Alstom APS

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Bordeaux tram using APS on route B near the Roustaing tramstop Bordeaux-tram-aps-near-Roustaing.jpg
Bordeaux tram using APS on route B near the Roustaing tramstop
A section of APS track showing the neutral sections at the end of the powered segments plus one of the insulating joint boxes which mechanically and electrically join the APS rail segments Bordeaux-aps+isolation&joint.jpg
A section of APS track showing the neutral sections at the end of the powered segments plus one of the insulating joint boxes which mechanically and electrically join the APS rail segments

Alstom APS, also known as Alimentation par Sol or Alimentation Par le Sol (which literally means "feeding via the ground"), is a form of ground-level power supply for street trams and, potentially, other vehicles. APS was developed by Innorail, a subsidiary of Spie Enertrans, but was sold to Alstom when Spie was acquired by Amec. It was originally created for the Bordeaux tramway, which began construction in 2000 and opened in 2003. [1] From 2011, the technology has been used in a number of other cities around the world.

Contents

APS is used, primarily for aesthetic reasons, as an alternative to overhead lines. As such, it competes with other ground-level power supply systems but also with energy storage systems such as batteries. In 2015, Alstom developed a derivative of APS, Alstom SRS (Système de Recharge statique par le sol or static-based ground charging system), which can be used to recharge battery powered trams and buses while they are stationary at stops. [2]

Alstom further developed the APS system for use with buses and other vehicles. The system has been tested for safety when the road is cleared by snowplows, under exposure to snow, ice, salting, and saturated brine, [3] and for skid and road adherence safety for vehicles, including motorcycles. [4] Alstom will trial its electric road system (ERS) on the public road RN205 [5] in the Rhône-Alpes region between 2024 and 2027. [6] The system is expected to supply 500kW of power for electric heavy trucks, as well as power for road utility vehicles and electric cars. [4]

Technology

APS uses a third rail placed between the running rails that is divided electrically into 11 m segments that automatically switch on and off according to whether a tram is passing over them, thereby eliminating risk to other road users. [7] Each tram has two power collection shoes, next to which are antennas that send radio signals to energise the power rail segments as the tram passes over them. At any time, two consecutive segments under the tram will be live.[ citation needed ]

APS is different from the conduit current collection system, which was one of the first ways of supplying power to a tram system, as the latter involves burying a third and fourth rail in an underground conduit or trench between the running rails. Conduit current collection was used in historic tram systems in Washington, Manhattan, Paris, Berlin, Marseilles, Vienna, Budapest and London. It fell into disuse because overhead wires proved much less expensive and troublesome for street railways. [8]

Safety

Unlike the track-side third rail that is used by most metro trains and some main-line railways, APS poses no danger to people or animals and so can be used in pedestrian areas and city streets. [7] The French government reports no electrocutions or electrification accidents on any tramway in France from as early as 2003 [9] until as recently as December 31, 2022. [9] [10] [11]

Uses

Bordeaux

Track with APS under construction in Place Paul Doumer, Bordeaux Bordeaux-aps-place-paul-doumer.jpg
Track with APS under construction in Place Paul Doumer, Bordeaux

Conduit current collection systems were used in the late 1800s and early 1900s in several major cities, among them Bordeaux, [12] :44 but they posed maintenance issues and road safety issues. The Bordeaux conduit systems remained among the last in operation until being decommissioned in 1958. For decades, conduit systems were not reintroduced because they didn't meet modern safety standards. The first ground-level power supply system developed to modern safety standards was the Ansaldo Stream, although Alstom APS was the first to be commercially implemented in 2003. [13] This success led to a proliferation of commercial implementations of ground-level power supply systems. [14]

Construction of the new, catenary-free tramway started in February 2000. In May 2000 a contract was signed with Alstom for the supply of the tram fleet, and in October the first track was laid. Construction and testing continued through 2001 to 2003, and the first section of the tramway opened on 21 December 2003 in the presence of President Jacques Chirac, and the mayor of Bordeaux, Alain Juppé. The newly open section, known as line A, ran from Lormont-Lauriers and La Morlette, to Mériadeck. [15]

