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Wikipedia

Orenstein & Koppel

November 16, 2023

"O&K" redirects here. For other uses, see OK.

Orenstein & Koppel (normally abbreviated to "O&K") was a major German engineering company specialising in railway vehicles, escalators, and heavy equipment. It was founded on April 1, 1876, in Berlin by Benno Orenstein and Arthur Koppel.

Orenstein & Koppel
Orenstein und Koppel
TypePublic
IndustryManufacturing
FoundedApril 1, 1876 (1876-04-01)
FounderBenno Orenstein
Arthur Koppel
DefunctJanuary 1, 1999 (1999-01-01)
FateAcquired
Area served
Worldwide
ProductsRailway vehicles
Heavy equipment
Escalators
ParentNew Holland Construction

Originally a general engineering company, O&K soon started to specialise in the manufacture of railway vehicles. The company also manufactured heavy equipment and escalators. O&K pulled out of the railway business in 1981. Its escalator-manufacturing division was spun off to the company's majority shareholder at the time, Friedrich Krupp AG Hoesch-Krupp, in 1996, leaving the company to focus primarily on construction machines.[1] The construction-equipment business was sold to New Holland Construction, at the time part of the Fiat Group, in 1999.[2][3]

Founding and railway work edit

 
Steam engine manufactured for Patiala State Monorail Trainways at National Rail Museum, New Delhi

The Orenstein & Koppel Company was a mechanical-engineering firm that first entered the railway-construction field, building locomotives and other railroad cars.

First founded in 1892 in Schlachtensee, in the Zehlendorf district of Berlin, and known as the Märkische Lokomotivfabrik, the O&K factories expanded to supply the Imperial German Army under Kaiser Wilhelm II with field-service locomotives, or Feldbahn. O&K supplied all manner of railway equipment to the Army. Because of strained capacity at the Schlachtensee shops, work transferred in 1899 to a site in Nowawes, later Babelsberg, near Potsdam. Around 1908, O&K acquired the firm of Gerlach and König in Nordhausen, building petrol and diesel locomotives there under the trade mark "Montania".

Diversification edit

 
Excavator from O&K
 
Siemens-Schuckert Orenstein & Koppel underground trains built for the Buenos Aires Underground from 1934 to 1944.

O&K expanded to build freight and passenger cars, and above all, excavators for construction. The company also built other heavy equipment, including graders, dump trucks, forklift trucks, compressors, crawler loaders, wheeled loaders, road rollers, and truck cranes.

The company also began manufacturing escalators, transmissions, rapid-transit railway lines, buses, tractors, and cargo ships. Passenger liners, shipboard cranes, and shipbuilding enterprises rounded out the company's profile. Because of the company's thriving export business, a worldwide system of branch offices was created.

In the early years of the 20th century, O&K built bucket chain trenchers, at first from wood, and—after 1904—completely from steel. These were propelled by steam or oil engines. O&K also made railway trenchers for work in heavy soils.

In the First World War, O&K built railway engines and cars of all sizes for the German government. With the collapse of Imperial Germany in November 1918, the victorious Allies put further restrictions on German manufacturing and military capacity, seizing all army Feldbahn engines as per the terms of the Versailles Treaty that ended the First World War. The treaty also removed access to export markets; at the end of 1925, work stopped for three months as a result of the lost business. By 1935, business had recovered and the company produced 5,299 locomotives.[citation needed] After the war, O&K's American subsidiary, the Orenstein-Arthur Koppel Company, was seized by the Alien Property Custodian and sold at an auction where only United States citizens were allowed to place bids.[4]

Besides the Feldbahn contracts, the company produced Series 50 steam locomotives and standard gauge vehicles in the 1930s. They also delivered some broad gauge CSÉT shunting locomotives with a gauge of 5 ft 3 in (1,600 mm) to the Irish Sugar Company (Comlucht Siúcre Éireann) in Ireland (2 of which have been preserved). The company produced diesel locomotives, and Series 44 and Series 50 steam engines, for the national railway company, Deutsche Reichsbahn-Gesellschaft.

In 1922, they manufactured their first continuous-track steam shovel. In 1926, diesel engines replaced steam engines; the company converted earlier steam units to diesel power as the need arose. O&K merged with a kerosene-engine builder, selling the engines under the O&K banner.

Nazi era and the Second World War edit

 
Kriegslokomotive built by O&K

At the Spandau factory, O&K built cable-operated excavators and bucket-wheel excavators for use in the lignite coal mines of eastern Germany. Under the Aryanisation scheme of Adolf Hitler's Nazi Germany, the Orenstein family's shares in the company were forcibly sold in 1935; Orenstein and Koppel was placed under trust administration, and the Babelsberger works were taken over and renamed in 1941. O&K existed in name only, but more commonly used the abbreviation MBA (Maschienenbau und Bahnbedarf AG).

After heavy bomb attacks on Berlin caused a fire in the company's plant-administration buildings, factory production minister Albert Speer redistributed work and factories around the country to lessen the risk from a single attack. For the remainder of World War II, no more locomotives were built in Berlin. Four hundred and twenty-one locomotives already under construction were shifted to Prague to protect the existing factories. During the war, O&K provided 400 Class 52 locomotives.

East Germany edit

After the end of the war, the locomotive plant in Nordhausen went idle. Under the German Democratic Republic, O&K changed its name to the VEB Company, and resumed heavy mechanical manufacturing at Nordhausen, producing cable-operated excavator shovels, among other things.

 
Excavator from O&K in 1957

By 1946, the Babelsberg factory resumed production of locomotive boilers, and one year later the plant delivered its first postwar locomotive.

The German Democratic Republic nationalised the railroads and rolling stock manufacturers. The O&K plants in Babelsberg were renamed the LOWA Lokomotiv Plant Karl Marx (LKM). The LKM became the sole manufacturer of diesel locomotives for the GDR, such as the large DRG V180. In the late 1950s, the plant developed steam and diesel engines for the Deutsche Reichsbahn narrow-gauge railways, building approximately 4,160 engines.

Construction of steam locomotives ended in 1969, leaving diesel-hydraulic locomotives as the company's priority. The company's last diesel locomotive was the DB Class V 60D, manufactured until 1976. Over the course of 30 years as LKM, the company produced approximately 7,760 locomotives; about a third of that number were manufactured for export.

By 1964, the company had expanded into air-conditioning and refrigeration technology.

West Germany edit

In West Germany, the enterprise resumed operation after World War II in 1949, under the name Orenstein & Koppel AG, with headquarters in Berlin. In 1950, it incorporated under that name after merging with the Lübecker Crane Company. After the construction of the Berlin Wall in 1961, the head office moved to Dortmund.

By the mid-1970s, the enterprise had grown steadily. In 1972, O&K had five working plants: West Berlin, Dortmund, Hagen, Hattingen/Ruhr, and Lübeck; it maintained a central spare-parts service in Bochum. That year, the company had 8,530 employees. The company had 24 business and sales offices in West Germany, and agencies on all five populated continents.

The West German company emphasised the manufacture of railroad cars and construction equipment, particularly excavators. In 1961, O&K manufactured Europe's first series of fully hydraulic excavators. They manufactured over 55,000 hydraulic excavators; more than 700 of those were rated at over 100 tons' service weight. O&K also manufactured the world's largest hydraulic excavator,[citation needed] at 900 tons' service weight with a shovel capacity of over 52 cubic metres (68 cu yd) and an engine output of 2,984 kilowatts (4,055 HP).

The company also diversified into escalator manufacturing.

O&K excavator RH40-B in action at the open pit mining site Lhoist in Menden, Germany

Decline edit

After 1964, the railway-manufacturing unit was separated from the other production units.

The railway business was transferred to Bombardier, which continues to manufacture rolling stock in Berlin. The Babelsberg site became an industrial park.

The escalator-manufacturing division was sold to the company's majority shareholder at the time, Friedrich Krupp AG Hoesch-Krupp, in 1996.[1]

The construction-equipment business was sold to New Holland Construction, at the time part of the Fiat Group, in 1999.[2][3]

Steam locomotives edit

Tank locomotives with two coupled axles (Type 0-4-0) edit

 
0-4-0, 20 hp, 600 mm, 5.4 t
 
0-4-0, 50 hp, 750 mm, 8.8 t
 
0-4-0, 160 hp, 900 mm, 21 t
 
0-4-0, 110 hp, 1,435 mm (4 ft 8+12 in), 17.5 t
 
0-4-0, 250 hp, 1,435 mm (4 ft 8+12 in), 28 t

Based on O&K's experience, they have created a number of type 0-4-0 standard designs, which have proven to be particularly suitable for many companies. Locomotives of these standard designs were always under construction, and locomotives of the most common strengths were always in stock, so that they could be dispatched immediately on request. Two-axle locomotives were mainly used by construction companies and industrial establishments; accordingly, special emphasis was placed on simple and practical construction. In particular, the locomotives were characterised by high tractive power, while the smaller types were generally based on a lower speed in favour of tractive power.[5]

The standard-gauge locomotives in this category were particularly suitable for shunting and for operating purposes on branch lines.[5]

For light railways, especially for narrow-gauge railways, with steep gradients, tight curves and generally a light superstructure and substructure, locomotives with only two axles did often not meet the requirements in terms of tractive force and caused wear of the track and the wheel tyres due to their wheel load. Therefore, larger locomotives with more axles were available, as shown below.

Tank locomotives with three coupled axles (Type 0-6-0) edit

 
0-6-0, 20 hp, 600 mm 5.8 t, coal fired
 
0-6-0, 50 hp, 750 mm, 10.2 t, wood fired
 
0-6-0, 70 hp, 900 mm, 13.2 t, coal fired
 
0-6-0, 140 hp, 1000 mm, 19.500 t, coal fired

As with the two-axle coupled locomotives, the full weight of the machines with three coupled axles was used as adhesion weight. However, since the wheel pressure was distributed over six wheels instead of four, locomotives of this category could run on much lighter rails than two-axle locomotives with the same weight and therefore the same tractive force. This type of locomotive could therefore be used wherever the existing track required the most powerful locomotive possible without exceeding the permissible wheel pressure, or where the superstructure was to be constructed relatively lightly. Particularly on longer lines, the latter was considered for the sake of substantial savings. However, the track curves must be larger when using this locomotive than with the four-wheelers.[6]

Locomotives with two coupled axles and one svivelling axle (Types 2-4-0 or 0-4-2) edit

 
Locomotive with two coupled axles, one front svivelling axle and a separate tender, 50 hp, 750 mm, 9.5 t
 
Locomotive with two coupled axles and one rear svivelling axle, 40 hp, 700 mm, 10 t

If the locomotive had to travel through small curves with a light superstructure, it was advisable to purchase a locomotive with two axles and a svivelling axle. This type was especially suitable for longer distances because, it allowed a light superstructure and was also able, to carry larger supplies than 0-4-0 locomotives with the same wheel pressure. The design also had the advantage that the centre of gravity could be set lower than on other types. This, together with the large wheelbase, gave the machines a particularly smooth ride. It could also run at a relatively higher speed, so that, according to the above, it was mainly suitable for small railways and feeder lines. Depending on the particular conditions, O&K installed the svivelling axle at the rear or at the front, but always in such a way that the greatest possible adhesive weight was maintained. Since the full weight of this type of machine could never be used as the adhesive weight, this construction was less suitable for carrying large loads. For such cases OK recommended the use of multi-axle coupled locomotives of the Gölsdorf type or, if small curves were available, to the locomotives of the Mallet or Klien-Lindner type, as shown below.[7]

Coupled compound locomotives (Type 0-4-4-0, Mallet design) edit

 
0-4-4-0, 90 hp, 600 mm, 15 t
 
0-8-0, 110 hp, 800 mm, 22 t

In many cases, where 0-4-0 or 0-6-0 steam locomotives were no longer sufficient, O&K built 0-4-4-0 or 0-6-6-0 compound locomotives, Mallet design, which supplemented the more conventional looking 0-4-2 locomotives (in Germany categorized as 2×2/2 and 2x3/3 double compound locomotives in comparison to the more conventional looking 2/3 locomotives). Apart from the possibility of being used on light superstructures and small curves, the locomotive had the advantage of great tractive power due to the composite arrangement of the cylinders, as the full weight was used as adhesion weight. The design was such that the boiler, driver's cab and storage boxes were connected to the rear frame, which carried the high-pressure cylinders, while the front frame, on which the low-pressure cylinders were located, was connected to the rear frame by two vertical hinges. The boiler with the water boxes rested on a slide track of the front frame, so that the latter could move freely under the boiler. The steam passed from the regulator in fixed pipes to the high-pressure cylinders and, after expansion in these, through an absolutely steam-tight, flexible, well-insulated pipe to the low-pressure cylinders. The exhaust steam entered the exhauster through a vertical movable pipe. A special valve made it possible to feed boiler steam directly to the low-pressure cylinders, so that all four cylinders came into operation immediately when the locomotive was started-up.[8]

Locomotives with coupled hollow axles with radial and lateral movement (Klien-Lindner design) edit

 
0-8-0, 20 hp, 750 mm
 
0-4-0, 90 hp, 600 mm
 
0-6-0, 140 hp, 1000 mm
 
0-8-0, 160 hp, 750 mm

For railways with steep gradients and relatively light track construction, locomotives with two or three coupled axles often did not meet the requirements of increased traffic. Due to the high costs involved, the existing tracks could often not be converted, and heavier locomotives with a larger number of axles were used. Where small curvatures precluded the use of long, fixed wheelbases, locomotives with steerable bogies or, for the sake of simplicity, locomotives with curvilinear coupled axles were often used. The acquisition of such locomotives was also advisable for such new designs where the track systems and bridges were easier and cheaper to build. Since 1901, locomotives with coupled hollow axles have been built in particular according to the Klien-Lindner design, which has proved extremely successful in operation. The advantages of this design were:

  1. Large tractive force at a given permissible wheel pressure
  2. Large wheelbase with the best curve mobility and equal spring loading on both sides of each end axle and thus safe running of the locomotive
  3. Shock-free running into curves, as well as safe return to the centre position when running on straight track
  4. Equally good running when driving forwards and backwards
  5. Low wear of the rails and wheel tyres
 
Locomotives with coupled hollow axles with radial and lateral movement (Klien-Lindner design)

