The rail service through the Eurotunnel has two variants: the Eurostar train, for passengers, and the Shuttle train, which transports trucks, cars and motorcycles.

The tunnel has a length of 50.5 km, 39 of them underwater, making it the second longest underwater tunnel in the world, with an average depth of 40 meters, behind the Seikan Tunnel, whose length is 53 km, at a depth of 240 m.

The Eurotunnel is made up of three main routes:

• - Two 7.6 m diameter tunnels reserved for rail transport, one going and one returning (A).

• - A 4.8 m maintenance tunnel, prepared for the circulation of electric vehicles (B).

These three parts are joined every 375 m by other auxiliary transversal ducts (C), and every 250 m by ventilation ducts (D), which allow maintenance to be carried out and there to be an air flow to reduce the pressure, thus also preventing the spread of smoke in the event of fire, as well as the collision due to aerodynamic resistance when trains traveling at 140 km/h pass each other.

• - The Eurostar high-speed train takes 2 hours and 20 minutes to go from London to Paris, and 1 hour and 57 minutes from London to Brussels.

• - Goods are transported by train rather than lorry or ferry across the English Channel, which is subject to possible adverse weather conditions or other factors.

• - Motorists enter transfer trains and can remain in their vehicles or walk while the train crosses the tunnel. The truck drivers put the truck into the cars, and a minibus takes them to the club car, where they have seats and food service.

There are doors between each car that are removed to allow the loading and circulation of cars, from the tail to the beginning of the trains, on two levels. These doors are closed when the train is loaded and reopened for unloading.

Work began in April 1988 on both banks and on December 1, 1990, the tunnel boring machines were found.

The tunnel boring machines used to excavate the tunnel were built by the French and British. With a cylindrical shape, the tunnel boring machine has several blades ("teeth") mounted on its front. The teeth are made of an extremely hard metal and as they rotate they penetrate the ground, creating space for the machine to continue moving forward. The drill used in the Eurotunnel was 8.78 m in diameter and 200 m in length, with a total weight of 11,000 tons.[30] It is capable of penetrating many types of terrain, from soft to rocky, advancing 20 km without interruption.

Creating tunnels requires a solid understanding of geology and selecting the best rock strata to build them through. Features of the English Tunnel include:

• - Crete "Crete (rock)") on the cliffs on both sides of the Channel, without major faults.

• - Four geological strata, formed by marine sediments between 90 and 100 million years old. The upper two strata are formed by permeable chalk, above a third layer of slightly permeable chalk and a fourth impermeable layer of clay (from the Lower Cretaceous period). Between these last two strata, there is a thin layer of calcareous and gluconitic sand.

• - The layer of blue chalk (in French: "craie bleue") between 25 and 30 m thick, located in the lowest lower third of this material, was a priori the most suitable stratum of the Canal bed to excavate a tunnel. It is a relatively easy material to drill, requiring minimal support, and with a clay content of 30-40% that provides it with impermeability to groundwater.

The average depth of the Canal bed is 54 m, with a maximum of 180 m.[31]​ In the tunnel area, it did not exceed 70 m, so that the maximum depth of the tunnel grade with respect to sea level is 107.3 meters.[32]​.

The construction of the tunnel was financed by private companies, without state intervention, in exchange for the concession of its exploitation until 2052. A study carried out in 1984 by French and British banks considered the project viable. The British government, led by Margaret Thatcher, opposed public financing of the project, a position agreed with the French government in the Treaty of Canterbury.

The cost was 16 billion euros. The coordination difficulties between contracted and subcontracted companies and the technical difficulty of the project considerably increased costs.

Eurotunnel is a private company concessionaire of the project. It manages rail transport, collecting tolls from the railway companies that use the tunnel and exploiting freight and passenger traffic with its own means. Demand has been lower than expected, mainly due to low-cost airlines. Based on a forecast of 30 million passengers and 15 million tonnes of goods per year, in 2013 18.8 million passengers and 19 million tonnes of goods were transported, including trains (10.1 and 1.3, respectively) and ferries.