Other cities

Alstom APS tracks on the CBD and South East Light Rail in Sydney New trams operating in George street Sydney CBD - late December 2019 - 49281061742.jpg
Alstom APS tracks on the CBD and South East Light Rail in Sydney
SystemCityCountryOpenedComments
Angers tramway Angers France 2011 [16] [17]
Reims tramway Reims France 2011 [16]
Orléans tramway Orléans France 2012 [18]
Tours tramway Tours France 2013 [19]
Dubai Tram Dubai United Arab Emirates 2014The system is fully equipped with APS over its entire passenger route length and thus trams do not use their pantographs unless they are travelling within the depot area. [20]
VLT Carioca Rio de Janeiro Brazil 2016The system mainly uses APS, but where that was deemed impractical, the trams employ Alstom's proprietary supercapacitor-based energy storage system. [21]
CBD and South East Light Rail Sydney Australia 2019The system uses APS within the Sydney CBD and conventional overhead wires elsewhere. [22]
Cuenca tram Cuenca Ecuador 2020The system uses APS in certain regions only and conventional overhead wires elsewhere. [23]
Istanbul T5 tramway Istanbul Turkey 2021 [24]
Lusail Tram Lusail Qatar 2022The system uses APS on the above ground sections, with around 19 km of APS. [25]
Barcelona tram Barcelona Spain 2024The system uses APS in certain regions only and conventional overhead wires elsewhere.

Standardization

Alstom, Elonroad, and other companies in 2020 began drafting a standard for ground-level power supply electric roads. [26] [27] A working group of the French Ministry of Ecology considers rail ground-level power supply technology to be the most likely candidate for electric roads. [28] The first standard for electrical equipment on board a vehicle powered by a rail electric road system (ERS), CENELEC Technical Standard 50717, has been approved in late 2022. [29] The following standards, encompassing "full interoperability" and a "unified and interoperable solution" for ground-level power supply, are scheduled to be published by the end 2024, detailing complete "specifications for communication and power supply through conductive rails embedded in the road". [30] [31]

Related Research Articles

<span class="mw-page-title-main">Transport in France</span>

Transportation in France relies on one of the densest networks in the world with 146 km of road and 6.2 km of rail lines per 100 km2. It is built as a web with Paris at its center. Rail, road, air and water are all widely developed forms of transportation in France.

<span class="mw-page-title-main">Tram</span> Street-running light railcar

A tram is a urban rail transit in which vehicles, whether individual railcars or multiple-unit trains, run on tramway tracks on urban public streets; some include segments on segregated right-of-way. The tramlines or tram networks operated as public transport are called tramways or simply trams/streetcars. Because of their close similarities, trams are commonly included in the wider term light rail, which also includes systems separated from other traffic.

<span class="mw-page-title-main">Third rail</span> Method of providing electric power to a railway train

A third rail, also known as a live rail, electric rail or conductor rail, is a method of providing electric power to a railway locomotive or train, through a semi-continuous rigid conductor placed alongside or between the rails of a railway track. It is used typically in a mass transit or rapid transit system, which has alignments in its own corridors, fully or almost fully segregated from the outside environment. Third-rail systems are usually supplied from direct current electricity.

<span class="mw-page-title-main">Alstom Citadis</span> Family of low-floor trams and light rail vehicles

The Alstom Citadis is a family of low-floor trams and light rail vehicles built by Alstom. As of 2017, over 2,300 Citadis trams have been sold and 1,800 tramways are in revenue service throughout the world, with operations in all six inhabited continents. An evolution of Alstom's earlier TFS vehicle, most Citadis vehicles are made in Alstom's factories in La Rochelle, Reichshoffen and Valenciennes, France, and in Barcelona, Spain, and Annaba, Algeria.

<span class="mw-page-title-main">Ground-level power supply</span> System for powering electric vehicles

Ground-level power supply, also known as surface current collection or, in French, alimentation par le sol, is a concept and group of technologies that enable electric vehicles to collect electric power at ground level instead of the more common overhead lines.

<span class="mw-page-title-main">Conduit current collection</span>

Conduit current collection is an obsolete system that was used by some electric tramways to pass current to streetcars via a "conduit", a small tunnel under the roadway. Modern systems fall under the term ground-level power supply.

Tramway track is used on tramways or light rail operations. As with standard rail tracks, tram tracks have two parallel steel rails, the distance between the heads of the rails being the track gauge. When there is no need for pedestrians or road vehicles to traverse the track, conventional flat-bottom rail is used. However, when such traffic exists, such as in urban streets, grooved rails are used.

<span class="mw-page-title-main">Bordeaux tramway</span> Tram system serving the city of Bordeaux

The Bordeaux tramway network consists of four lines serving the city of Bordeaux in Nouvelle-Aquitaine in southwestern France. The system has a route length of 77.5 kilometres (48.2 mi), serving a total of 133 tram stops.

