineering constraints, and a simple lack of standardization for much of the technology's history, a number of rail gauges have proliferated throughout the world. While some regions have seen a degree of standardization in recent years, it is worth note that there is no one, truly [[Ajax|worldwide]] {{wp|standard gauge}}. | Due to the initial geographic isolation of many rail networks, a variety of regional needs and engineering constraints, and a simple lack of standardization for much of the technology's history, a number of rail gauges have proliferated throughout the world. While some regions have seen a degree of standardization in recent years, it is worth note that there is no one, truly [[Ajax|worldwide]] {{wp|standard gauge}}. | ||
===Ottonian Rail Gauges=== | |||
A set of rail gauges were standardized in the Ottonian states starting in the late 1830's based off of the standardized weights and measures codified by the [[Inter-Ottonian Alliance]], the forerunner of the eventual Federation. The earliest of these, in 1837, was the narrow Bluwaald gauge at 1 Ottonian Yard in width. As larger rail lines connecting major cities in more traversable areas became more commong, a 2 Ottonian Yard-width gauge was standardized, codified in 1842. Due to its use in the planned rail lines between national capitals of the various Ottonian states, this gauge was dubbed "Inter-Ottonian Gauge". Finally, as it became clear that most railways needed a compromise gauge between the two, in 1845 "Ottonian Standard Gauge" was codified, at 1.5 Ottonian Yards. The gauges would proliferate through Northwest Belisaria, including Sudemark. | |||
===[Other Railway Gauge 1]=== | |||
[This area to be filled in with additional details once people have supplied some regional and national gauge examples to elaborate on] | [This area to be filled in with additional details once people have supplied some regional and national gauge examples to elaborate on] | ||
===List of Railway Gauges=== | |||
Below is a list of many of the more widely-used railway gauges. | Below is a list of many of the more widely-used railway gauges. | ||
Line 49: | Line 60: | ||
! Gauge Name !! Width (SI) !! Width (Native) !! Notes | ! Gauge Name !! Width (SI) !! Width (Native) !! Notes | ||
|- | |- | ||
| | | Bluwaald Gauge || 950 mm || 1 Ottonian Yard || Bluwaald gauge is the oldest Ottonian-originated gauge that remains in large-scale use in the present. Intended to accomodate the engineering limitations of rail systems in the Bluwaald mountains and east Ottonian highland regions, as well as facilitating the lower-cost construction of a relatively large-scale network in a difficult-to-traverse region, in the present day Bluwaald gauge is the standard narrow gauge for the whole of [[Ottonia]] and [[United Kingdom of Ottonia|Draakur]], often seeing use in {{wp|tram}} and {{wp|light rail transit|light rail}}, as well as {{wp|narrow gauge}} regional rail systems such as the ones in [[Bluwaald]] and [[Eona]]. | ||
|- | |- | ||
| Ottonian | | Inter-Ottonian Gauge || 1.9 m || 2 Ottonian Yards || Originally standardized in the late 1840's, this gauge was used for the first Ottonian rail network linking the country's principle cities. It remains in use in [[Ottonia]] now for high-speed inter-urban service. At just shy of 2 meters in width, Inter-Ottonian Gauge is the broadest gauge in major passenger use. | ||
|- | |- | ||
| | | Example || Example || Example || Example | ||
|- | |- | ||
| Example || Example || Example || Example | | Example || Example || Example || Example | ||
|- | |- | ||
| | | Ottonian Standard Gauge || 1.43 m || 1.5 Ottonian Yards || First standardized in 1883, this gauge would first find use in intra-state lines and the earliest municipal mass-transit rail systems in Ottonia. | ||
|- | |- | ||
| | | Scipian Gauge || 1.5 m || 20 [[wikipedia:Ancient_Roman_units_of_measurement#Length| pedes]]</br>24 {{wp|Moroccan_units_of_measurement#Length|tonin}}|| The most widely-used rail gauge across [[Ajax#Scipia|Scipia]], the 1,500 mm gauge is the common standard across countries like [[Charnea]], [[Talahara]], [[Tyreseia]], and others. | ||
|- | |- | ||
| | | Transochran Gauge || 1.68 m || 1 Uluujoli fathom || Originally known as "Chuyan gauge", the 1.68 m gauge was standardized and first saw widespread use outside of central Uluujol with the constuction of the [[Trans-Ochran Railroad Consortium|Trans-Ochran Railroad]]. In addition to the Trans-Ochran Railroad, Uluujol's imperial trunklines make use of the gauge. | ||
|} | |} | ||
Line 73: | Line 84: | ||
