The Seebach-Wettingen railway electrification trial (1905-1909) was an important milestone in the development of

electric railways A railway electrification system supplies electric power to railway trains and trams without an on-board prime mover or local fuel supply. Electric railways use either electric locomotives (hauling passengers or freight in separate cars), e ...

Maschinenfabrik Oerlikon Maschinenfabrik Oerlikon was a Swiss engineering company based in the Zürich district of Oerlikon (Zürich), Oerlikon known for the early development of electric locomotives. It was founded in 1876 by the industrialist Peter Emil Huber-Werdmü ...

(MFO) demonstrated the suitability of

single-phase In electrical engineering, single-phase electric power (abbreviated 1φ) is the distribution of alternating current electric power using a system in which all the voltages of the supply vary in unison. Single-phase distribution is used when load ...

alternating current Alternating current (AC) is an electric current which periodically reverses direction and changes its magnitude continuously with time in contrast to direct current (DC) which flows only in one direction. Alternating current is the form in whic ...

at high

volt The volt (symbol: V) is the unit of electric potential, electric potential difference (voltage), and electromotive force in the International System of Units (SI). It is named after the Italian physicist Alessandro Volta (1745–1827). Defin ...

age for long-distance railway operation with the Seebach-Wettingen single-phase alternating current test facility. For this purpose, MFO electrified the 19.45-kilometre-long Swiss Federal Railways (SBB) route from Seebach to Wettingen at its own expense with single-phase alternating current at 15,000 volts.

Overview

By 1900, the use of

direct current Direct current (DC) is one-directional flow of electric charge. An electrochemical cell is a prime example of DC power. Direct current may flow through a conductor such as a wire, but can also flow through semiconductors, insulators, or eve ...

(DC), usually at 500-600 volts, to supply power to electric trams and trains was well-established. Examples include

Trams in Budapest The tram network of Budapest is part of the mass transit system of Budapest, the capital city of Hungary. The tram lines serve as the second most important backbone of the transit system (after the bus network), carrying almost 100 million more p ...

(from 1887) and the

Liverpool Overhead Railway The Liverpool Overhead Railway (known locally as the Dockers' Umbrella or Ovee) was an overhead railway in Liverpool which operated along the Liverpool Docks and opened in 1893 with lightweight electric multiple units. The railway had a number ...

(opened 1893). This was satisfactory for urban systems but, for long distance railways, a higher voltage was desirable to reduce energy losses. The 106 km

Valtellina Valtellina or the Valtelline (occasionally spelled as two words in English: Val Telline; rm, Vuclina (); lmo, Valtelina or ; german: Veltlin; it, Valtellina) is a valley in the Lombardy region of northern Italy, bordering Switzerland. Toda ...

line in Italy was electrified using three-phase

(AC) at 3,000 volts and opened on 4 September 1902. The system was designed by

Kálmán Kandó Kálmán Kandó de Egerfarmos et Sztregova (''egerfarmosi és sztregovai Kandó Kálmán''; 10 July 1869 – 13 January 1931) was a Hungarian engineer, the inventor of phase converter and a pioneer in the development of AC electric railway tract ...

and a team from the

Ganz Works The Ganz Works or Ganz ( or , ''Ganz companies'', formerly ''Ganz and Partner Iron Mill and Machine Factory'') was a group of companies operating between 1845 and 1949 in Budapest, Hungary. It was named after Ábrahám Ganz, the founder and the ...

Budapest Budapest (, ; ) is the capital and most populous city of Hungary. It is the ninth-largest city in the European Union by population within city limits and the second-largest city on the Danube river; the city has an estimated population ...

. This was an advance but the three-phase system had disadvantages. Two overhead wires were required and this limited the voltage because the two wires had to cross at junctions. The use of single-phase AC, which only required one overhead wire, had been held back by the lack of suitable motors. The three-phase system used induction motors but the single-phase

universal motor The universal motor is a type of electric motor that can operate on either AC or DC power and uses an electromagnet as its stator to create its magnetic field. It is a commutated series-wound motor where the stator's field coils are connected in ...

was in its infancy and problems were experienced with overheating and excessive sparking at the commutator. The Seebach-Wettingen trial used two different approaches. The first was to supply power at the standard 50 Hz

mains frequency The utility frequency, (power) line frequency (American English) or mains frequency (British English) is the nominal frequency of the oscillations of alternating current (AC) in a wide area synchronous grid transmitted from a power station to th ...