The arrangement and mode of operation was as follows: The laterally and radially movable coupled axle was installed as the end axle, and in the case of eight- or ten-wheelers, these steering axles arranged at both ends ensured that the locomotive could enter the curves without difficulty. All axles were coupled in the usual way by fixed rods and mounted in axle bushes "bb" outside the wheels, following the spring play. The axle bushes sit in a continuous, fixed frame on which the steam cylinders are arranged in the usual way. The steering axle consists of a core axle "a" fixed in "bb" and driven in the usual way, and a hollow axle "c" which is firmly connected to the wheels and can be moved laterally and radially and which encloses the core axle, which is provided with a ball attachment in the middle, by means of a two-part ball cup "d".[9]

The load on the axle was distributed by the ball pivot of the core axle "a" as it were by a transverse balancer on both wheels of the axle and thus equal wheel pressures and safety against derailment are obtained. The hollow axle is driven by a driving pin "f" pressed into the ball pivot of the core axle with sliding pieces at both ends, which have the necessary lateral play in the housing of the hollow axle for the deflection of the axle. In order to return the hollow axle to its central position after deflection, either return springs are arranged in the central housing, or, as can be seen in the following illustration, counter-guides "g" are arranged which, by means of brackets, enclose the hollow axles in the auxiliary bearing positions "ee" and effect unconstrained, shock-free adjustment of the hollow axle, since both end axles must execute their radial or lateral movement simultaneously. In order to counteract the unsteady running of the steering axles on the track and any lurching of the locomotive, these locomotives are fitted with an adjustable safety device which holds the drawbar frames in the central position on the track by means of spring tension; no pressure is exerted against the bearing points with this resetting device. These axles do not require any maintenance except for periodic lubrication. The periodic lubrication mentioned is only necessary at intervals of 1 to 2 months and is carried out after loosening the two lubricating screws "s" located on the centre of the axle by introducing grease or viscous oil into the sliding boxes of the driving pin. Only during a general inspection of the locomotives is it necessary to also inspect the hollow axles to make sure that the internal parts are in good condition.[10]

O&K have used the Klien-Lindner axles for the Royal Prussian State Railways and many other railway in large numbers. The administration of the military railway has also introduced 0-8-0 locomotives with steerable coupled axles in place of the 0-6-0 field railway locomotives previously built.

Locomotives with laterally movable coupled axles (Gölsdorf design) edit

 
0-8-0 locomotive with laterally movable Gölsdorf axles, 60 hp, 750 mm (2 ft 5+12 in), weight 14 t
 
Principle of the Gölsdorf axles shown on a ten-coupled steam engine

Locomotives of the Gölsdorf design were only suitable for lines, on which there were relatively few and large curvatures. In this case it was sufficient to shift one or more coupling axles sideways in such a way that the movable axles were not guided in their axle bearings but by their own flanges. The bearings of the coupling rods have the same lateral play on their journals as the axles in the axle bearings. This type of construction has proven itself well on eight- and multi-wheel locomotives, but it was not suitable for very small curvatures. In terms of performance and even load distribution, etc., it was equivalent to the more common Klien-Lindner locomotives. They were used for main, branch and small railways.[11]

Two of the five axles of a ten-wheel locomotive could move sideways relative to the frame because their axle boxes fixed them rigidly to the frame. The other axles, however, were fitted into their bearings and attached to their drives in such a way that they can be moved sideways during curve running, depending on the sideways forces acting on them. In addition the connecting and coupling rods, through which linear forces from the steam pistons were translated into the rotation of the wheels via the crank pins, also had to be able to move sideways.

Tramway locomotives (Type 0-4-0) edit

 
An early oil fired locomotive, possibly O&K 2900/1908, 20 hp, metre gauge, 0-4-0, 7.7 t, often listed as coal fired
 
O&K tramway locomotive, 30 hp, metre (3 ft 3⅜ in) gauge, 0-4-0, service weight ca 8.75 t
 
O&K 797/1901 of Societa Guidovia Camuna, 50 hp, metre gauge, 13 t

O&K built tramway locomotives, which were used for operation on tramways serving public traffic, either with a driver's cab at the front and rear or with only one driver's cab in the middle of the locomotive; furthermore with a power unit cover in two different designs. Whereas one version only served to conceal the engine from road traffic, the other version served to protect the engine parts against dust. The desired type of covering is to be specified. The weight of this locomotive was relatively high and therefore it could develop a great performance immediately when starting up, even on short gradients. This was effectively supported by a high steam overpressure, which O&K usually provided for these locomotives with 14 bars (200 psi).[12]

The fairing of all moving parts was intended to protect other road users such as pedestrians from serious injuries in case of accidents. It also prevented horses from shying and protected the transmission from dirt and dust on the unpaved roads that were common at the time. Often there was no stoker on tram locomotives, which meant they were operated by the driver in one-man operation. The short axle stands also ensured that narrow curves could be negotiated in city centres. Often, standing boilers were used for reasons of space.

Mining and tunnel locomotives edit

 
40 hp, 600 mm
 
70 hp, 600-750 mm
 
With retractable chimney
 
Compressed air locomotive

For operation in tunnels or mine, O&K built locomotives in compliance with specific profiles. In the case of steam locomotives, it was possible to run them at high speed by fitting suitable devices and using particularly large boilers that could store a larger quantity of steam before passing through the tunnel. For use during tunnel construction or in underground mines, steam locomotives with oil firing equipment were particularly suitable, whereby smoke development and spark emission did not take place. The handling of these locomotives did not differ in any other respect from that of an ordinary locomotive. Furthermore, fireless locomotives were also very suitable for operation in tunnels and mines, as they completely avoid the nuisance of smoke, gases and sparks. Compressed air locomotives, which, however, required a special stationary system to generate the compressed air were also made and sold in smaller numbers.[13]

Fireless locomotives edit

 
Four-wheel fireless locomotive, empty 8 t, built to any gauge
 
Fireless locomotive for standard gauge, service weight 15 tons
 
Fireless locomotive for 600 mm or 2 ft gauge, service weight 4.8 tons
 
Fireless locomotive for mines, 500 mm (19+34 in) gauge, weight 3.9 tons

Fireless locomotives were particularly suitable for use inside factories, yards etc., where it was essential to secure absolute freedom from any risk of fire. They were largely used for shunting purposes for paper mills, oil mills, wool mills, timber yards, gunpowder factories and similar works. These locomotives were constructed without fire boxes, the necessary steam being taken from a stationary boiler. The locomotive is able to work for several hours with one filling and can be operated with minimum expense as the driver needed less skills than that of a conventional steam engine.[14]

Rack locomotives edit

 
O&K 7000/1914, 30 hp, 600 mm (1 ft 11+58 in) gauge, 0-4-0T, So­cié­té Chiron Frères, Chambéry for adhesion and rack operation
 
O&K 2365/1907, 125 hp, 850 mm (2 ft 9+1532 in), 0-4-0T, Gewerk­schaft Vereinigte Burgholzhausen, Herdorf (Kunsterthalbahn)[15]

O&K delivered several types of cogwheel locomotives for mixed railways, on which ordinary operation alternated with cogwheel operation. Mixed railways were used in changing terrains with only single steep gradient, which could not be negotiated by ordinary adhesion locomotives. Accordingly, only these steep gradients were equipped with toothed bars. The mode of operation was as follows: The two steam cylinders outside the frame drove the driving gearwheel for the rack by means of a double gearing with the appropriate transmission. This driving gear wheel sat on a special axle fixed in the frame and was connected to the friction axles by coupling rods, so that the gear wheel axle and friction axles were driven simultaneously. The locomotives could therefore run on normal rail tracks as well as on toothed tracks. On the toothed track, the driving gear and the friction wheels worked together. The effect of the latter was also utilised on the toothed track and the load on the rack was relieved accordingly. The locomotives worked either on a simple flat steel rack or on Riggenbach ladder rack.[16] A cumulative number of only 6 to 9 rack steam locomotives were made by O&K in total. Their track gauge ranged from 400 mm (15+34 in) to 1,300 mm (4 ft 3+316 in).[17]

Locomotives with a separate tender edit

 
Locomotive with six coupled wheels and front bissels, type 2-6-0, for coal, service weight 28.3 t + 21.5 t, built for a Chinese Railway
 
Eight-wheel coupled locomotive, type 0-8-0, 150 hp, 2ft 6in gauge for wood fuel with separate tender, built for Siam

Locomotives with a separate tender did not carry all their fuel and water on board the locomotive and were thus particularly useful for travelling long distances without being refuelled. The locomotives were equipped to be either heated by coal, wood or oil, because a larger heating and grate area were required. The main types had from four to twelve wheels for the locomotive and four, six or eight wheels on the tender.

The water tanks were firmly fastened to the frame of the tender, while maintaining a low centre of gravity. The coupling between locomotive and tender was similar to that of the waggons, to ensure that the locomotive could be driven without the tender for shunting or on short distances. The tender was easily accessible from the engineer's cab. If the locomotive was heated by wood, the tender had a special fence to increase the volume of its load.

Coupled compound locomotives (Type 0-6-6-0, Kitson-Meyer design) edit

 
O&K 11350/1927 (Type 0-6-6-0, Kitson-Meyer design) for Puente Alto-El Volcán Railway

After Orenstein & Koppel (O&K) had delivered the prototype of a Kitson-Meyer locomotive for the 600 mm gauge to the Chilean military railway in 1927, an order for three locomotives followed in 1937. In 1939, the locomotives with the factory numbers 13306 to 13308 were completed. The locomotives had riveted bridge and bogie frames. The boiler, cab, reservoir and ash box were also riveted. The engines located at the two bogie ends worked on the centre axle set. This wheelset could also be sanded. The control system was of the Heusinger type. While the prototype had a Westinghouse brake, the production locomotives had a Knorr brake. The air pump was attached to the rear water tank, while the main air tank was above it on the water tank. The locomotive had electrically operated headlights.

Due to the beginning of the Second World War, the vehicles could not be delivered to Chile. They were then tested by O&K on the Rehagen-Klausdorf army training area and probably also on lines of the Mecklenburg-Pomeranian narrow-gauge railway. In 1944, the Deutsche Reichsbahn acquired the locomotives to use them on lines in occupied Poland. Therefore, in the second half of the same year, they were handed over to Gedob Direktion Krakow, where they were stationed at BW Jedrzejow.[18]

List of Orenstein & Koppel narrow-gauge steam locomotives edit

The list of Orenstein & Koppel narrow-gauge steam locomotives shows photographically documented samples of representative Orenstein & Koppel (O&K) steam locomotives with a gauge of less than 1,435 mm (4 ft 8+12 in). The factory produced 14,387 steam locomotives from 1899 to 1945 at its Berlin site (Drewitz, Nowawes, Babelsberg) with the works number range from 337 to 12965.