! Name !! Network Type !! Operator !! Date Established !! Place(s) Served !! Notes | ! Name !! Network Type !! Operator !! Date Established !! Place(s) Served !! Notes | ||
|- | |- | ||
| [[ | | [[Continental Comet Consortium]] || International || [[Drevstranese Railways Public Society|DRPS]] ({{wp|Privately held company|Private}})<br>[[Realm Railway Group of Brumen|RGB]] ({{wp|State-Owned Enterprise|State}}) || 1991 || [[Brumen]], [[Drevstran]], [[Garima]], [[Mesogeia]] & [[Ostrozava]] || Commonly abbreviated as '''(C3)''', is a {{wp|railway company}} that owns and operates the international [[Comet]] {{wp|high-speed rail}} service in [[High-speed rail in East Belisaria|Eastern Belisaria]]. C3 was founded as a {{wp|consortium}} by two railway companies: [[Realm Railway Group of Brumen|Realm Railway Group of Brumen]] (RGB) and [[Drevstranese Railways Public Society]] (DRPS) and provides international railway services for both [[Brumen]] and [[Drevstran]]. | ||
|- | |||
| [[Rail Transportation in Ottonia|Draakur Island Railways]] || National || [[Authorita Ferracar'l Draakuri|AFD]] (State/Public) || 1966 || [[United Kingdom of Ottonia|Draakur]] || Originally established in 1966 as the "Draakurr Railway Authority", in summer of 2022 the name was changed and the authority became the de facto national rail network of the [[United Kingdom of Ottonia]]. | |||
|- | |- | ||
| Example || Example || Example || Example || Example || Example | | Example || Example || Example || Example || Example || Example | ||
Line 79: | Line 92: | ||
| Example || Example || Example || Example || Example || Example | | Example || Example || Example || Example || Example || Example | ||
|- | |- | ||
| [[ | | [[Rail Transportation in Ottonia|Ottonian Federal Rail System]] || National || IRRA (State/Public) || 1950 || [[Ottonia]] || First re-founded in the 1940's following the [[Great Ottonian War]], the rail network was reorganized in 1950 in anticipation of a major expansion and repair project. In 2022, the system was expanded to incorporate the rail systems of the five new [[United Kingdom of Ottonia|former South Ottonian]] [[Ottonian Reunification|republics.]] | ||
|- | |||
| [[Trans-Ochran Rail Consortium|Trans-Ochran Railroad]] || International || [[Trans-Ochran Rail Consortium]] ({{wp|Public-Private Partnership|Public-Private}}) || 1892 || [[Uluujol]], [[Ayvana]], [[Chagadalai]], [[Jhengtsang]], [[Kocisupara]], [[Seonko]], [[Tsurushima]] || The Trans-Ochran Railroad was built in the late 19th century to provide rail linkages between the Makrian Western Rim, the North Coast of the Ozeros Sea, the Ochranic Interior, and the Periclean Coastal region. Largely, but not exclusively, contained within Uluujol, the railway is administered by an international private-public partnership designed to keep the service running between the countries that benefit from it. | |||
|- | |- | ||
| [[ | | [[West Scipian Railway]] || International || [[West Scipian Railway|West Scipian Railway Company]] ({{wp|Private-Public Partnership|Private-Public}} || 1975 || [[Ascalzar]], [[Sydalon]], [[Talahara]], [[Talakh]], [[Tyreseia]], [[Yisrael]] || First conceived following the 1973 [[Yarden Accords]], the West Scipian Railway carries a reputation for intrigue and derring-do and, more mundanely, luxurious accomodations. | ||
|} | |} | ||
[[Category: Ajax]] | [[Category: Ajax]] | ||
[[Category: Transportation]] | [[Category: Transportation]] |
Latest revision as of 22:16, 22 July 2024
This article is incomplete because it is pending further input from participants, or it is a work-in-progress by one author. Please comment on this article's talk page to share your input, comments and questions. Note: To contribute to this article, you may need to seek help from the author(s) of this page. |
Throughout the world, freight and passengers alike are moved vast distances by an intricate network of rail systems, varying in complexity and scope between countries.
History
Although steam locomotives were first developed in the late 18th century, and horse-drawn railway systems existed prior, it would not be until the early part of the mid-19th century that steam locomotives would be sufficiently refined to see large-scale use moving passengers and freight, with the first major rail networks around the world being laid down in the 1830's and 1840's. Once the technology had reached a certain level of maturity, however, it quickly proliferated, and by the turn of the 20th century there were growing, increasingly-intricate rail networks on every inhabited continent. Notably the late 1800's saw early rail mega-projects like the Trans-Ochran Railroad be undertaken.