and use a

rotary converter A rotary converter is a type of electrical machine which acts as a mechanical rectifier, inverter or frequency converter. Rotary converters were used to convert alternating current (AC) to direct current (DC), or DC to AC power, before the adv ...

on the locomotive to convert this to direct current for the traction motors. The second was to use a low-frequency (15 Hz) supply to power universal motors on the locomotive. It was expected that the low frequency would minimise the overheating and sparking problems and this was the case. The test track was operated between 1905 and 1909 and provided evidence for the construction of

overhead line An overhead line or overhead wire is an electrical cable that is used to transmit electrical energy to electric locomotives, trolleybuses or trams. It is known variously as: * Overhead catenary * Overhead contact system (OCS) * Overhead equipm ...

and

pantograph A pantograph (, from their original use for copying writing) is a mechanical linkage connected in a manner based on parallelograms so that the movement of one pen, in tracing an image, produces identical movements in a second pen. If a line dr ...

types to allow operation with a voltage of 15,000. Because of the high voltage, the wooden passenger coaches were provided with a device that protected the passengers from the consequences of contact with drooping overhead lines.

Experimental operation at 50 hertz

At the suggestion of MFO, the Swiss Federal Railways (SBB) agreed on 31 May 1902 to set up a trial operation on the Seebach-Wettingen route with single-phase alternating current at 15,000 volts. This system allowed a higher overhead line voltage than usual at this time, and thus a greater distance between substations, and a single-wire instead of a two-wire overhead line as was then successfully in use on three-phase routes in northern Italy. Since the traction motors could not yet be operated with single-phase alternating current with the technology of the time, MFO first built the four-axle pilot locomotive No. 1 with a

, which converted the overhead line voltage of 15,000 volts AC into direct current for the operation of the

traction motor A traction motor is an electric motor used for propulsion of a vehicle, such as locomotives, electric or hydrogen vehicles, elevators or electric multiple unit. Traction motors are used in electrically powered rail vehicles ( electric multiple ...

s. The rotary converter system was patented, patent US754565 of 190

Before the start of operation of the test track, the electrification of the approximately 700-metre-long connecting track of their factory premises with the station at Seebach was completed by MFO and tests with the converter locomotive were started. On 16 January 1905, the regular test runs between Seebach and Affoltern were started with a timetable set by SBB. For these trips, until 10 November 1905, the converter locomotive No. 1 was used.

Experimental operation at 15 hertz

Operation with the converter locomotive did not continue for long. In the summer of 1904, MFO introduced locomotive number 2, with alternating current motors, but using 15 instead of 50 hertz. Thanks to the reduced frequency, as well as the compensation winding, the single-phase series motor developed by

Hans Behn-Eschenburg Hans Behn-Eschenburg (10 January 1864 – 18 May 1938) was born in Obertrass (now Zurich), Switzerland. His work on the AC single-phase motor was important to the electrification of railways. He studied mathematics and physics in Zurich and Be ...

at MFO had similar characteristics to a direct-current motor and sparking at the commutator was greatly reduced. The 50 Hertz overhead line led to strong interference on the telephone line from Zurich to Baden, which ran parallel to the railway line. The reduction in frequency to 15 hertz led to an improvement. Modification of the motors and the use of

twisted pair Twisted pair cabling is a type of wiring used for communications in which two conductors of a single circuit are twisted together for the purposes of improving electromagnetic compatibility. Compared to a single conductor or an untwisted ba ...

wiring on the telephone line caused the interference to cease. Despite the different electrical equipment, the mechanical parts of locomotives numbers 1 and 2 were similar, except that number 2 had two driver's cabs. The power supply was changed on 11 November 1905 from 50 Hertz to 15 Hertz and locomotive No. 2 took over the train operation. So that locomotive No. 1 could continue to be used, it was rebuilt with 15 Hz AC motors, to match No. 2, and the converter was removed. The two locomotives became the model for the low-frequency AC powered locomotives, as they were built until the 1970s, in Germany, Austria, Switzerland, Norway and Sweden. On 2 June 1906, the trial operation was extended to Regensdorf. For financial reasons, MFO accepted a proposal from

Siemens-Schuckert Siemens-Schuckert (or Siemens-Schuckertwerke) was a German electrical engineering company headquartered in Berlin, Erlangen and Nuremberg that was incorporated into the Siemens AG in 1966. Siemens Schuckert was founded in 1903 when Siemens & H ...

to participate in further experiments with a third locomotive. Locomotive No. 3 was delivered on 3 August 1907 but failed on 7 October 1907 with overheating problems.