Works
No		 Year Photo Wheel
arrangement		 Gauge Power Use
366 1899   0-4-0 600 mm (1 ft 11+58 in) 20 hp Delivered via the O&K sales office in Budapest to Earl Károly Imre in Nagymágócs near Oroszhaza. 1941 used at the fortifications in Szolyva and in 1945 returned to Mattersburg in Austria. Now being operated in Feld- und Industriebahnmuseum Freiland, Austria.[19]
367 1899   0-4-0 600 mm (1 ft 11+58 in) Delivered via the Swedish general agent Carl Ström to the Hamra–Tumba Järnvägen of Gustaf de Laval on Gotland in Sweden. From 1916 owned by the construction company Byggnads AB, who sold it to the city of Stockholm in 1917 for work on Hammarbyleden.[20]
1899   0-6-0 FL Fireless locomotive
418 1899   0-6-0 785 mm (2 ft 6+2932 in) Bröl Valley Railway, BTE 14–17
531 1900   0-4-2 600 mm (1 ft 11+58 in) 60 hp Initially at sugar mill Nakel (Cukrownia Nakło), now Narrow Gauge Railway Museum in Wenecja, Poland[21]
533 1899   0-6-2 600 mm (1 ft 11+58 in) 60 hp Kleinbahngesellschaft Krone, für Wirsitzer Kleinbahn '9'
576-578   0-4-4-0
Mallet		 750 mm (2 ft 5+12 in) 120 hp Kalan
591 1900   600 mm (1 ft 11+58 in) 80 hp KirchlengernHille railway (Wallückebahn) in Germany
596 1900   Initially 0-4-0, later 0-6-0 1,000 mm (3 ft 3+38 in) 125 hp Soest No 9 of the Ruhr-Lippe-Eisenbahngesellschaft in Germany
614 1900   0-4-0 750 mm (2 ft 5+12 in) 30 hp Initially Pakis Baru 1, now Statfold Barn Railway
617   0-6-2 750 mm (2 ft 5+12 in) 100 hp Two-cylinder locomotive with three coupled axles and one radial axle. Steam bell, outer frame, upper water tanks. Delivered to the Rosenberger Kreisbahn
683 1900   0-4-0 508 mm (1 ft 8 in) 10 hp Dinty, Cosmopolitan Proprietary Mine, Kookynie, Western Australia[22][23]
ca 1900   0-4-0 610 mm (2 ft) Moira Coal Mine, Collie, Western Australia
ca 1900   0-4-0 Sugar cane plantation of the Nederlandsch-Indische Spoorwegen
ca 1900   Douglas, Port Douglas Tramway from Mossman to Port Douglas in Queensland, Australia
687 1901   0-4-0 600 mm (1 ft 11+58 in) 20 hp Ceper 2, PG Gondang Baru, Klaten, Indonesia
718 1901   0-4-0 610 mm (2 ft) 30 hp Magnet № 2, Magnet Silver Mining Co, Tasmania,[22] now Wee Georgie Wood Railway
719 1901   0-4-0 610 mm (2 ft) 30 hp Ordered by North Mount Farrell Mining in Tasmania but not operated there, later Cairns Town Council, Edge Hill Tramway, Queensland[22]
723 1900   0-4-0 610 mm (2 ft) 30 hp Kearsney–Stanger Light Railway in the Colony of Natal (now KwaZulu-Natal in South Africa)[24]
724 1900   0-6-0 610 mm (2 ft) 50 hp Kearsney–Stanger Light Railway in the Colony of Natal (now KwaZulu-Natal in South Africa[25]
725   4-2-0 600 mm (1 ft 11+58 in) 40 hp Monte Alegre for the Usina Monte Alegre sugar mill in Piracicaba in São Paulo Brazil
731 1902   0-4-2 610 mm (2 ft) 40 hp East Murchison United Ltd, Lawlers, Western Australia[22]
772 1901   0-4-2 600 mm (1 ft 11+58 in) 60 hp Jatiroto J70, Jatiroto, PG Jatiroto, Indonesia
773 1901   0-4-2 600 mm (1 ft 11+58 in) 60 hp Ngadirejo 71, PG Ngadirejo, Kediri, Indonesia
777 1901   0-4-2 600 mm (1 ft 11+58 in) 60 hp Pajarakan 2 Kelut, PG Pajarakan, Probolinggo, Indonesia
ca 1901   0-4-2 700 mm (2 ft 3+916 in) 60 hp Tender locomotive with open cab, traction pump, suspension, hand bell, melting plug. Built according to Dutch-Indian regulations. Delivered to India.
810   0-4-0 The so-called Stink Express disposed waste and sewage sludge in Jodhpur, Rajasthan, India
819 1901   0-4-0 825 mm (2 ft 8+12 in) 20 hp Burdekin, James Boyd, firewood supplier, Charters Towers, Queensland, Australia[22]
851 1902   0-4-0 600 mm (1 ft 11+58 in) 30 hp Initially P. Dinndorf, Strasbourg, now agricultural museum in Eschach-Seifertshofen, Germany
882 Delivered 1901   0-4-4-0
Mallet		 610 mm (2 ft) Magnet Tramway No. 2, Tasmania. Supplied by Central Mining & Tramway Appliances Proprietary Ltd 1901.[26][22]
893 1901   0-4-2 600 mm (1 ft 11+58 in) 60 hp Merican 4, PG Merican, Kediri, Indonesia
894 1901   0-4-2 600 mm (1 ft 11+58 in) 60 hp Merican 6, PG Merican, Kediri, Indonesia
898 1901   0-4-2 600 mm (1 ft 11+58 in) 60 hp Rejosari 1 PG Rejosari, Madiun, Indonesia
930 1902   0-4-4-0
Mallet		 600 mm (1 ft 11+58 in) 80 hp No 5 Hamra, Östra Södermanlands Järnväg, Sweden
ca 1902   0-4-4-0
Mallet		 600 mm (1 ft 11+58 in) Toul № 1, Public works company Estrade-Taher, France
ca 1902   0-4-0 1,000 mm (3 ft 3+38 in) 125 hp Two-cylinder compound locomotive with two coupled axles. Supplied to the Ruhr-Lippe-Kleinbahnen. Steam bell, vacuum brake (König system), central lubrication device
ca 1902   0-4-0
ca 1902–1912   0-4-4-0
Mallet		 750 mm (2 ft 5+12 in) Sigi railway, Tanzania
1001 1905   0-6-0 107 hp Asturias, № 6, narrow gauge railway Valdepeñas–Puertollano (El trenillo de La Calzá), Spain[27]
1080 1903   0-6-0 1,000 mm (3 ft 3+38 in) Sold to Jallut via the Orenstein & Koppel office in Brussels[28]
1089   0-4-4-0
Mallet		 1,000 mm (3 ft 3+38 in) Lenz Type ii, built by Orenstein & Koppel, No 11–16
1166 1903   0-4-0 600 mm (1 ft 11+58 in) 50 hp Minas de Utrillas[29]
1162 1903   0-4-0 750 mm (2 ft 5+12 in) 80 hp Initially Jacob & Bartisch construction company, Leipzig, later lignite mine Concordia, Nachterstedt, from 1930 lignite mine Gewerkschaft Humboldt, Thüste-Wallensen 8, since 1966 exhibited at the playground Seelze-Letter, since 1994 Emmerthal-Lüntorf, since 1996 narrow gauge museum Rittersgrün, Saxony, Germany
1167 1903   Bn2t 600 mm (1 ft 11+58 in) 50 hp Turba 3, Minas de Utrillas, Spain, since 1983 at the heritage railway Paderborn, since 1985 Guldental 1, Heddesheimer Feldbahn H&G Faust
1339 1904   0-4-0 600 mm (1 ft 11+58 in) 10 hp Initially Rigeo–Eretria railway, now railway museum Athens
1358 ca 1912   0-4-4-0
Mallet		 600 mm (1 ft 11+58 in) Mallet locomotive with outer cylinders for the Bromberger Kreisbahnen ("von Eisenhardt")
1403, 1404 1905   0-6-0 2 ft (610 mm) Hacienda Tenextepango, Morelos, Mexico, 24 inch 0-6-0's O&K works Nos. 1403-4/1905 (delivered via Arthur Koppel) and 2128/1906 (via Hermann Sommer). The mill was dynamited in 1913 during the Mexican revolution
1411 1904   0-4-0 560 mm
(22 Zoll)		 20 hp Northern Colliery Company, Waro Limestone Scenic Reserve, New Zealand. Sold on to New Zealand Cement Co. on Limestone Island in the 1910s and from there to Wilson's Portland Cement Co. in Portland in 1918, where it was operated as Bertha. It later went to the Museum of Transport and Technology in Auckland, where it is still preserved as a museum.[30]
1904–1912   0-8-0 785 mm (2 ft 6+2932 in) 200 hp No 11–20, (since 1910 Kattowitz 113–122), No 23 and 24, Kattowitz 125–126) and Kattowitz 127–130, seven were renumbered to 99 401–406 and 407–408.
1450 1905   0-4-4-0 120 hp Atlamaxac, built for Mr. Sebastian de Mier's ranch in Atlamaxac, Puebla, Mexico.
1459 1905   0-4-0 1,067 mm (3 ft 6 in) Domburg of the Utrecht builder J. van Noordenne, who sold it in 1908 to the builder Arntz in Millingen. Unusual track gauge of 1,067 mm (3 ft 6 in) instead of 900 mm.
1473 1905   0-4-4-0
Mallet		 762 mm (2 ft 6 in) 60 hp Initially sugar mill Pakis Baru, now Statfold Barn Railway
1480   0-4-0 20 hp Sydney (Alte Normalien, old standard) was used by Orson Wright & Co between 1907 and 1911 in the construction of the Ambergate Reservoir. The locomotive passed to H. Arnold & Son on 10 May 1912.[31]
1498 1904   0-6-0 1,000 mm (3 ft 3+38 in) 50 hp Rajahgopal, Cochin State Forest Tramway
ca 1903–1905   0-4-4-0
Mallet		 610 mm (2 ft) Magnet Tramway No. 3, Tasmania. Supplied by Central Mining & Tramway Appliances Proprietary Ltd between 1903 and 1905. Front (low pressure) cylinders 12 inches × 12 inches; rear (high pressure) cylinders 8 inches × 12 inches; wheel diameter 2 feet 1 inch; rigid wheelbase 4 feet 3 inches; total wheelbase 10 feet; boiler pressure 170 lb per square inch; weight in service 18 tons.[32]
1567 1905   2-4-0 891 mm (2 ft 11+332 in)
(Swedish 3 ft gauge)		 Borgholm, initially Borgholm-Böda Järnväg (BBJ) No 1., later Ölands Järnvägar Nr. 7[33]
1568 1905   2-4-0 891 mm (2 ft 11+332 in)
(Swedish 3 ft gauge)		 Initially Borgholm-Böda Järnväg (BBJ) No 2., later Ölands Järnvägar No 8[33]
1602 1905   0-4-0 Grytgöl, № 4, Ljusfallshammar, Sweden[34]
1611 1906   0-4-0 891 mm (2 ft 11+332 in)
(Swedish 3 ft gauge)		 Göta sulfitfabrik (Västergötland)[35]
1627 1905   0-4-0 600 mm (1 ft 11+58 in) 40 hp Bertha, № 12, Chemin de fer des Chanteraines
1694 1920   0-4-0 610 mm (2 ft) Gas Light and Coke Co (G. L. C. C.), Kensal Green
1696 1906   0-4-0 600 mm (1 ft 11+58 in) 20 hp Forest railway locomotive on the grass verge of Avenida Mitre between Avenida López Torres and Calle 25 de Mayo in Posadas, Argentina. The cow-catcher is probably based on the imagination of the erectors. The driver's cab also seems to be a simplified replica.
1767 1905   610 mm (2 ft) Matheran Hill Railway
1775 1906   4-2-0 610 mm (2 ft) 50 hp No. 1 South-Western Railway Company, Knysna, South Africa[36]
1786 1905   0-4-4-0
Mallet		 600 mm (1 ft 11+58 in) 80 hp Pesantren 150, PG Pesantren Baru, Kediri, Indonesia
1878 1906   600 mm (1 ft 11+58 in) Built for Caminho de Ferro Mossamedes, Angola
1787 1905   0-4-4-0
Mallet		 600 mm (1 ft 11+58 in) 80 hp Pesantren 151, PG Pesantren Baru, Kediri, Indonesia
1847 1906   4-4-0 891 mm (2 ft 11+332 in)
(Swedish 3 ft gauge)		 Der Kaiser, initially Borgholm–Böda Järnväg BBJ No 3, later Ölands Järnväg ÖJ No 9, since 1947 SJ w3p 3059, scrapped in 1953[37][38]
1870–1875, 2069–2070, 2356–2361, 2731–2734, 3182–3184, 4198–4199 1906–1910   0-8-0
1'Dnv2t (No. 1-6)
1'Dn2t (others)		 1,067 mm (3 ft 6 in) Lüderitz Bay Railway and South African Railways
2029 1906   0-4-0T 600 mm (1 ft 11+58 in) 20 hp

LVD1, Parada Sud Quarry near Pueblo Centenario.[39] Hanko & Co, Argentinia, preserved by Círculo de Estudios Ferroviarios del Uruguay (CEFU) at the Railway Museum in Montevideo Central Station, Uruguay, ex Lucas José Obes