By the latter half of the 20th century, increasing global economic interconnection facilitated the internationalization of rail networks in many places, as greater efforts were taken to foster interoperability between national networks, easing travel and freight movement between countries while reducing the need for lengthy or difficult train or bogie switches at national borders. This trend was facilitated by gauge-changing technology, such as that innovated by Ottonian manufacturer Svaartaron (although similar systems were under development elsewhere concurrently) in the 1950's, increasing electrification of rail systems, and regional standardizations of things like rail gauges and rolling stock technology, as well as the advent of high-speed rail.
In the present, thanks to a largely internationally-linked network, it is possible for persons and goods to move vast distances at speeds that would have been incomprehensible only two centuries earlier.
Technology
The robust global rail network has been facilitated by numerous technologies, many of them with their roots at the dawn of the industrial era, others more recent.
Existing Rail Categories
- High Speed Rail (HSR): The advent of High Speed Rail in Ajax brought profound economic, social & political changes throughout the world. Tsurushima was among the first nations to develop their own indigenous HSR trains known as the Chōkyūsen network. HSR networks that were developed & commenced operations between 1960 and 1969 are considered as the "First Generation" HSR, their success prompted other nations across Ajax to initiate their own HSR projects. While there is no official standardization of HSR speeds, the general consensus is that trains capable of speeds above 200km/h are considered as a HSR network. Many countries throughout Ajax have active or are in the process of developing a HSR network including: Tsurushima, Brumen, Drevstran, Ottonia, and Uluujol. While a majority of HSR networks ferry passengers, there are some HSR networks that specializes in freight, mail & logistics.
- Semi-High Speed Rail (HrSR):
- Conventional Rail:
Motive Power
While traditionally locomotives were reliant on steam generated through the burning of coal, and then internal combustion diesel engines, to move trains, the 20th century saw the increasing electrification of rail networks using a mix of third-rail and overhead-wire -supplied power. While initially (and, in some places, still) generated through the burning of fossil fuels, that electric source of power meant that the mid- and late-20th century proliferation of renewable and nuclear power enabled the movement of vast numbers of people and cargo at relatively light expense while dramatically reducing the rail networks' environmental impact.
In the present, electrified systems account for much of the world's networks. Steam and diesel-powered vehicles still exist, serving in some specialized roles, in locations where electrification is impossible or impractical, or in operation on heritage railways, but by and large they have been supplanted by electric trains drawing from either overhead wires or third rail systems (with the latter being especially common in mass transit systems).
Rolling Stock
In the present, a number of manufacturers produce rolling stock for the world's various railways. A number of innovations have been driven from this end of development, including gauge-changing technology, tilting trains, electrified trains, and improvements in signaling that have generally made rail transportation much safer over the years.
Below is a brief list of some of the major rolling-stock manufacturers of the world.
Manufacturer Name | Country of Origin | Date Established | Other Notes |
---|---|---|---|
Svaartaron | Ottonia | 1848 | One of two principle Ottonian rolling stock suppliers. |
VHI | Ottonia | 1890 | One of two principle Ottonian rolling stock suppliers. |
Example | Example | Example | Example |
Example | Example | Example | Example |
Example | Example | Example | Example |
Rail Gauges
Due to the initial geographic isolation of many rail networks, a variety of regional needs and engineering constraints, and a simple lack of standardization for much of the technology's history, a number of rail gauges have proliferated throughout the world. While some regions have seen a degree of standardization in recent years, it is worth note that there is no one, truly worldwide standard gauge.
Ottonian Rail Gauges
A set of rail gauges were standardized in the Ottonian states starting in the late 1830's based off of the standardized weights and measures codified by the Inter-Ottonian Alliance, the forerunner of the eventual Federation. The earliest of these, in 1837, was the narrow Bluwaald gauge at 1 Ottonian Yard in width. As larger rail lines connecting major cities in more traversable areas became more commong, a 2 Ottonian Yard-width gauge was standardized, codified in 1842. Due to its use in the planned rail lines between national capitals of the various Ottonian states, this gauge was dubbed "Inter-Ottonian Gauge". Finally, as it became clear that most railways needed a compromise gauge between the two, in 1845 "Ottonian Standard Gauge" was codified, at 1.5 Ottonian Yards. The gauges would proliferate through Northwest Belisaria, including Sudemark.