Following the change in safety regulations by the Channel Tunnel Safety Authority (CTSA) for passenger trains in the Eurotunnel, discussed (11/16/2009) with manufacturers and operators,[33] it granted the German operator DB in June 2013 Part B of the Safety Certificate, which recognizes that there is a Safety Management System that satisfies the community regulations for this section, that is, that it complies with the safety and organization procedures, which entitles DB to provide services through the Eurotunnel with any approved material.[34]​

This has nothing to do with the supposed homologation of the Velaro D trains since, in addition, the evacuation tests in the Channel Tunnel, carried out in October 2010, were carried out with a 3M ICE, the same one that was exhibited at London's St. Pancras station.[35]​

Part A of the certificate confirms that the Railway Company has a Safety Management System that satisfies European and national standards and requirements, in a harmonized manner throughout the European railway system; while Part B confirms the application of said Safety Management System to circulate through a certain infrastructure (a point-to-point route along a line). The Certificate is valid for five years, renewable for equal successive periods, provided that the regulatory conditions required for its granting are met.[36]​.

Subsequently, the UKBA (The UK Border Agency) explained that there will be no controls outside of the current ones (Lille, Paris and Brussels), and that it does not like DB's suggestion that the controls be done on board the trains. For its part, SNCF is doubling the capacity of the passport control area at Lille-Europe station.[37]​

Following this news, in addition to the difficulties in homologating the Velaro D even in Germany, DB has parked its plans to reach London, at least in this decade.[38]​.

Eurostar announced a service to Marseille for 2015[39]​ that will require a 1h 43m stop in Lille (bound to London) for baggage and passport control.[40]​.

The first column represents the number of passengers on Eurostar trains, the sixth and seventh columns represent an official estimate on transport on shuttle trains.

There are several incidents of this nature that have occurred in the Eurotunnel. Since its inauguration, four fires have occurred:

• - The first occurred in November 1996, when a truck caught fire, cutting off the tunnel for several months.

• - The second of them took place in August 2006, for the same reason, but this time without causing any damage.

• - Another occurred on September 11, 2008, when a freight train caught fire, interrupting all traffic and passenger service.

• - Finally, the last of the fires known so far occurred on January 17, 2015, when a truck caught fire at the French end of the tunnel. The accident forced the Eurotunnel to close for the entire day.

• - Annex:Large tunnels.

• - Eurostar.

• - TGV-TMST (Eurostar).

• - Wikimedia Commons hosts a multimedia category on Eurotunnel.

The rail service through the Eurotunnel has two variants: the Eurostar train, for passengers, and the Shuttle train, which transports trucks, cars and motorcycles.

The tunnel has a length of 50.5 km, 39 of them underwater, making it the second longest underwater tunnel in the world, with an average depth of 40 meters, behind the Seikan Tunnel, whose length is 53 km, at a depth of 240 m.

The Eurotunnel is made up of three main routes:

• - Two 7.6 m diameter tunnels reserved for rail transport, one going and one returning (A).

• - A 4.8 m maintenance tunnel, prepared for the circulation of electric vehicles (B).

These three parts are joined every 375 m by other auxiliary transversal ducts (C), and every 250 m by ventilation ducts (D), which allow maintenance to be carried out and there to be an air flow to reduce the pressure, thus also preventing the spread of smoke in the event of fire, as well as the collision due to aerodynamic resistance when trains traveling at 140 km/h pass each other.

• - The Eurostar high-speed train takes 2 hours and 20 minutes to go from London to Paris, and 1 hour and 57 minutes from London to Brussels.

• - Goods are transported by train rather than lorry or ferry across the English Channel, which is subject to possible adverse weather conditions or other factors.

• - Motorists enter transfer trains and can remain in their vehicles or walk while the train crosses the tunnel. The truck drivers put the truck into the cars, and a minibus takes them to the club car, where they have seats and food service.

There are doors between each car that are removed to allow the loading and circulation of cars, from the tail to the beginning of the trains, on two levels. These doors are closed when the train is loaded and reopened for unloading.

Work began in April 1988 on both banks and on December 1, 1990, the tunnel boring machines were found.

The tunnel boring machines used to excavate the tunnel were built by the French and British. With a cylindrical shape, the tunnel boring machine has several blades ("teeth") mounted on its front. The teeth are made of an extremely hard metal and as they rotate they penetrate the ground, creating space for the machine to continue moving forward. The drill used in the Eurotunnel was 8.78 m in diameter and 200 m in length, with a total weight of 11,000 tons.[30] It is capable of penetrating many types of terrain, from soft to rocky, advancing 20 km without interruption.