2046 1906   0-4-0 600 mm (1 ft 11+58 in) Used by ASEA for the construction of the northern part of the Lidingöbanan
2053 1906   0-4-0 600 mm (1 ft 11+58 in) 40 hp Frankfurter Feldbahnmuseum No. 4
2076 1906   0-4-0 600 mm (1 ft 11+58 in) 40 hp Used by ASEA for the construction of the Lidingöbanan
2098 1906   0-4-4-0
Mallet		 600 mm (1 ft 11+58 in) 30 hp Wonolangan 7, PG Wonolangan, Probolinggo, Indonesia
2128 1906   0-6-0 2 ft (610 mm) Hacienda Tenextepango, Morelos, Mexico, 24 inch 0-6-0's O&K works Nos. 1403-4/1905 (delivered via Arthur Koppel) and 2128/1906 (via Hermann Sommer). The mill was dynamited in 1913 during the Mexican revolution
2220   0-4-2 1,067 mm (3 ft 6 in) Khartum–Wadi Halfa railway
2240 1907   0-6-0 610 mm (2 ft) 100PS No. 2 South-Western Railway Company, Knysna, South Africa[36]
2271 1907   0-4-0 610 mm (2 ft) 30 hp Initially Public Works Department of Victoria, land reclamation work at the Coode Canal, Port Melbourne, later Western Australian Public Works Department, Point SamsonRoebourne[22]
2303 1907   0-4-0 610 mm (2 ft) 30 hp Harvey, Western Australia (see also No 2271/1997)
2342 1907   0-6-0 610 mm (2 ft) 150 hp 739 Matheran, Matheran Hill Railway, heute National Rail Museum of India, New Delhi.
2343 1907   0-6-0 610 mm (2 ft) 150 hp 740 Matheran, Matheran Hill Railway, now Leighton Buzzard Light Railway
2378 1907   0-4-0 600 mm (1 ft 11+58 in) 30 hp Utrillas, Lancashire Mining Museum (West Lancashire Light Railway until 2021)
2424 1907   0-4-0 600 mm (1 ft 11+58 in) 20 hp Similar to 2461/1907. Whim Creek Copper Mine near City of Karratha, Western Australia.[22]
1907   0-8-0 Naters, Switzerland
2346 1907   0-6-0 600 mm (1 ft 11+58 in) 20 hp Hacienda San Nicolás del Monte Chaparro, Michoacán, Mexico
2413-2416   0-8-0 Loetschberg №42, Switzerland
2448 1908   0-4-0 Delivered to Lötschbergbahn as a construction locomotive, later probably Simplon No. 4, used at Brig during the construction of the Simplon Tunnel
2475 1907   0-4-0 600 mm (1 ft 11+58 in) Fia, № 1, Aspa Bruk (Ägare Munksjö AB), Sweden[40]
2525   0-4-0 891 mm (2 ft 11+332 in)
(Swedish 3 ft gauge)		 Skånska Järnvägar
2604 1907   0-6-0 1,000 mm (3 ft 3+38 in) 150 hp Cochin State Forest Tramway
2609 1907   0-4-4-0
Mallet		 610 mm (2 ft) 110 hp Orenstein & Koppel Ltd, London-Berlin, General-Agents, The ‚Central' Mining & Tramway Appliances Proprietary Ltd 40, Hunter Street, Sydney[41] Magnet Tramway, now Bennett Brook Railway
2641 1907   0-4-0 750 mm (2 ft 5+12 in) Union Bergb. Wien (1907–), Rheinregulierungsbahn Steffi (1937–), now Technisches Museum, TMW-Depot Marchegg
2649 1908   0-4-0 600 mm (1 ft 11+58 in) 40 hp Tacot des Lacs
ca 1908   0-4-0 600 mm (1 ft 11+58 in) Taube (pigeon), the US army conficated the German locomotive in World War I near Cierges in France
2677 1907   0-8-0 750 mm (2 ft 5+12 in) 200 hp Loetschberg N° 32, compressed air locomotive
2681 1907   0-4-0 1,000 mm (3 ft 3+38 in) 20 hp Bauru, São Paulo, Brazil
2697 1908   600 mm (1 ft 11+58 in) Moortje, Efteling Stoomtrein Maatschappij, near Kaatsheuvel between Waalwijk and Tilburg, Netherlands
2728 1908 0-4-4-0
Mallet		 600 mm (1 ft 11+58 in) 60 hp Rejo Agung 23 PonenII, PG Rejo Agung, Madiun, Indonesia (See also: N0 4494/1910)
2748   610 mm (2 ft) Dunkley Brothers, North East Dundas Tramway
2762 1907   0-8-0 600 mm (1 ft 11+58 in) 35 hp PG Tulungagung 1, Mojopanggung, Java, Indonesia
2797 1908   0-4-4-0
Mallet		 600 mm (1 ft 11+58 in) 80 hp Initially Compania Minera de Torreon, Mexico, later Cia. Minera de Penoles-Avalos, Mexico, since 1964 № 1, Cripple Creek and Victor Narrow Gauge Railroad, Colorado, USA
2903
and
2904		 1908   0-4-0 600 mm (1 ft 11+58 in) 30 hp SA & Ind Forestali, Bibbiena, Italy
2966 1908   0-4-2 600 mm (1 ft 11+58 in) 40 hp De Maas 4, PG De Maas, Besuki, Indonesia
2967 1908   0-4-2 600 mm (1 ft 11+58 in) Lumajang, PG Jatiroto, Indonesia
3009 1908 0-6-0 600 mm (1 ft 11+58 in) 140 hpi KKP No 1, Kleinbahn Klockow–Pasewalk, since 1950 DR 99 4612[42][43]
3010 1908   0-6-0 600 mm (1 ft 11+58 in) 140 hpi KKP No 2, Kleinbahn Klockow–Pasewalk, since 1950 DR 99 99 4613[42][43]
3019   0-4-2 Initially Hollandse Anneming Maatschappij, later harbour locomotive of SA Railways in Paardeneiland, Cape Town
3053 1908   0-4-0 600 mm (1 ft 11+58 in) Dampf
50 hp		 Aquilla, initially Wuytack de Gand, Belgium, later S. A. de Beton Belges, then Rail Rebecq Rognon[44]
3127   Gerald & Lorna Dee Collection, Museums Victoria
3136 1908   0-4-0 600 mm (1 ft 11+58 in) or 610 mm (2 ft) 40 hp Amberley Museum Railway
3161-3163 1908   0-4-0 600 mm (1 ft 11+58 in) 40 hp Island of Angaur in German New Guinea, from 1918 Nanyo-Agency (南洋庁) in the Japanese South Seas Mandate. The following 600 mm (1 ft 11+58 in) gauge O&K locomotives were supplied to Deutsche Südseephosphat AG, Angaur: Nos 3161, 3162 & 3163 in 1908, No 4236 in 1910 and No 4783 in 1911.
3174 1908   0-6-0 600 mm (1 ft 11+58 in) Ortal Group K6, Tramways du Lot-et-Garonne, Tonneins, France[45]
3216 1908   0-4-0 900 mm 90 hp Unterengstringen ZH, gravel pit Kieswerk am Hardwald, Dietikon, Switzerland
3247 1909   0-6-0 600 mm (1 ft 11+58 in) 20 hp Hacienda San Nicolás del Monte Chaparro, Michoacán, Mexico
3248 1909   0-4-0 600 mm (1 ft 11+58 in) Railway from Embleton Quarry to Christon Bank station and to the small harbour at Craster, Northumberland, Fanny Gray (O&K 3248/1909) in front of Dunstanburgh (Jung 812/1904)
3377 1908   0-8-0 750 mm (2 ft 5+12 in) Glückauf, Trusebahn, later DR 994531
1430 1908   0-8-0 785 mm (2 ft 6+2932 in) 200 hp Kattowitz II. The Urskog–Hølandsbanen from Sørumsand to Skulerud in Norway (750 mm (2 ft 5+12 in) gauge) got an offer for an O&K locomotive like the one, but never bought it.
3310 1909   0-6-0 610 mm (2 ft) 60 hp German Annie, № 4, Proserpine Central Mill Co Ltd, Queensland, Australia[22]
3311 1909   C'1 n2t 610 mm (2 ft) 120 hp Kaiser, Gin Gin Central Mill Co Ltd, Wallaville, Queensland, Australia[22]
3317 1909   0-4-2 610 mm (2 ft) 40 hp Jatiroto 23J, Lumajang, PG Jatiroto, Indonesia
3324 1909   Sugar mill Ketanen, Modjokerto, East Java, Dutch East Indies (now Indonesia)
3325 1909   Sugar mill Ketanen, Modjokerto, East Java, Dutch East Indies (now Indonesia)
3358 1909   0-3-0 Monorail locomotive (Ewing System) Patiala State Monorail Tramways, now National Rail Museum of India, New Delhi. The locomotive's three wheels run with double wheel flanges on a steel rail laid along a road and transfer about 95% of the weight. A support wheel prevents the locomotive from tipping over.
3362 1909   0-4-0T 900 mm or 891 mm 140 hp H. Weber, Unnam, construction of the Osterfeld-Hamm railway delivered to Datteln Skanska Cement AB Schweden, later Limhama, preserved as Cementa, N° 16 at Hesselby Jernvägar, Gotland, Sweden
3452 1910   0-4-4-0
Mallet		 80 hp Compagnie de l'Union in Mazaugues, France
3488 1909   0-4-0T+T 600 mm (1 ft 11+58 in) 30 hp Delivered to Genietroepen, Utrecht for Kamp van Zeist, Netherlands
3493 1909   2-4-0 750 mm (2 ft 5+12 in) The Borneo Co. Ltd. in Lampang in Siam
3498 1909   0-4-0 600 mm (1 ft 11+58 in) 20 hp Anita № 6, Mines at Dícido, Mioño, Spain
3509   0-6-0
3724   0-4-0 Bei Drabo in Östergötland, Sweden
3753 1909   0-8-0 600 mm (1 ft 11+58 in) 60 hp Pagottan 1, PG Pagottan, Madiun, Indonesia
3771 1909   0-6-0 610 mm (2 ft) 50 hp Goodwood Tramway, Kalgoorlie and Boulder Firewood Co, Beria, Western Australia[22]
3789 1910   0-8-0 600 mm (1 ft 11+58 in) 100 hp Kanigoro Nr. 5, PG Kanigoro, Madiun, Indonesia
3902 1909   0-4-4-0