[Other Railway Gauge 1]
[This area to be filled in with additional details once people have supplied some regional and national gauge examples to elaborate on]
List of Railway Gauges
Below is a list of many of the more widely-used railway gauges.
Gauge Name | Width (SI) | Width (Native) | Notes |
---|---|---|---|
Bluwaald Gauge | 950 mm | 1 Ottonian Yard | Bluwaald gauge is the oldest Ottonian-originated gauge that remains in large-scale use in the present. Intended to accomodate the engineering limitations of rail systems in the Bluwaald mountains and east Ottonian highland regions, as well as facilitating the lower-cost construction of a relatively large-scale network in a difficult-to-traverse region, in the present day Bluwaald gauge is the standard narrow gauge for the whole of Ottonia and Draakur, often seeing use in tram and light rail, as well as narrow gauge regional rail systems such as the ones in Bluwaald and Eona. |
Inter-Ottonian Gauge | 1.9 m | 2 Ottonian Yards | Originally standardized in the late 1840's, this gauge was used for the first Ottonian rail network linking the country's principle cities. It remains in use in Ottonia now for high-speed inter-urban service. At just shy of 2 meters in width, Inter-Ottonian Gauge is the broadest gauge in major passenger use. |
Example | Example | Example | Example |
Example | Example | Example | Example |
Ottonian Standard Gauge | 1.43 m | 1.5 Ottonian Yards | First standardized in 1883, this gauge would first find use in intra-state lines and the earliest municipal mass-transit rail systems in Ottonia. |
Scipian Gauge | 1.5 m | 20 pedes 24 tonin |
The most widely-used rail gauge across Scipia, the 1,500 mm gauge is the common standard across countries like Charnea, Talahara, Tyreseia, and others. |
Transochran Gauge | 1.68 m | 1 Uluujoli fathom | Originally known as "Chuyan gauge", the 1.68 m gauge was standardized and first saw widespread use outside of central Uluujol with the constuction of the Trans-Ochran Railroad. In addition to the Trans-Ochran Railroad, Uluujol's imperial trunklines make use of the gauge. |
Major Rail Systems & Projects
In addition to the numerous national rail networks found throughout the world, several large-scale rail megaprojects have been undertaken, either to link continental regions or to traverse truly vast distances or to furnish international high-speed rail travel. Below are listed national rail networks, as well as international rail projects of major significance.
[Insert highlights for major international projects here]
Name | Network Type | Operator | Date Established | Place(s) Served | Notes |
---|---|---|---|---|---|
Continental Comet Consortium | International | DRPS (Private) RGB (State) |
1991 | Brumen, Drevstran, Garima, Mesogeia & Ostrozava | Commonly abbreviated as (C3), is a railway company that owns and operates the international Comet high-speed rail service in Eastern Belisaria. C3 was founded as a consortium by two railway companies: Realm Railway Group of Brumen (RGB) and Drevstranese Railways Public Society (DRPS) and provides international railway services for both Brumen and Drevstran. |
Draakur Island Railways | National | AFD (State/Public) | 1966 | Draakur | Originally established in 1966 as the "Draakurr Railway Authority", in summer of 2022 the name was changed and the authority became the de facto national rail network of the United Kingdom of Ottonia. |
Example | Example | Example | Example | Example | Example |
Example | Example | Example | Example | Example | Example |
Ottonian Federal Rail System | National | IRRA (State/Public) | 1950 | Ottonia | First re-founded in the 1940's following the Great Ottonian War, the rail network was reorganized in 1950 in anticipation of a major expansion and repair project. In 2022, the system was expanded to incorporate the rail systems of the five new former South Ottonian republics. |
Trans-Ochran Railroad | International | Trans-Ochran Rail Consortium (Public-Private) | 1892 | Uluujol, Ayvana, Chagadalai, Jhengtsang, Kocisupara, Seonko, Tsurushima | The Trans-Ochran Railroad was built in the late 19th century to provide rail linkages between the Makrian Western Rim, the North Coast of the Ozeros Sea, the Ochranic Interior, and the Periclean Coastal region. Largely, but not exclusively, contained within Uluujol, the railway is administered by an international private-public partnership designed to keep the service running between the countries that benefit from it. |
West Scipian Railway | International | West Scipian Railway Company (Private-Public | 1975 | Ascalzar, Sydalon, Talahara, Talakh, Tyreseia, Yisrael | First conceived following the 1973 Yarden Accords, the West Scipian Railway carries a reputation for intrigue and derring-do and, more mundanely, luxurious accomodations. |