Power generation

At Maschinenfabrik Oerlikon, a small steam power plant was built to supply the energy needed for the Seebach-Wettingen line. The tubular boilers in which the steam was produced for the turbine had a heating surface of 300 m² each and an output of 18,000 kilograms of steam per hour. The three-stage steam turbine ran at 3000 revolutions per minute. The three-phase current produced had a voltage of 230 volts and a frequency of 50 hertz to match the factory's existing power plant. The converter station with AC buffering was housed in a special building, which was located near the steam turbine plant. The two converter groups had a capacity of 700 and 500 kilowatts. The 375 element backup battery had a capacity of 592 ampere hours. Next to the engine room was the transformer room, in which four transformers increased the voltage of the single-phase current from 700 to 15,000 volts. The exact layout of the converter station is unclear but the presence of the batteries suggests that it used a back-to-back connection. The three phase AC would have been converted to DC and then the DC converted to single phase AC.

Catenary

;Seebach to Regensdorf On the section from Seebach to Regensdorf, MFO tested an

at the side of the track. The

current collector Electric current collectors are used by trolleybuses, trams, electric locomotives or EMUs to carry electrical power from overhead lines, electrical third rails, or ground-level power supplies to the electrical equipment of the vehicles. Those for ...

mounted on the roof of the locomotive, the so-called tail, consisted of a slightly curved tube with a replaceable contact strip. The tube was pressed by spring force against the contact wire and could describe more than a half circle, so that contact with the contact wire from above, from the side or from below was possible. Normally, the wire was located at the side of the track. The system proved unreliable at speeds above 50 km/hour. ;Regensdorf to Wettingen On the section from Regensdorf to Wettingen,

installed a standard

Catenary In physics and geometry, a catenary (, ) is the curve that an idealized hanging chain or cable assumes under its own weight when supported only at its ends in a uniform gravitational field. The catenary curve has a U-like shape, superfici ...

and, on 1 December 1907, operation was started. At the exit from Regensdorf station, the overhead line ran approximately 400 metres parallel to the side-mounted line so that the current collector could be changed while driving. The contact wire was located six metres above the rail above the middle of the track. To test a low contact wire height in tunnels and underpasses, the contact wire between Otelfingen and Würenlos was laid only 4.8 meters above the rails over a distance of one kilometre. The

(current collector) was usable for both directions of travel and could follow height differences of the overhead line even at high speeds. The lifting of the pantograph was done by compressed air.

After the trial

From 4 July 1909, the Seebach-Wettingen line was again operated with steam traction and the overhead lines were dismantled. Because it was a secondary line with easy gradients, SBB did not consider it economical for electric operation. Locomotives No. 1 and 2 were stored and, in 1919, were sold to SBB. Locomotive No. 3 returned to

Berlin Berlin ( , ) is the capital and List of cities in Germany by population, largest city of Germany by both area and population. Its 3.7 million inhabitants make it the European Union's List of cities in the European Union by population within ci ...

and was converted there into a DC locomotive. In 1944 it was destroyed in a bombing raid. Despite the cessation of operations, the attempt was successful. In 1907, MFO supplied railcars BCFe 4/4 to the Maggiatalbahn for operation at 5000 volts, 20 Hertz. In July 1910, the Bernese Alpine Railway Company Bern - Lötschberg - Simplon (BLS) opened its Spiez-Frutigen test track electrified at 15,000 Volts, 15 Hertz. In 1913,

Prussia Prussia, , Old Prussian: ''Prūsa'' or ''Prūsija'' was a German state on the southeast coast of the Baltic Sea. It formed the German Empire under Prussian rule when it united the German states in 1871. It was ''de facto'' dissolved by an ...