Mallet		 600 mm (1 ft 11+58 in) 30 hp Frankfurter Feldbahnmuseum No 13
3904   2-4-0 From Orenstein-Arthur Koppel Company, 30 Church St., New York via Schwab & Tillmann, agent for Cuba, San Ignacio 76, Habana to Central dos Amigos,[46]
3940 1910   0-6-6-0
Mallet		 1,000 mm (3 ft 3+38 in) 500 hp 55 t, NWE No 32 of three Nordhausen-Wernigeroder Eisenbahn-Gesellschaft
3980 1910   0-8-0 760 mm (2 ft 5+1516 in) 80 hp Initially Toth Mihaly, Budapest, later 764.211, then 6110 Rachita Museum Satului, Bukarest, since 2004 Măriuța, Mocăniță pe traseul CFF Vișeu, Romania
3952 1910   0-8-0 600 mm (1 ft 11+58 in) 100 hp Purwodadi 8, PG Purwodadi, Ngawi, Indonesia
ca 1910   Theo, Sugar mill Tjoekir in Jombang, Indonesia
3961 1910   0-8-0 610 mm (2 ft) 50 hp Goodwood Timber and Tramway Co Ltd, Port Albert, Victoria, Australia[22]
3999 1910   0-6-0 600 mm (1 ft 11+58 in) Ortal Group K4, Tramways du Lot-et-Garonne, Tonneins, France[45]
4011 1910   0-6-0 600 mm (1 ft 11+58 in) 20 hp Ferrocarril Austral Fueguino, El Tren del Fin del Mundo, now plinted at the jail of Ushuaia
4017 1910   0-4-0 Initially 600 mm (1 ft 11+58 in), later 1,000 mm (3 ft 3+38 in) 20 hp FC Midland de Buenos Aires and Talleres Libertad, later Domingo Faustino Sarmiento Railway X-5, now Plaza Once, Buenos Aires, Argentina[47]
4028   600 mm (1 ft 11+58 in) Makatea, Tuamotu, French Polynesia
4058 1910   0-4-0 Carnarvon Tramway, Western Australia[48]
4083 1910   0-4-0 600 mm (1 ft 11+58 in) 40 hp Münster
4115 1910   0-8-0T 750 mm (2 ft 5+12 in) 40 hp Lovcen, BAr/Virpazar, Montenegro, now on display at Podgorica station
4134 1910   0-4-0+t 750 mm (2 ft 5+12 in) Cornellá, No 14, Narrow gauge railway Palamós–Girona–Banyoles and later narrow gauge railway Valdepeñas–Puertollano[49]
4135 1910   0-4-0+t 750 mm (2 ft 5+12 in) Mercedes, No 15, Narrow gauge railway Palamós–Girona–Banyoles and later narrow gauge railway Valdepeñas–Puertollano[49]
4201 1910   2-6-0 2 ft (610 mm) Ingenio Tilapa №1, Aldama Sugar Mill, Puebla, Mexico
4202 1910   2-6-0 2 ft (610 mm) Ingenio Tilapa №2, Aldama Sugar Mill, Puebla, Mexico
4244 1910   0-8-0 600 mm (1 ft 11+58 in) 60 hp Pagottan 2, PG Pagottan, Madiun, Indonesia
4264 1910   0-8-0 600 mm (1 ft 11+58 in) 60 hp Kanigoro 2, Madiun, Java, Indonesia
4300 1910   0-8-0 600 mm (1 ft 11+58 in) 60 hp Olean 7, PG Olean, Situbondo, Indonesia
4360 1910   0-8-0 600 mm (1 ft 11+58 in) 60 hp Olean 2, PG Olean, Situbondo, Indonesia
4400 1910   0-8-0 600 mm (1 ft 11+58 in) 60PS Kebonagung 2, PG Kebonagung, Malang, Indonesia
4403 1911   0-6-0 1,435 mm (4 ft 8+12 in) Preußische Staatsbahn, Gattung T3, N° 89 6143
4445 1910   0-8-0 600 mm (1 ft 11+58 in) 60 hp Purwodadi 10, PG Purwodadi, Ngawi, Indonesia
1910   0-6-0 1,000 mm (3 ft 3+38 in) Nr. 59. Initially Ferrocarriles del Estado and a construction company of Santiago del Estero, later Tranway Rural Reconquista[50]
1910   0-4-0 40 hp Initially Isnardi Alves & Cia, since 1913 Cia. Matte Laranjeira at Estrada de Ferro Guairá a Porto Mendes, since 1944 N° 4 of Serviço de Navegação da Bacia do Prata (SNBP), operational until 1959 or 1916, now exhibited at Guaíra, Paraná, Brazil
4614-4621 1911   1'Dn2 1,067 mm (3 ft 6 in) Lüderitz Bay Railway and South African Railways
4623 1911   0-6-0 Initially 750 mm (2 ft 5+12 in),
later 914 mm (3 ft)		 60 hp First locomotive of the FCCSA, preserved at Estación Wánchaq, Cuzco, Peru
4631 1911   Bn2t 762 mm (2 ft 6 in) Grafton Copper Mining Co in Cangai near Grafton in New South Wales, Australia
4359 1910   0-8-0 600 mm (1 ft 11+58 in) 60 hp Purwodadi 16, PG Purwodadi, Ngawi, Indonesia
4494 1910   0-4-4-0
Mallet		 600 mm (1 ft 11+58 in) 60 hp Rejoagung № 23 PonenII[51][52] (see also No 2728/1908)
ca 1910   0-3-0 600 mm (1 ft 11+58 in) 20 hp 2-2 coupled tender locomotive, 5.4 tonnes (5.3 long tons; 6.0 short tons) used at the Battles of the Isonzo, 25 May 1918
4676 1911   0-4-0 1,067 mm (3 ft 6 in) 30 hp Mizuma Town, Kurume, Fukuoka, Japan
4698-4700 1911   Japan[53]
4720 1911   0-4-0 750 mm (2 ft 5+12 in) 30 hp Initially Usines Carrières de Vaujours et Livry-Gargan, later Roche-sur-Foron, Haute Savoie, now Stefanie, Chemin de fer touristique d'Abreschviller
4819   Delivered to Francisco Brunet Manati. The lettering "Orenstein & Arthur Koppel, Comp. Berlin-Nueva York, Agentes Generales para la usla de Puerto-Rico, Koerber & Co, San Juan" is unusual. O&K delivered only 19 locomotives to Puerto Rico, and the name Koerber does not appear in the delivery lists. Orenstein & Koppel - Arthur Koppel was otherwise used.
4863 1911   0-8-0 600 mm (1 ft 11+58 in) 60 hp Gempolkerep 15, Mojokerto, Indonesia
4868 1911   0-8-0 600 mm (1 ft 11+58 in) 60 hp Asembagus 16 Slamet, Asembagus, Situbondo, Indonesia
4870 1911   0-8-0 600 mm (1 ft 11+58 in) 60 hp Wringinanom 6, PG Wringinanom, Situbondo, Indonesia
4880 1911   0-8-0 610 mm (2 ft) South-Western Railway Company, Knysna, South Africa[36]
4930 1911   0-4-0 600 mm (1 ft 11+58 in) 30 hp Initially Wegerif, Amsterdam, later brick works Ijsseloord, Arnhem, Netherlands, since 1968 Aagje, Efteling Stoomtrein Maatschappij, near Kaatsheuvel between Waalwijk and Tilburg, Netherlands
4987 1920   0-6-0 1,000 mm (3 ft 3+38 in) 60 hp Diss & Co, Puerto de Adra, Spain
4990 1911   0-8-0 600 mm (1 ft 11+58 in) 60 hp Wonolangan 2, PG Wonolangan, Probolinggo, Indonesia
4991 1911   0-4-4-0
Mallet		 600 mm (1 ft 11+58 in) 80 hp Asembagus 8, Asembagus, Situbondo, Indonesia
5020 1911   0-8-0 600 mm (1 ft 11+58 in) Tx2-355, Narrow Gauge Railway Museum in Wenecja, Poland,[54] now Plac Strzelecki, Wroclaw
5081 1911   0-6-2 508 mm (1 ft 8 in) 50 hp The Sons of Gwalia Ltd, Leonora, Western Australia, Koppel[22]
5102 1912   0-4-0 914 mm (3 ft) 140 hp Poldark Mine bei Wendron, Cornwall
5152 1911   0-8-0 600 mm (1 ft 11+58 in) 80 hp Kanigoro 4, PG Kanigoro, Madiun, Indonesia
5179 1912   0-4-0 600 mm (1 ft 11+58 in) 50 hp Katharina, Moor- und Fehnmuseum Elisabethfehn in Barßel, Germany
ca 1912   0-4-0 750 mm (2 ft 5+12 in) 50 hp
5199 1911   0-8-0 600 mm (1 ft 11+58 in) 60 hp Rendeng 02, PG Rendeng, Kudus, Indonesia
5217 1912   0-8-0 600 mm (1 ft 11+58 in) 60 hp Gempolkerep 14, Mojokerto, Indonesia
5297 1912   0-4-0 1,067 mm (3 ft 6 in) 40 hp Miyazaki Kotsu Railway SL No 1 (1913–1962), now JR Lyushu Nichinan Line
5301–5305 1912 20 hp Delivered to Argentina. The main dimensions changed in 1912 from 145 mm × 260 mm cylinders and 900 mm axle distance (Alte Normalien, old standard) to 150 mm × 275 mm cylinders and 1200 mm axle distance (Neue Normalien, new standard)
5335 1912   C n2 750 mm (2 ft 5+12 in) 80 hp Sri Maharacha Timber Company SRJ, Si Racha, SRJ 6, now Surasak Montri Public Park, Si Racha Thailand
5343 1912   D n2 2 ft (610 mm) 100 hp N° 4 ‘ASPILLAGA’, 100hp, ordered for Hacienda Cayalti in Cayalti District, Región de Lambayeque, Peru
5438 1912   0-8-0 600 mm (1 ft 11+58 in) 60 hp Merapi 15, Asembagus, Situbondo, Indonesia
5440 1912   0-4-0 600 mm (1 ft 11+58 in) 60 hp Olean 4, PG Olean, Situbondo, Indonesia
5658 1912   0-4-0 600 mm (1 ft 11+58 in) Stockholms Elektricitetsverk, Untraverket 1, 1916 decommissioned, since 1917 Vattenfall CF 10, decommissioned 1952.[55]
5662 1912   0-4-0 600 mm (1 ft 11+58 in) 50 hp Initially Argentina, now Apedale Valley Light Railway. After leaving Statfold Barn Railway for a private site in Whaley Bridge in 2013, it came to Apedale in May 2022 after a full restoration to steam. The original livery from Argentina has been retained by the owners, and it is paired with a tender from its time in Argentina. It will be based at Apedale for the foreseeable future and will operate occasionally on passenger trains throughout the year.
5668 1913   0-4-0 600 mm (1 ft 11+58 in) or 610 mm (2 ft) 30 hp Initially Penrhyn Quarry Railway. 1963 sold to Bressingham Steam and Gardens'. Since 1995 at Bredgar and Wormshill Light Railway.[56]
5672 1912   0-6-0 600 mm (1 ft 11+58 in) Petter, No 1, Lindfors-Bosjöns Järnväg[57][58]
5745 1912   0-4-0 600 mm (1 ft 11+58 in) 20 hp Initially Ferrocarriles en el cono sur FCS (Argentina), now Chapel Hydraulique GmbH, Kimmerle-Ring, Günzburg, Germany
5754 1913   2-6-0 1,000 mm (3 ft 3+38 in) 200 hp E 94, Vale de Vouga, Comboios de Portugal, Portugal
5755 1912   2-6-0 1,000 mm (3 ft 3+38 in) 200 hp E 96, Decauville-Locomotive No. 5755/1913, Vale de Vouga, Comboios de Portugal, Portugal, now Musée des tramways à vapeur et des chemins de fer secondaires français in Butry-sur-Oise in département Val-d'Oise, 30 kilometres (19 mi) north of Paris
5756 1913   2-6-0 1,000 mm (3 ft 3+38 in) 200 hp Companhia Real dos Caminhos de Ferro Portuguese E 91, Vale de Vouga, Comboios de Portugal, Portugal
5757 1913   2-6-0 1,000 mm (3 ft 3+38 in) 200 hp Companhia Real dos Caminhos de Ferro Portuguese E 97, Vale de Vouga, Comboios de Portugal, Portugal
5805 1912   0-6-0 762 mm (2 ft 6 in) 90 hp No 201 of Japanese government railways, later LCK 31 of the Taiwaneses government railway, now plinthed in Hualien, Taiwan
5744 1912   0-4-0 600 mm (1 ft 11+58 in) Initially Obras de Irrigacion del Territoria del Rio Negro, later Moño Azul, near Vista Alegre Sur and Centenario, Neuquén, Argentina, now Rebecca, Devon Railway Centre, Bickleigh, Devon, England[59]
5829 1913   0-4-0 600 mm (1 ft 11+58 in) 50 hp Train de Rillé
5834 1913   0-4-0 610 mm (2 ft) 20 hp No 11, P C Allen, weight: 5.57 tonnes. Was in service at a Solvay Alkali Plant in Torrelavega, Spain. Named after the chairman of ICI from 1968 to 1971, who was a light railway enthusiast and instigated the rescue of this locomotive. Now Leighton Buzzard Light Railway.
5856 1912   0-8-0 600 mm (1 ft 11+58 in) 60 hp Olean 1, PG Olean, Situbondo, Indonesia
5857 1912   0-8-0 600 mm (1 ft 11+58 in) 60 hp Sumberharjo 2, PG Sumberharjo, Pemalang, Indonesia
5859 1912   0-8-0 600 mm (1 ft 11+58 in) 60 hp Pesantren 9, PG Pesantren Baru, Kediri, Indonesia
5885 1912   0-4-0 1,067 mm (3 ft 6 in) 40 hp Johoku Kotsu Park, Itabashi, Tokio, Japan
5933 1913   Putte was used from 1914 to 1934 between Båven and the Likstammen lake (Båven–Likstammen Järnväg, Axalabanan), Sweden
5990 1912   originally 0-4-0T, later 0-4-2T 600 mm (1 ft 11+58 in) 60 hp Sold in 1912 to Decauville São Paulo (as an agent or reseller), later Craig & Martin Brasil, later Estrada de Ferro Perus – Pirapora – EFPP No. 8 (chemin de fer de Cimento Portland Perus – Cajamar), later converted to 0-6-2, now LP Assessoria Industrial e Restaurações Ltda. – Votorantim, SP[60][61]
6008 1912   0-4-4-0
Mallet		 600 mm (1 ft 11+58 in) 60 hp Candi 6, Sidoarjo, Indonesia
6320 1913   0-6-0 Elza, former Zrenjanin Sugar locomotive, at Mokra Gora
  0-4-0 600 mm (1 ft 11+58 in) The US army conficated the German locomotive in World War I near Abainville in France and applied the lettering U.S.A. X6023 (but this was not O&k 6023, which was a 0-8-0+T, for sugar mill Tjoekir, Java)
6024   0-4-4-0
Mallet		 610 mm (2 ft) Cia. Minera Penoles-Avalos, Mexiko
6039 1912   0-8-0 600 mm (1 ft 11+58 in) 60 hp Purwodadi 11, PG Purwodadi, Ngawi, Indonesia
6389 1913   0-8-0 600 mm (1 ft 11+58 in) 80 hp Tasik Madu III, Solo, Java, Indonesia
5896 und 5897 1912   0-8-0 600 mm (1 ft 11+58 in) Nybergs Gruv AB 1 and Nybergs Gruv AB 2, Nyberget Morgårdshammar (Nybergets Järnväg NJ, Nybergs Gruv - Avesta Jernverks AB), Sweden[62]
5896 und 5897 1912   0-8-0 600 mm (1 ft 11+58 in) Nybergs Gruv AB 1 and Nybergs Gruv AB 2, Nyberget Morgårdshammar (Nybergets Järnväg NJ, Nybergs Gruv - Avesta Jernverks AB), Sweden[62]
6126 1913   0-4-0 Hällefors Bruk, No. 6
6519 1913   0-4-0 610 mm (2 ft) 10 hp Sold via Decauville to the South Australian Irrigation and Reclamation Department in Pompoota on the Murray River[22]
6520 1913   0-4-0 610 mm (2 ft) 10 hp Sold via Decauville to the South Australian Irrigation and Reclamation Department in Pompoota on the Murray River.[22]
6533 1913   0-4-0 762 mm (2 ft 6 in) 50 hp Initially Mitsui Bussan Kaisha, Kobe, now Igasa Railway, Okayama, Japan
6559 1914
November 16, 2023
orenstein, koppel, redirects, here, other, uses, normally, abbreviated, major, german, engineering, company, specialising, railway, vehicles, escalators, heavy, equipment, founded, april, 1876, berlin, benno, orenstein, arthur, koppel, orenstein, koppeltypepub. O amp K redirects here For other uses see OK Orenstein amp Koppel normally abbreviated to O amp K was a major German engineering company specialising in railway vehicles escalators and heavy equipment It was founded on April 1 1876 in Berlin by Benno Orenstein and Arthur Koppel Orenstein amp KoppelOrenstein und KoppelTypePublicIndustryManufacturingFoundedApril 1 1876 1876 04 01 FounderBenno OrensteinArthur KoppelDefunctJanuary 1 1999 1999 01 01 FateAcquiredArea servedWorldwideProductsRailway vehiclesHeavy equipmentEscalatorsParentNew Holland ConstructionOriginally a general engineering company O amp K soon started to specialise in the manufacture of railway vehicles The company also manufactured heavy equipment and escalators O amp K pulled out of the railway business in 1981 Its escalator manufacturing division was spun off to the company s majority shareholder at the time Friedrich Krupp AG Hoesch Krupp in 1996 leaving the company to focus primarily on construction machines 1 The construction equipment business was sold to New Holland Construction at the time part of the Fiat Group in 1999 2 3 Contents 1 Founding and railway work 2 Diversification 3 Nazi era and the Second World War 4 East Germany 5 West Germany 6 Decline 7 Steam locomotives 7 1 Tank locomotives with two coupled axles Type 0 4 0 7 2 Tank locomotives with three coupled axles Type 0 6 0 7 3 Locomotives with two coupled axles and one svivelling axle Types 2 4 0 or 0 4 2 7 4 Coupled compound locomotives Type 0 4 4 0 Mallet design 7 5 Locomotives with coupled hollow axles with radial and lateral movement Klien Lindner design 7 6 Locomotives with laterally movable coupled axles Golsdorf design 7 7 Tramway locomotives Type 0 4 0 7 8 Mining and tunnel locomotives 7 9 Fireless locomotives 7 10 Rack locomotives 7 11 Locomotives with a separate tender 7 12 Coupled compound locomotives Type 0 6 6 0 Kitson Meyer design 8 List of Orenstein amp Koppel narrow gauge steam locomotives 9 External links 10 Literature 11 ReferencesFounding and railway work edit nbsp Steam engine manufactured for Patiala State Monorail Trainways at National Rail Museum New DelhiThe Orenstein amp Koppel Company was a mechanical engineering firm that first entered the railway construction field building locomotives and other railroad cars First founded in 1892 in Schlachtensee in the Zehlendorf district of Berlin and known as the Markische Lokomotivfabrik the O amp K factories expanded to supply the Imperial German Army under Kaiser Wilhelm II with field service locomotives or Feldbahn O amp K supplied all manner of railway equipment to the Army