<span class="mw-page-title-main">Rouen tramway</span>

The Rouen tramway is a tramway / light rail network in the city of Rouen, Normandy, France. Construction began in 1991 and the network opened for service on 17 December 1994.

<span class="mw-page-title-main">Valenciennes tramway</span>

The Valenciennes tramway is a tram system serving Valenciennes and part of its surrounding areas, in the Nord department of France. Since 2014 the network has consisted of two lines with a total of 33.8 mi (54.4 km) of track and 48 stations.

The stud contact system is an obsolete ground-level power supply system for electric trams. The studs were cylinders with their tops flush with the road surface, and connected to an electrical cable underground. The studs contained a switch mechanism that made an electrical connection with the top of the stud when a car with a strong magnet at its underside passed over it, before automatically disconnencting. Electrical current was collected from the studs by a "skate" or "ski collector" under the tramcar.

<span class="mw-page-title-main">Reims tramway</span> French tram system

Reims tramway is a tram system in the French city of Reims, which opened in April 2011. It travels north to south, through the city, along 11.2 kilometres (7.0 mi) of route.

<span class="mw-page-title-main">Angers tramway</span> Tramway network in Angers, Pays de la Loire, France

The Angers tramway is the tramway network in the French city of Angers in Pays de la Loire.

<span class="mw-page-title-main">Trams in France</span>

Trams in France date from 1837 when a 15 km steam tram line connected Montrond-les-Bains and Montbrison in the Loire. With the development of electric trams at the end of the 19th century, networks proliferated in French cities over a period of 15 years. Although nearly all of the country's tram systems were replaced by bus services in the 1930s or shortly after the Second World War, France is now in the forefront of the revival of tramways and light rail systems around the globe. Only tram lines in Lille and Saint-Étienne have operated continuously since the 19th century; the Marseille tramway system ran continuously until 2004 and only closed then for 3 years for extensive refurbishment into a modern tram network. Since the opening of the Nantes tramway in 1985, more than twenty towns and cities across France have built new tram lines. As of 2024, there are 28 operational tram networks in France, with 3 more planned. France is also home to Alstom, a leading tram manufacturer.

<span class="mw-page-title-main">Dubai Tram</span> Tram system in Dubai

The Dubai Tram is a tramway located in Al Sufouh, Dubai, United Arab Emirates. It runs for 14.5 kilometers (9.0 mi) along Al Sufouh Road from Dubai Marina to the Palm Jumeirah and Al Sufouh. The tram connects with the DMCC and Sobha Realty stations of the Dubai Metro's Red Line, and two more stations are expected to connect with the tram in the future. The Dubai Tram is also connected with the monorail of the Palm Jumeirah at the entrance of the Palm from Sufouh Road.

<span class="mw-page-title-main">Conductive charging</span>

Conductive charging is conductive power transfer that replaces the conductive wires between the charger and the charged device with conductive contacts. Charging infrastructure in the form of a board or rail delivers the power to a charging device equipped with an appropriate receiver, or pickup. When the infrastructure recognizes a valid receiver it powers on, and power is transferred.

<span class="mw-page-title-main">Rio de Janeiro Light Rail</span> Light rail system in Brazil

Rio de Janeiro Light Rail is a modern light rail system serving Rio de Janeiro, Brazil. The system is among several new public transport developments in the region ahead of the city's successful bid for the 2016 Summer Olympics. Its official name is VLT Carioca, the initialism "VLT" being equivalent to the English term light rail.

<span class="mw-page-title-main">Electric road</span> Road which supplies electric power to vehicles travelling on it

An electric road, eroad, e-roadway, or electric road system (ERS) is a road which supplies electric power to vehicles travelling on it. Common implementations are overhead power lines above the road, ground-level power supply through conductive rails, and dynamic wireless power transfer (DWPT) through resonant inductive coils or inductive rails embedded in the road. Overhead power lines are limited to commercial vehicles while ground-level rails and inductive power transfer can be used by any vehicle, which allows for public charging through a power metering and billing systems. Of the three methods, ground-level conductive rails are estimated to be the most cost-effective.

The Swedish Transport Administration electric road program or Swedish Transport Administration Electrification Program is a program involving the assessment, planning, and implementation of an electric road national infrastructure for Sweden by Trafikverket, the Swedish Transport Administration.

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