Bavaria Bavaria ( ; ), officially the Free State of Bavaria (german: Freistaat Bayern, link=no ), is a state in the south-east of Germany. With an area of , Bavaria is the largest German state by land area, comprising roughly a fifth of the total lan ...

and

Baden Baden (; ) is a historical territory in South Germany, in earlier times on both sides of the Upper Rhine but since the Napoleonic Wars only East of the Rhine. History The margraves of Baden originated from the House of Zähringen. Baden i ...

jointly defined a traction current frequency of 16⅔ Hz, whereupon the BLS also adopted this frequency. On 15 July 1913, the BLS started continuous operation between Spiez and Brig using 15,000 volts, 16⅔ Hertz. In the same year, the

Rhaetian Railway The Rhaetian Railway (german: Rhätische Bahn; it, Ferrovia retica; rm, Viafier retica), abbreviated RhB, is a Swiss transport company that owns the largest network of all private railway operators in Switzerland. Headquartered in Chur, the Rh ...

opened its Engadine line using 16⅔ Hertz, but with a voltage of 11,000 volts. From 7 July 1919, the SBB operated their feeder line from Bern-Thun to Lötschbergstrecke using 15,000 volts, 16 ⅔ Hertz and from 28 May 1922, the trains on the Gotthard route of the SBB began to operate electrically.

References

{{reflist

Sources

* Emil Huber: ''Elektrische Traktion auf normalen Eisenbahnen: Ausführung eines Vortrages.'' In: ''Schweizerische Bauzeitung'' (SBZ). (archived in: E-Periodica der ETH-Bibliothek):
''Teil I.''
In: SBZ, Volume 39 (1902), Issue 10 (PDF, 1.6 MB)
''Teil II.''
In: SBZ, Volume 39 (1902), Issue 11 (PDF, 6.8 MB)
''Teil III und Schluss.''
In: SBZ, Volume 39 (1902), Issue 12 (PDF, 3.8 MB) * W. Kummer
''Messresultate und Betriebserfahrungen an der Einphasenwechselstromlokomotive mit Kollektormotoren auf der Normalbahnstrecke Seebach-Wettingen.''
In: ''Schweizerische Bauzeitung'' (SBZ), Volume 48 (1906), Issue 13. (archived in: E-Periodica der ETH-Bibliothek. PDF, 5.2 MB) * W. Kummer: ''Seebach-Wittingen: technische und wirtschaftliche Ergebnisse der elektrischen Traktions-Versuche.'' In: ''Schweizerische Bauzeitung'' (SBZ). (archived in: E-Periodica der ETH-Bibliothek):
''I. Vorbereitung und Durchführung des Versuchsbetriebes.''
In: SBZ, Volume 54 (1909), issue 4 (PDF, 2.6 MB)
''II. Elektrotechnische und maschinentechnische Ergebnisse.''
In: SBZ, Volume 54 (1909), Issue 5 (PDF, 1.6 MB)
''(continued)'' and ''III. Betriebstechnische und wirtschaftliche Ergebnisse.''
In: SBZ, Volume 54 (1909), Issue 6 (PDF, 3.6 MB)
''(conclusion)''
In: SBZ, Volume 54 (1909), Issue 7 (PDF, 1.5 MB) * Hugo Studer: ''Die elektrische Traktion mit Einphasenwechselstrom auf der S.B.B.-Linie Seebach-Wettingen.'' In: ''Schweizerische Bauzeitung'' (SBZ). (archived in: E-Periodica der ETH-Bibliothek):
''I. Allgemeines und Baudaten.'' and ''II. Krafterzeugungs-Anlagen.''
In: SBZ, Volume 51 (1908), Issue 15 (PDF, 6.8 MB)
''III. Die Fahrleitung. a) Rutenleitung.''
In: SBZ, Volume 51 (1908), issue 16 (PDF, 4.8 MB)
''III. Die Fahrleitung. b) Die Bügelleitung.''
In: SBZ, Volume 51 (1908), issue 17 (PDF, 7.0 MB)
''IV. Lokomotiven. a) Lokomotive Nr. 1, als Umformerlokomotive.'' und ''b) Lokomotive Nr. 2.''
In: SBZ, Volume 51 (1908), Issue 19 (PDF, 5.9 MB)
''IV. Lokomotiven. c) Lokomotive Nr. 3.'', ''d) Die Lokomotive Nr. 1'', ''V. Beeinflussung der Schwachstrom-Anlagen.'' and ''VI. Betriebsleistungen.''
In: SBZ, Volume 51 (1908), Issue 20 (PDF, 9.0 MB)
''Seebach-Wettingen: die Wiege der Elektrifikation der Schweiz. Bundesbahnen.''
In: ''Schweizerische Bauzeitung'' (SBZ), VOlume 119 (1942), Issue 9. (archived in: E-Periodica der ETH-Bibliothek. PDF, 8.6 MB) 15 kV AC railway electrification History of rail transport in Switzerland