Because of strained capacity at the Schlachtensee shops work transferred in 1899 to a site in Nowawes later Babelsberg near Potsdam Around 1908 O amp K acquired the firm of Gerlach and Konig in Nordhausen building petrol and diesel locomotives there under the trade mark Montania Diversification edit nbsp Excavator from O amp K nbsp Siemens Schuckert Orenstein amp Koppel underground trains built for the Buenos Aires Underground from 1934 to 1944 O amp K expanded to build freight and passenger cars and above all excavators for construction The company also built other heavy equipment including graders dump trucks forklift trucks compressors crawler loaders wheeled loaders road rollers and truck cranes The company also began manufacturing escalators transmissions rapid transit railway lines buses tractors and cargo ships Passenger liners shipboard cranes and shipbuilding enterprises rounded out the company s profile Because of the company s thriving export business a worldwide system of branch offices was created In the early years of the 20th century O amp K built bucket chain trenchers at first from wood and after 1904 completely from steel These were propelled by steam or oil engines O amp K also made railway trenchers for work in heavy soils In the First World War O amp K built railway engines and cars of all sizes for the German government With the collapse of Imperial Germany in November 1918 the victorious Allies put further restrictions on German manufacturing and military capacity seizing all army Feldbahn engines as per the terms of the Versailles Treaty that ended the First World War The treaty also removed access to export markets at the end of 1925 work stopped for three months as a result of the lost business By 1935 business had recovered and the company produced 5 299 locomotives citation needed After the war O amp K s American subsidiary the Orenstein Arthur Koppel Company was seized by the Alien Property Custodian and sold at an auction where only United States citizens were allowed to place bids 4 Besides the Feldbahn contracts the company produced Series 50 steam locomotives and standard gauge vehicles in the 1930s They also delivered some broad gauge CSET shunting locomotives with a gauge of 5 ft 3 in 1 600 mm to the Irish Sugar Company Comlucht Siucre Eireann in Ireland 2 of which have been preserved The company produced diesel locomotives and Series 44 and Series 50 steam engines for the national railway company Deutsche Reichsbahn Gesellschaft In 1922 they manufactured their first continuous track steam shovel In 1926 diesel engines replaced steam engines the company converted earlier steam units to diesel power as the need arose O amp K merged with a kerosene engine builder selling the engines under the O amp K banner Nazi era and the Second World War edit nbsp Kriegslokomotive built by O amp KAt the Spandau factory O amp K built cable operated excavators and bucket wheel excavators for use in the lignite coal mines of eastern Germany Under the Aryanisation scheme of Adolf Hitler s Nazi Germany the Orenstein family s shares in the company were forcibly sold in 1935 Orenstein and Koppel was placed under trust administration and the Babelsberger works were taken over and renamed in 1941 O amp K existed in name only but more commonly used the abbreviation MBA Maschienenbau und Bahnbedarf AG After heavy bomb attacks on Berlin caused a fire in the company s plant administration buildings factory production minister Albert Speer redistributed work and factories around the country to lessen the risk from a single attack For the remainder of World War II no more locomotives were built in Berlin Four hundred and twenty one locomotives already under construction were shifted to Prague to protect the existing factories During the war O amp K provided 400 Class 52 locomotives East Germany editAfter the end of the war the locomotive plant in Nordhausen went idle Under the German Democratic Republic O amp K changed its name to the VEB Company and resumed heavy mechanical manufacturing at Nordhausen producing cable operated excavator shovels among other things nbsp Excavator from O amp K in 1957By 1946 the Babelsberg factory resumed production of locomotive boilers and one year later the plant delivered its first postwar locomotive The German Democratic Republic nationalised the railroads and rolling stock manufacturers The O amp K plants in Babelsberg were renamed the LOWA Lokomotiv Plant Karl Marx LKM The LKM became the sole manufacturer of diesel locomotives for the GDR such as the large DRG V180 In the late 1950s the plant developed steam and diesel engines for the Deutsche Reichsbahn narrow gauge railways building approximately 4 160 engines Construction of steam locomotives ended in 1969 leaving diesel hydraulic locomotives as the company s priority The company s last diesel locomotive was the DB Class V 60D manufactured until 1976 Over the course of 30 years as LKM the company produced approximately 7 760 locomotives about a third of that number were manufactured for export By 1964 the company had expanded into air conditioning and refrigeration technology West Germany editIn West Germany the enterprise resumed operation after World War II in 1949 under the name Orenstein amp Koppel AG with headquarters in Berlin In 1950 it incorporated under that name after merging with the Lubecker Crane Company After the construction of the Berlin Wall in 1961 the head office moved to Dortmund By the mid 1970s the enterprise had grown steadily In 1972 O amp K had five working plants West Berlin Dortmund Hagen Hattingen Ruhr and Lubeck it maintained a central spare parts service in Bochum That year the company had 8 530 employees The company had 24 business and sales offices in West Germany and agencies on all five populated continents The West German company emphasised the manufacture of railroad cars and construction equipment particularly excavators In 1961 O amp K manufactured Europe s first series of fully hydraulic excavators They manufactured over 55 000 hydraulic excavators more than 700 of those were rated at over 100 tons service weight O amp K also manufactured the world s largest hydraulic excavator citation needed at 900 tons service weight with a shovel capacity of over 52 cubic metres 68 cu yd and an engine output of 2 984 kilowatts 4 055 HP The company also diversified into escalator manufacturing source source source source source source source O amp K excavator RH40 B in action at the open pit mining site Lhoist in Menden GermanyDecline editAfter 1964 the railway manufacturing unit was separated from the other production units The railway business was transferred to Bombardier which continues to manufacture rolling stock in Berlin The Babelsberg site became an industrial park The escalator manufacturing division was sold to the company s majority shareholder at the time Friedrich Krupp AG Hoesch Krupp in 1996 1 The construction equipment business was sold to New Holland Construction at the time part of the Fiat Group in 1999 2 3 Steam locomotives editTank locomotives with two coupled axles Type 0 4 0 edit nbsp 0 4 0 20 hp 600 mm 5 4 t nbsp 0 4 0 50 hp 750 mm 8 8 t nbsp 0 4 0 160 hp 900 mm 21 t nbsp 0 4 0 110 hp 1 435 mm 4 ft 8 1 2 in 17 5 t nbsp 0 4 0 250 hp 1 435 mm 4 ft 8 1 2 in 28 t Based on O amp K s experience they have created a number of type 0 4 0 standard designs which have proven to be particularly suitable for many companies Locomotives of these standard designs were always under construction and locomotives of the most common strengths were always in stock so that they could be dispatched immediately on request Two axle locomotives were mainly used by construction companies and industrial establishments accordingly special emphasis was placed on simple and practical construction In particular the locomotives were characterised by high tractive power while the smaller types were generally based on a lower speed in favour of tractive power 5 The standard gauge locomotives in this category were particularly suitable for shunting and for operating purposes on branch lines 5 For light railways especially for narrow gauge railways with steep gradients tight curves and generally a light superstructure and substructure locomotives with only two axles did often not meet the requirements in terms of tractive force and caused wear of the track and the wheel tyres due to their wheel load Therefore larger locomotives with more axles were available as shown below Tank locomotives with three coupled axles Type 0 6 0 edit nbsp 0 6 0 20 hp 600 mm 5 8 t coal fired nbsp 0 6 0 50 hp 750 mm 10 2 t wood fired nbsp 0 6 0 70 hp 900 mm 13 2 t coal fired nbsp 0 6 0 140 hp 1000 mm 19 500 t coal fired As with the two axle coupled locomotives the full weight of the machines with three coupled axles was used as adhesion weight However since the wheel pressure was distributed over six wheels instead of four locomotives of this category could run on much lighter rails than two axle locomotives with the same weight and therefore the same tractive force This type of locomotive could therefore be used wherever the existing track required the most powerful locomotive possible without exceeding the permissible wheel pressure or where the superstructure was to be constructed relatively lightly Particularly on longer lines the latter was considered for the sake of substantial savings However the track curves must be larger when using this locomotive than with the four wheelers 6 Locomotives with two coupled axles and one svivelling axle Types 2 4 0 or 0 4 2 edit nbsp Locomotive with two coupled axles one front svivelling axle and a separate tender 50 hp 750 mm 9 5 t nbsp Locomotive with two coupled axles and one rear svivelling axle 40 hp 700 mm 10 t If the locomotive had to travel through small curves with a light superstructure it was advisable to purchase a locomotive with two axles and a svivelling axle This type was especially suitable for longer distances because it allowed a light superstructure and was also able to carry larger supplies than 0 4 0 locomotives with the same wheel pressure The design also had the advantage that the centre of gravity could be set lower than on other types This together with the large wheelbase gave the machines a particularly smooth ride It could also run at a relatively higher speed so that according to the above it was mainly suitable for small railways and feeder lines Depending on the particular conditions O amp K installed the svivelling axle at the rear or at the front but always in such a way that the greatest possible adhesive weight was maintained Since the full weight of this type of machine could never be used as the adhesive weight this construction was less suitable for carrying large loads For such cases OK recommended the use of multi axle coupled locomotives of the Golsdorf type or if small curves were available to the locomotives of the Mallet or Klien Lindner type as shown below 7 Coupled compound locomotives Type 0 4 4 0 Mallet design edit nbsp 0 4 4 0 90 hp 600 mm 15 t nbsp 0 8 0 110 hp 800 mm 22 t In many cases where 0 4 0 or 0 6 0 steam locomotives were no longer sufficient O amp K built 0 4 4 0 or 0 6 6 0 compound locomotives Mallet design which supplemented the more conventional looking 0 4 2 locomotives in Germany categorized as 2 2 2 and 2x3 3 double compound locomotives in comparison to the more conventional looking 2 3 locomotives Apart from the possibility of being used on light superstructures and small curves the locomotive had the advantage of great tractive power due to the composite arrangement of the cylinders as the full weight was used as adhesion weight The design was such that the boiler driver s cab and storage boxes were connected to the rear frame which carried the high pressure cylinders while the front frame on which the low pressure cylinders were located was connected to the rear frame by two vertical hinges The boiler with the water boxes rested on a slide track of the front frame so that the latter could move freely under the boiler The steam passed from the regulator in fixed pipes to the high pressure cylinders and after expansion in these through an absolutely steam tight flexible well insulated pipe to the low pressure cylinders The exhaust steam entered the exhauster through a vertical movable pipe A special valve made it possible to feed boiler steam directly to the low pressure cylinders so that all four cylinders came into operation immediately when the locomotive was started up 8 Locomotives with coupled hollow axles with radial and lateral movement Klien Lindner design edit nbsp 0 8 0 20 hp 750 mm nbsp 0 4 0 90 hp 600 mm nbsp 0 6 0 140 hp 1000 mm nbsp 0 8 0 160 hp 750 mm For railways with steep gradients and relatively light track construction locomotives with two or three coupled axles often did not meet the requirements of increased traffic Due to the high costs involved the existing tracks could often not be converted and heavier locomotives with a larger number of axles were used Where small curvatures precluded the use of long fixed wheelbases locomotives with steerable bogies or for the sake of simplicity locomotives with curvilinear coupled axles were often used The acquisition of such locomotives was also advisable for such new designs where the track systems and bridges were easier and cheaper to build Since 1901 locomotives with coupled hollow axles have been built in particular according to the Klien Lindner design which has proved extremely successful in operation The advantages of this design were Large tractive force at a given permissible wheel pressure Large wheelbase with the best curve mobility and equal spring loading on both sides of each end axle and thus safe running of the locomotive Shock free running into curves as well as safe return to the centre position when running on straight track Equally good running when driving forwards and backwards Low wear of the rails and wheel tyres nbsp Locomotives with coupled hollow axles with radial and lateral movement Klien Lindner design The arrangement and mode of operation was as follows The laterally and radially movable coupled axle was installed as the end axle and in the case of eight or ten wheelers these steering axles arranged at both ends ensured that the locomotive could enter the curves without difficulty All axles were coupled in the usual way by fixed rods and mounted in axle bushes bb outside the wheels following the spring play The axle bushes sit in a continuous fixed frame on which the steam cylinders are arranged in the usual way The steering axle consists of a core axle a fixed in bb and driven in the usual way and a hollow axle c which is firmly connected to the wheels and can be moved