Creating tunnels requires a solid understanding of geology and selecting the best rock strata to build them through. Features of the English Tunnel include:

• - Crete "Crete (rock)") on the cliffs on both sides of the Channel, without major faults.

• - Four geological strata, formed by marine sediments between 90 and 100 million years old. The upper two strata are formed by permeable chalk, above a third layer of slightly permeable chalk and a fourth impermeable layer of clay (from the Lower Cretaceous period). Between these last two strata, there is a thin layer of calcareous and gluconitic sand.

• - The layer of blue chalk (in French: "craie bleue") between 25 and 30 m thick, located in the lowest lower third of this material, was a priori the most suitable stratum of the Canal bed to excavate a tunnel. It is a relatively easy material to drill, requiring minimal support, and with a clay content of 30-40% that provides it with impermeability to groundwater.

The average depth of the Canal bed is 54 m, with a maximum of 180 m.[31]​ In the tunnel area, it did not exceed 70 m, so that the maximum depth of the tunnel grade with respect to sea level is 107.3 meters.[32]​.

The construction of the tunnel was financed by private companies, without state intervention, in exchange for the concession of its exploitation until 2052. A study carried out in 1984 by French and British banks considered the project viable. The British government, led by Margaret Thatcher, opposed public financing of the project, a position agreed with the French government in the Treaty of Canterbury.

The cost was 16 billion euros. The coordination difficulties between contracted and subcontracted companies and the technical difficulty of the project considerably increased costs.

Eurotunnel is a private company concessionaire of the project. It manages rail transport, collecting tolls from the railway companies that use the tunnel and exploiting freight and passenger traffic with its own means. Demand has been lower than expected, mainly due to low-cost airlines. Based on a forecast of 30 million passengers and 15 million tonnes of goods per year, in 2013 18.8 million passengers and 19 million tonnes of goods were transported, including trains (10.1 and 1.3, respectively) and ferries.

Following the change in safety regulations by the Channel Tunnel Safety Authority (CTSA) for passenger trains in the Eurotunnel, discussed (11/16/2009) with manufacturers and operators,[33] it granted the German operator DB in June 2013 Part B of the Safety Certificate, which recognizes that there is a Safety Management System that satisfies the community regulations for this section, that is, that it complies with the safety and organization procedures, which entitles DB to provide services through the Eurotunnel with any approved material.[34]​

This has nothing to do with the supposed homologation of the Velaro D trains since, in addition, the evacuation tests in the Channel Tunnel, carried out in October 2010, were carried out with a 3M ICE, the same one that was exhibited at London's St. Pancras station.[35]​

Part A of the certificate confirms that the Railway Company has a Safety Management System that satisfies European and national standards and requirements, in a harmonized manner throughout the European railway system; while Part B confirms the application of said Safety Management System to circulate through a certain infrastructure (a point-to-point route along a line). The Certificate is valid for five years, renewable for equal successive periods, provided that the regulatory conditions required for its granting are met.[36]​.

Subsequently, the UKBA (The UK Border Agency) explained that there will be no controls outside of the current ones (Lille, Paris and Brussels), and that it does not like DB's suggestion that the controls be done on board the trains. For its part, SNCF is doubling the capacity of the passport control area at Lille-Europe station.[37]​

Following this news, in addition to the difficulties in homologating the Velaro D even in Germany, DB has parked its plans to reach London, at least in this decade.[38]​.

Eurostar announced a service to Marseille for 2015[39]​ that will require a 1h 43m stop in Lille (bound to London) for baggage and passport control.[40]​.

The first column represents the number of passengers on Eurostar trains, the sixth and seventh columns represent an official estimate on transport on shuttle trains.

There are several incidents of this nature that have occurred in the Eurotunnel. Since its inauguration, four fires have occurred:

• - The first occurred in November 1996, when a truck caught fire, cutting off the tunnel for several months.

• - The second of them took place in August 2006, for the same reason, but this time without causing any damage.

• - Another occurred on September 11, 2008, when a freight train caught fire, interrupting all traffic and passenger service.

• - Finally, the last of the fires known so far occurred on January 17, 2015, when a truck caught fire at the French end of the tunnel. The accident forced the Eurotunnel to close for the entire day.

• - Annex:Large tunnels.

• - Eurostar.

• - TGV-TMST (Eurostar).

• - Wikimedia Commons hosts a multimedia category on Eurotunnel.