laterally and radially and which encloses the core axle which is provided with a ball attachment in the middle by means of a two part ball cup d 9 The load on the axle was distributed by the ball pivot of the core axle a as it were by a transverse balancer on both wheels of the axle and thus equal wheel pressures and safety against derailment are obtained The hollow axle is driven by a driving pin f pressed into the ball pivot of the core axle with sliding pieces at both ends which have the necessary lateral play in the housing of the hollow axle for the deflection of the axle In order to return the hollow axle to its central position after deflection either return springs are arranged in the central housing or as can be seen in the following illustration counter guides g are arranged which by means of brackets enclose the hollow axles in the auxiliary bearing positions ee and effect unconstrained shock free adjustment of the hollow axle since both end axles must execute their radial or lateral movement simultaneously In order to counteract the unsteady running of the steering axles on the track and any lurching of the locomotive these locomotives are fitted with an adjustable safety device which holds the drawbar frames in the central position on the track by means of spring tension no pressure is exerted against the bearing points with this resetting device These axles do not require any maintenance except for periodic lubrication The periodic lubrication mentioned is only necessary at intervals of 1 to 2 months and is carried out after loosening the two lubricating screws s located on the centre of the axle by introducing grease or viscous oil into the sliding boxes of the driving pin Only during a general inspection of the locomotives is it necessary to also inspect the hollow axles to make sure that the internal parts are in good condition 10 O amp K have used the Klien Lindner axles for the Royal Prussian State Railways and many other railway in large numbers The administration of the military railway has also introduced 0 8 0 locomotives with steerable coupled axles in place of the 0 6 0 field railway locomotives previously built Locomotives with laterally movable coupled axles Golsdorf design edit nbsp 0 8 0 locomotive with laterally movable Golsdorf axles 60 hp 750 mm 2 ft 5 1 2 in weight 14 t nbsp Principle of the Golsdorf axles shown on a ten coupled steam engine Locomotives of the Golsdorf design were only suitable for lines on which there were relatively few and large curvatures In this case it was sufficient to shift one or more coupling axles sideways in such a way that the movable axles were not guided in their axle bearings but by their own flanges The bearings of the coupling rods have the same lateral play on their journals as the axles in the axle bearings This type of construction has proven itself well on eight and multi wheel locomotives but it was not suitable for very small curvatures In terms of performance and even load distribution etc it was equivalent to the more common Klien Lindner locomotives They were used for main branch and small railways 11 Two of the five axles of a ten wheel locomotive could move sideways relative to the frame because their axle boxes fixed them rigidly to the frame The other axles however were fitted into their bearings and attached to their drives in such a way that they can be moved sideways during curve running depending on the sideways forces acting on them In addition the connecting and coupling rods through which linear forces from the steam pistons were translated into the rotation of the wheels via the crank pins also had to be able to move sideways Tramway locomotives Type 0 4 0 edit nbsp An early oil fired locomotive possibly O amp K 2900 1908 20 hp metre gauge 0 4 0 7 7 t often listed as coal fired nbsp O amp K tramway locomotive 30 hp metre 3 ft 3 in gauge 0 4 0 service weight ca 8 75 t nbsp O amp K 797 1901 of Societa Guidovia Camuna 50 hp metre gauge 13 t O amp K built tramway locomotives which were used for operation on tramways serving public traffic either with a driver s cab at the front and rear or with only one driver s cab in the middle of the locomotive furthermore with a power unit cover in two different designs Whereas one version only served to conceal the engine from road traffic the other version served to protect the engine parts against dust The desired type of covering is to be specified The weight of this locomotive was relatively high and therefore it could develop a great performance immediately when starting up even on short gradients This was effectively supported by a high steam overpressure which O amp K usually provided for these locomotives with 14 bars 200 psi 12 The fairing of all moving parts was intended to protect other road users such as pedestrians from serious injuries in case of accidents It also prevented horses from shying and protected the transmission from dirt and dust on the unpaved roads that were common at the time Often there was no stoker on tram locomotives which meant they were operated by the driver in one man operation The short axle stands also ensured that narrow curves could be negotiated in city centres Often standing boilers were used for reasons of space Mining and tunnel locomotives edit nbsp 40 hp 600 mm nbsp 70 hp 600 750 mm nbsp With retractable chimney nbsp Compressed air locomotive For operation in tunnels or mine O amp K built locomotives in compliance with specific profiles In the case of steam locomotives it was possible to run them at high speed by fitting suitable devices and using particularly large boilers that could store a larger quantity of steam before passing through the tunnel For use during tunnel construction or in underground mines steam locomotives with oil firing equipment were particularly suitable whereby smoke development and spark emission did not take place The handling of these locomotives did not differ in any other respect from that of an ordinary locomotive Furthermore fireless locomotives were also very suitable for operation in tunnels and mines as they completely avoid the nuisance of smoke gases and sparks Compressed air locomotives which however required a special stationary system to generate the compressed air were also made and sold in smaller numbers 13 Fireless locomotives edit nbsp Four wheel fireless locomotive empty 8 t built to any gauge nbsp Fireless locomotive for standard gauge service weight 15 tons nbsp Fireless locomotive for 600 mm or 2 ft gauge service weight 4 8 tons nbsp Fireless locomotive for mines 500 mm 19 3 4 in gauge weight 3 9 tons Fireless locomotives were particularly suitable for use inside factories yards etc where it was essential to secure absolute freedom from any risk of fire They were largely used for shunting purposes for paper mills oil mills wool mills timber yards gunpowder factories and similar works These locomotives were constructed without fire boxes the necessary steam being taken from a stationary boiler The locomotive is able to work for several hours with one filling and can be operated with minimum expense as the driver needed less skills than that of a conventional steam engine 14 Rack locomotives edit nbsp O amp K 7000 1914 30 hp 600 mm 1 ft 11 5 8 in gauge 0 4 0T So cie te Chiron Freres Chambery for adhesion and rack operation nbsp O amp K 2365 1907 125 hp 850 mm 2 ft 9 15 32 in 0 4 0T Gewerk schaft Vereinigte Burgholzhausen Herdorf Kunsterthalbahn 15 O amp K delivered several types of cogwheel locomotives for mixed railways on which ordinary operation alternated with cogwheel operation Mixed railways were used in changing terrains with only single steep gradient which could not be negotiated by ordinary adhesion locomotives Accordingly only these steep gradients were equipped with toothed bars The mode of operation was as follows The two steam cylinders outside the frame drove the driving gearwheel for the rack by means of a double gearing with the appropriate transmission This driving gear wheel sat on a special axle fixed in the frame and was connected to the friction axles by coupling rods so that the gear wheel axle and friction axles were driven simultaneously The locomotives could therefore run on normal rail tracks as well as on toothed tracks On the toothed track the driving gear and the friction wheels worked together The effect of the latter was also utilised on the toothed track and the load on the rack was relieved accordingly The locomotives worked either on a simple flat steel rack or on Riggenbach ladder rack 16 A cumulative number of only 6 to 9 rack steam locomotives were made by O amp K in total Their track gauge ranged from 400 mm 15 3 4 in to 1 300 mm 4 ft 3 3 16 in 17 Locomotives with a separate tender edit nbsp Locomotive with six coupled wheels and front bissels type 2 6 0 for coal service weight 28 3 t 21 5 t built for a Chinese Railway nbsp Eight wheel coupled locomotive type 0 8 0 150 hp 2ft 6in gauge for wood fuel with separate tender built for Siam Locomotives with a separate tender did not carry all their fuel and water on board the locomotive and were thus particularly useful for travelling long distances without being refuelled The locomotives were equipped to be either heated by coal wood or oil because a larger heating and grate area were required The main types had from four to twelve wheels for the locomotive and four six or eight wheels on the tender The water tanks were firmly fastened to the frame of the tender while maintaining a low centre of gravity The coupling between locomotive and tender was similar to that of the waggons to ensure that the locomotive could be driven without the tender for shunting or on short distances The tender was easily accessible from the engineer s cab If the locomotive was heated by wood the tender had a special fence to increase the volume of its load Coupled compound locomotives Type 0 6 6 0 Kitson Meyer design edit nbsp O amp K 11350 1927 Type 0 6 6 0 Kitson Meyer design for Puente Alto El Volcan RailwayAfter Orenstein amp Koppel O amp K had delivered the prototype of a Kitson Meyer locomotive for the 600 mm gauge to the Chilean military railway in 1927 an order for three locomotives followed in 1937 In 1939 the locomotives with the factory numbers 13306 to 13308 were completed The locomotives had riveted bridge and bogie frames The boiler cab reservoir and ash box were also riveted The engines located at the two bogie ends worked on the centre axle set This wheelset could also be sanded The control system was of the Heusinger type While the prototype had a Westinghouse brake the production locomotives had a Knorr brake The air pump was attached to the rear water tank while the main air tank was above it on the water tank The locomotive had electrically operated headlights Due to the beginning of the Second World War the vehicles could not be delivered to Chile They were then tested by O amp K on the Rehagen Klausdorf army training area and probably also on lines of the Mecklenburg Pomeranian narrow gauge railway In 1944 the Deutsche Reichsbahn acquired the locomotives to use them on lines in occupied Poland Therefore in the second half of the same year they were handed over to Gedob Direktion Krakow where they were stationed at BW Jedrzejow 18 List of Orenstein amp Koppel narrow gauge steam locomotives editThe list of Orenstein amp Koppel narrow gauge steam locomotives shows photographically documented samples of representative Orenstein amp Koppel O amp K steam locomotives with a gauge of less than 1 435 mm 4 ft 8 1 2 in The factory produced 14 387 steam locomotives from 1899 to 1945 at its Berlin site Drewitz Nowawes Babelsberg with the works number range from 337 to 12965 Works No Year Photo Wheel arrangement Gauge Power Use366 1899 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 20 hp Delivered via the O amp K sales office in Budapest to Earl Karoly Imre in Nagymagocs near Oroszhaza 1941 used at the fortifications in Szolyva and in 1945 returned to Mattersburg in Austria Now being operated in Feld und Industriebahnmuseum Freiland Austria 19 367 1899 nbsp 0 4 0 600 mm 1 ft 11 5 8 in Delivered via the Swedish general agent Carl Strom to the Hamra Tumba Jarnvagen of Gustaf de Laval on Gotland in Sweden From 1916 owned by the construction company Byggnads AB who sold it to the city of Stockholm in 1917 for work on Hammarbyleden 20 1899 nbsp 0 6 0 FL Fireless locomotive418 1899 nbsp 0 6 0 785 mm 2 ft 6 29 32 in Brol Valley Railway BTE 14 17531 1900 nbsp 0 4 2 600 mm 1 ft 11 5 8 in 60 hp Initially at sugar mill Nakel Cukrownia Naklo now Narrow Gauge Railway Museum in Wenecja Poland 21 533 1899 nbsp 0 6 2 600 mm 1 ft 11 5 8 in 60 hp Kleinbahngesellschaft Krone fur Wirsitzer Kleinbahn 9 576 578 nbsp 0 4 4 0Mallet 750 mm 2 ft 5 1 2 in 120 hp Kalan591 1900 nbsp 600 mm 1 ft 11 5 8 in 80 hp Kirchlengern Hille railway Walluckebahn in Germany596 1900 nbsp Initially 0 4 0 later 0 6 0 1 000 mm 3 ft 3 3 8 in 125 hp Soest No 9 of the Ruhr Lippe Eisenbahngesellschaft in Germany614 1900 nbsp 0 4 0 750 mm 2 ft 5 1 2 in 30 hp Initially Pakis Baru 1 now Statfold Barn Railway617 nbsp 0 6 2 750 mm 2 ft 5 1 2 in 100 hp Two cylinder locomotive with three coupled axles and one radial axle Steam bell outer frame upper water tanks Delivered to the Rosenberger Kreisbahn683 1900 nbsp 0 4 0 508 mm 1 ft 8 in 10 hp Dinty Cosmopolitan Proprietary Mine Kookynie Western Australia 22 23 ca 1900 nbsp 0 4 0 610 mm 2 ft Moira Coal Mine Collie Western Australiaca 1900 nbsp 0 4 0 Sugar cane plantation of the Nederlandsch Indische Spoorwegenca 1900 nbsp Douglas Port Douglas Tramway from Mossman to Port Douglas in Queensland Australia687 1901 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 20 hp Ceper 2 PG Gondang Baru Klaten Indonesia718 1901 nbsp 0 4 0 610 mm 2 ft 30 hp Magnet 2 Magnet Silver Mining Co Tasmania 22 now Wee Georgie Wood Railway719 1901 nbsp 0 4 0 610 mm 2 ft 30 hp Ordered by North Mount Farrell Mining in Tasmania but not operated there later Cairns Town Council Edge Hill Tramway Queensland 22 723 1900 nbsp 0 4 0 610 mm 2 ft 30 hp Kearsney Stanger Light Railway in the Colony of Natal now KwaZulu Natal in South Africa 24 724 1900 nbsp 0 6 0 610 mm 2 ft 50 hp Kearsney Stanger Light Railway in the Colony of Natal now KwaZulu Natal in South Africa 25 725 nbsp 4 2 0 600 mm 1 ft 11 5 8 in 40 hp Monte Alegre for the Usina Monte Alegre sugar mill in Piracicaba in Sao Paulo Brazil731 1902 nbsp 0 4 2 610 mm 2 ft 40 hp East Murchison United Ltd Lawlers Western Australia 22 772 1901 nbsp 0 4 2 600 mm 1 ft 11 5 8 in 60 hp Jatiroto J70 Jatiroto PG Jatiroto Indonesia773 1901 nbsp 0 4 2 600 mm 1 ft 11 5 8 in 60 hp Ngadirejo 71 PG Ngadirejo Kediri Indonesia777 1901 nbsp 0 4 2 600 mm 1 ft 11 5 8 in 60 hp Pajarakan 2 Kelut PG Pajarakan Probolinggo Indonesiaca 1901 nbsp 0 4 2 700 mm 2 ft 3 9 16 in 60 hp Tender locomotive with open cab traction pump suspension hand bell melting plug Built according to Dutch Indian regulations Delivered to India 810 nbsp 0 4 0 The so called Stink Express disposed waste and sewage sludge in Jodhpur Rajasthan India819 1901 nbsp 0 4 0 825 mm 2 ft 8 1 2 in 20 hp Burdekin James Boyd firewood supplier Charters Towers Queensland Australia 22 851 1902 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 30 hp Initially P Dinndorf Strasbourg now agricultural museum in Eschach Seifertshofen Germany882 Delivered 1901 nbsp 0 4 4 0 Mallet 610 mm 2 ft Magnet Tramway No 2 Tasmania Supplied by Central Mining amp Tramway Appliances Proprietary Ltd 1901 26 22 893 1901 nbsp 0 4 2 600 mm 1 ft 11 5 8 in 60 hp Merican 4 PG Merican Kediri Indonesia894 1901 nbsp 0 4 2 600 mm 1 ft 11 5 8 in 60 hp Merican 6 PG Merican Kediri Indonesia898 1901 nbsp 0 4 2 600 mm 1 ft 11 5 8 in 60 hp Rejosari 1 PG Rejosari Madiun Indonesia930 1902 nbsp 0 4 4 0 Mallet 600 mm 1 ft 11 5 8 in 80 hp No 5 Hamra Ostra Sodermanlands Jarnvag Swedenca 1902 nbsp 0 4 4 0 Mallet 600 mm 1 ft 11 5 8 in Toul 1 Public works company Estrade Taher Franceca 1902 nbsp 0 4 0 1 000 mm 3 ft 3 3 8 in 125 hp Two cylinder compound locomotive with two coupled axles Supplied to the Ruhr Lippe Kleinbahnen Steam bell vacuum brake Konig system central lubrication deviceca 1902 nbsp 0 4 0ca 1902 1912 nbsp 0 4 4 0 Mallet 750 mm 2 ft 5 1 2 in Sigi railway Tanzania1001 1905 nbsp 0 6 0 107 hp Asturias 6 narrow gauge railway Valdepenas Puertollano El trenillo de La Calza Spain 27 1080 1903 nbsp 0 6 0 1 000 mm 3 ft 3 3 8 in Sold to Jallut via the Orenstein amp Koppel office in Brussels 28 1089 nbsp 0 4 4 0 Mallet 1 000 mm 3 ft 3 3 8 in Lenz Type ii built by Orenstein amp Koppel No 11 161166 1903 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 50 hp Minas de Utrillas 29 1162 1903 nbsp 0 4 0 750 mm 2 ft 5 1 2 in 80 hp Initially Jacob amp Bartisch construction company Leipzig later lignite mine Concordia Nachterstedt from 1930 lignite mine Gewerkschaft Humboldt Thuste Wallensen 8 since 1966 exhibited at the playground Seelze Letter since 1994 Emmerthal Luntorf since 1996 narrow gauge museum Rittersgrun Saxony Germany1167 1903 nbsp Bn2t 600 mm 1 ft 11 5 8 in 50 hp Turba 3 Minas de Utrillas Spain since 1983 at the heritage railway Paderborn since 1985 Guldental 1 Heddesheimer Feldbahn H amp G Faust1339 1904 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 10 hp Initially Rigeo Eretria railway now railway museum Athens1358 ca 1912 nbsp 0 4 4 0 Mallet 600 mm 1 ft 11 5 8 in Mallet locomotive with outer cylinders for the Bromberger Kreisbahnen von Eisenhardt 1403 1404 1905 nbsp 0 6 0 2 ft 610 mm Hacienda Tenextepango Morelos Mexico 24 inch 0 6 0 s O amp K works Nos 1403 4 1905 delivered via Arthur Koppel and 2128 1906 via Hermann Sommer The mill was dynamited in 1913 during the Mexican revolution1411 1904 nbsp 0 4 0 560 mm 22 Zoll 20 hp Northern Colliery Company Waro Limestone Scenic Reserve New Zealand Sold on to New Zealand Cement Co on Limestone Island in the 1910s and from there to Wilson s Portland Cement Co in Portland in 1918 where it was operated as Bertha It later went to the Museum of Transport and Technology in Auckland where it is still preserved as a museum 30 1904 1912 nbsp 0 8 0 785 mm 2 ft 6 29 32 in 200 hp No 11 20 since 1910 Kattowitz 113 122 No 23 and 24 Kattowitz 125 126 and Kattowitz 127 130 seven were renumbered to 99 401 406 and 407 408 1450 1905 nbsp 0 4 4 0 120 hp Atlamaxac built for Mr Sebastian de Mier s ranch in Atlamaxac Puebla Mexico 1459 1905 nbsp 0 4 0 1 067 mm 3 ft 6 in Domburg of the Utrecht builder J van Noordenne who sold it in 1908 to the builder Arntz in Millingen Unusual track gauge of 1 067 mm 3 ft 6 in instead of 900 mm 1473 1905 nbsp 0 4 4 0 Mallet 762 mm 2 ft 6 in 60 hp Initially sugar mill Pakis Baru now Statfold Barn Railway1480 nbsp 0 4 0 20 hp Sydney Alte Normalien old standard was used by Orson Wright amp Co between 1907 and 1911 in the construction of the Ambergate Reservoir The locomotive passed to H Arnold amp Son on 10 May 1912 31 1498 1904 nbsp 0 6 0 1 000 mm 3 ft 3 3 8 in 50 hp Rajahgopal Cochin State Forest Tramwayca 1903 1905 nbsp 0 4 4 0 Mallet 610 mm 2 ft Magnet Tramway No 3 Tasmania Supplied by Central Mining amp Tramway Appliances Proprietary Ltd between 1903 and 1905 Front low pressure cylinders 12 inches 12 inches rear high pressure cylinders 8 inches 12 inches wheel diameter 2 feet 1 inch rigid wheelbase 4 feet 3 inches total wheelbase 10 feet boiler pressure 170 lb per square inch weight in service 18 tons 32 1567 1905 nbsp 2 4 0 891 mm 2 ft 11 3 32 in Swedish 3 ft gauge Borgholm initially Borgholm Boda Jarnvag BBJ No 1 later Olands Jarnvagar Nr 7 33 1568 1905 nbsp 2 4 0 891 mm 2 ft 11 3 32 in Swedish 3 ft gauge Initially Borgholm Boda Jarnvag BBJ No 2 later Olands Jarnvagar No 8 33 1602 1905 nbsp 0 4 0 Grytgol 4 Ljusfallshammar Sweden 34 1611 1906 nbsp 0 4 0 891 mm 2 ft 11 3 32 in Swedish 3 ft gauge Gota sulfitfabrik Vastergotland 35 1627 1905 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 40 hp Bertha 12 Chemin de fer des Chanteraines1694 1920 nbsp 0 4 0 610 mm 2 ft Gas Light and Coke Co G L C C Kensal Green1696 1906 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 20 hp Forest railway locomotive on the grass verge of Avenida Mitre between Avenida Lopez Torres and Calle 25 de Mayo in Posadas Argentina The cow catcher is probably based on the imagination of the erectors The driver s cab also seems to be a simplified replica 1767 1905 nbsp 610 mm 2 ft Matheran Hill Railway1775 1906 nbsp 4 2 0 610 mm 2 ft 50 hp No 1 South Western Railway Company Knysna South Africa 36 1786 1905 nbsp 0 4 4 0 Mallet 600 mm 1 ft 11 5 8 in 80 hp Pesantren 150 PG Pesantren Baru Kediri Indonesia1878 1906 nbsp 600 mm 1 ft 11 5 8 in Built for Caminho de Ferro Mossamedes Angola1787 1905 nbsp 0 4 4 0 Mallet 600 mm 1 ft 11 5 8 in 80 hp Pesantren 151 PG Pesantren Baru Kediri Indonesia1847 1906 nbsp 4 4 0 891 mm 2 ft 11 3 32 in Swedish 3 ft gauge Der Kaiser initially Borgholm Boda Jarnvag BBJ No 3 later Olands Jarnvag OJ No 9 since 1947 SJ w3p 3059 scrapped in 1953 37 38 1870 1875 2069 2070 2356 2361 2731 2734 3182 3184 4198 4199 1906 1910 nbsp 0 8 01 Dnv2t No 1 6 1 Dn2t others 1 067 mm 3 ft 6 in Luderitz Bay Railway and South African Railways2029 1906 nbsp 0 4 0T 600 mm 1 ft 11 5 8 in 20 hp LVD1 Parada Sud Quarry near Pueblo Centenario 39 Hanko amp Co Argentinia preserved by Circulo de Estudios Ferroviarios del Uruguay CEFU at the Railway Museum in Montevideo Central Station Uruguay ex Lucas Jose Obes2046 1906 nbsp 0 4 0 600 mm 1 ft 11 5 8 in Used by ASEA for the construction of the northern part of the Lidingobanan2053 1906 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 40 hp Frankfurter Feldbahnmuseum No 42076 1906 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 40 hp Used by ASEA for the construction of the Lidingobanan2098 1906 nbsp 0 4 4 0 Mallet 600 mm 1 ft 11 5 8 in 30 hp Wonolangan 7 PG Wonolangan Probolinggo Indonesia2128 1906 nbsp 0 6 0 2 ft 610 mm Hacienda Tenextepango Morelos Mexico 24 inch 0 6 0 s O amp K works Nos 1403 4 1905 delivered via Arthur Koppel and 2128 1906 via Hermann Sommer The mill was dynamited in 1913 during the Mexican revolution2220 nbsp 0 4 2 1 067 mm 3 ft 6 in Khartum Wadi Halfa railway2240 1907 nbsp 0 6 0 610 mm 2 ft 100PS No 2 South Western Railway Company Knysna South Africa 36 2271 1907 nbsp 0 4 0 610 mm 2 ft 30 hp Initially Public Works Department of Victoria land reclamation work at the Coode Canal Port Melbourne later Western Australian Public Works Department Point Samson Roebourne 22 2303 1907 nbsp 0 4 0 610 mm 2 ft 30 hp Harvey Western Australia see also No 2271 1997 2342 1907 nbsp 0 6 0 610 mm 2 ft 150 hp 739 Matheran Matheran Hill Railway heute National Rail Museum of India New Delhi 2343 1907 nbsp 0 6 0 610 mm 2 ft 150 hp 740 Matheran Matheran Hill Railway now Leighton Buzzard Light Railway2378 1907 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 30 hp Utrillas Lancashire Mining Museum West Lancashire Light Railway until 2021 2424 1907 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 20 hp Similar to 2461 1907 Whim Creek Copper Mine near City of Karratha Western Australia 22 1907 nbsp 0 8 0 Naters Switzerland2346 1907 nbsp 0 6 0 600 mm 1 ft 11 5 8 in 20 hp Hacienda San Nicolas del Monte Chaparro Michoacan Mexico2413 2416 nbsp 0 8 0 Loetschberg 42 Switzerland2448 1908 nbsp 0 4 0 Delivered to Lotschbergbahn as a construction locomotive later probably Simplon No 4 used at Brig during the construction of the Simplon Tunnel2475 1907 nbsp 0 4 0 600 mm 1 ft 11 5 8 in Fia 1 Aspa Bruk Agare Munksjo AB Sweden 40 2525 nbsp 0 4 0 891 mm 2 ft 11 3 32 in Swedish 3 ft gauge Skanska Jarnvagar2604 1907 nbsp 0 6 0 1 000 mm 3 ft 3 3 8 in 150 hp Cochin State Forest Tramway2609 1907 nbsp 0 4 4 0 Mallet 610 mm 2 ft 110 hp Orenstein amp Koppel Ltd London Berlin General Agents The Central Mining amp Tramway Appliances Proprietary Ltd 40 Hunter Street Sydney 41 Magnet Tramway now Bennett Brook Railway2641 1907 nbsp 0 4 0 750 mm 2 ft 5 1 2 in Union Bergb Wien 1907 Rheinregulierungsbahn Steffi 1937 now Technisches Museum TMW Depot Marchegg2649 1908 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 40 hp Tacot des Lacsca 1908 nbsp 0 4 0 600 mm 1 ft 11 5 8 in Taube pigeon the US army conficated the German locomotive in World War I near Cierges in France2677 1907 nbsp 0 8 0 750 mm 2 ft 5 1 2 in 200 hp Loetschberg N 32 compressed air locomotive2681 1907 nbsp 0 4 0 1 000 mm 3 ft 3 3 8 in 20 hp Bauru Sao Paulo Brazil2697 1908 nbsp 600 mm 1 ft 11 5 8 in Moortje Efteling Stoomtrein Maatschappij near Kaatsheuvel between Waalwijk and Tilburg Netherlands2728 1908 0 4 4 0 Mallet 600 mm 1 ft 11 5 8 in 60 hp Rejo Agung 23 PonenII PG Rejo Agung Madiun Indonesia See also N0 4494 1910 2748 nbsp 610 mm 2 ft Dunkley Brothers North East Dundas Tramway2762 1907 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 35 hp PG Tulungagung 1 Mojopanggung Java Indonesia2797 1908 nbsp 0 4 4 0Mallet 600 mm 1 ft 11 5 8 in 80 hp Initially Compania Minera de Torreon Mexico later Cia Minera de Penoles Avalos Mexico since 1964 1 Cripple Creek and Victor Narrow Gauge Railroad Colorado USA2903 and 2904 1908 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 30 hp SA amp Ind Forestali Bibbiena Italy2966 1908 nbsp 0 4 2 600 mm 1 ft 11 5 8 in 40 hp De Maas 4 PG De Maas Besuki Indonesia2967 1908 nbsp 0 4 2 600 mm 1 ft 11 5 8 in Lumajang PG Jatiroto Indonesia3009 1908 0 6 0 600 mm 1 ft 11 5 8 in 140 hpi KKP No 1 Kleinbahn Klockow Pasewalk since 1950 DR 99 4612 42 43 3010 1908 nbsp 0 6 0 600 mm 1 ft 11 5 8 in 140 hpi KKP No 2 Kleinbahn Klockow Pasewalk since 1950 DR 99 99 4613 42 43 3019 nbsp 0 4 2 Initially Hollandse Anneming Maatschappij later harbour locomotive of SA Railways in Paardeneiland Cape Town3053 1908 nbsp 0 4 0 600 mm 1 ft 11 5 8 in Dampf50 hp Aquilla initially Wuytack de Gand Belgium later S A de Beton Belges then Rail Rebecq Rognon 44 3127 nbsp Gerald amp Lorna Dee Collection Museums Victoria3136 1908 nbsp 0 4 0 600 mm 1 ft 11 5 8 in or 610 mm 2 ft 40 hp Amberley Museum Railway3161 3163 1908 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 40 hp Island of Angaur in German New Guinea from 1918 Nanyo Agency 南洋庁 in the Japanese South Seas Mandate The following 600 mm 1 ft 11 5 8 in gauge O amp K locomotives were supplied to Deutsche Sudseephosphat AG Angaur Nos 3161 3162 amp 3163 in 1908 No 4236 in 1910 and No 4783 in 1911 3174 1908 nbsp 0 6 0 600 mm 1 ft 11 5 8 in Ortal Group K6 Tramways du Lot et Garonne Tonneins France 45 3216 1908 nbsp 0 4 0 900 mm 90 hp Unterengstringen ZH gravel pit Kieswerk am Hardwald Dietikon Switzerland3247 1909 nbsp 0 6 0 600 mm 1 ft 11 5 8 in 20 hp Hacienda San Nicolas del Monte Chaparro Michoacan Mexico3248 1909 nbsp 0 4 0 600 mm 1 ft 11 5 8 in Railway from Embleton Quarry to Christon Bank station and to the small harbour at Craster Northumberland Fanny Gray O amp K 3248 1909 in front of Dunstanburgh Jung 812 1904 3377 1908 nbsp 0 8 0 750 mm 2 ft 5 1 2 in Gluckauf Trusebahn later DR 9945311430 1908 nbsp 0 8 0 785 mm 2 ft 6 29 32 in 200 hp Kattowitz II The Urskog Holandsbanen from Sorumsand to Skulerud in Norway 750 mm 2 ft 5 1 2 in gauge got an offer for an O amp K locomotive like the one but never bought it 3310 1909 nbsp 0 6 0 610 mm 2 ft 60 hp German Annie 4 Proserpine Central Mill Co Ltd Queensland Australia 22 3311 1909 nbsp C 1 n2t 610 mm 2 ft 120 hp Kaiser Gin Gin Central Mill Co Ltd Wallaville Queensland Australia 22 3317 1909 nbsp 0 4 2 610 mm 2 ft 40 hp Jatiroto 23J Lumajang PG Jatiroto Indonesia3324 1909 nbsp Sugar mill Ketanen Modjokerto East Java Dutch East Indies now Indonesia 3325 1909 nbsp Sugar mill Ketanen Modjokerto East Java Dutch East Indies now Indonesia 3358 1909 nbsp 0 3 0 Monorail locomotive Ewing System Patiala State Monorail Tramways now National Rail Museum of India New Delhi The locomotive s three wheels run with double wheel flanges on a steel rail laid along a road and transfer about 95 of the weight A support wheel prevents the locomotive from tipping over 3362 1909 nbsp 0 4 0T 900 mm or 891 mm 140 hp H Weber Unnam construction of the Osterfeld Hamm railway delivered to Datteln Skanska Cement AB Schweden later Limhama preserved as Cementa N 16 at Hesselby Jernvagar Gotland Sweden3452 1910 nbsp 0 4 4 0 Mallet 80 hp Compagnie de l Union in Mazaugues France3488 1909 nbsp 0 4 0T T 600 mm 1 ft 11 5 8 in 30 hp Delivered to Genietroepen Utrecht for Kamp van Zeist Netherlands3493 1909 nbsp 2 4 0 750 mm 2 ft 5 1 2 in The Borneo Co Ltd in Lampang in Siam3498 1909 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 20 hp Anita 6 Mines at Dicido Miono Spain3509 nbsp 0 6 03724 nbsp 0 4 0 Bei Drabo in Ostergotland Sweden3753 1909 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 60 hp Pagottan 1 PG Pagottan Madiun Indonesia3771 1909 nbsp 0 6 0 610 mm 2 ft 50 hp Goodwood Tramway Kalgoorlie and Boulder Firewood Co Beria Western Australia 22 3789 1910 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 100 hp Kanigoro Nr 5 PG Kanigoro Madiun Indonesia3902 1909 nbsp 0 4 4 0Mallet 600 mm 1 ft 11 5 8 in 30 hp Frankfurter Feldbahnmuseum No 133904 nbsp 2 4 0 From Orenstein Arthur Koppel Company 30 Church St New York via Schwab amp Tillmann agent for Cuba San Ignacio 76 Habana to Central dos Amigos 46 3940 1910 nbsp 0 6 6 0 Mallet 1 000 mm 3 ft 3 3 8 in 500 hp 55 t NWE No 32 of three Nordhausen Wernigeroder Eisenbahn Gesellschaft3980 1910 nbsp 0 8 0 760 mm 2 ft 5 15 16 in 80 hp Initially Toth Mihaly Budapest later 764 211 then 6110 Rachita Museum Satului Bukarest since 2004 Măriuța Mocăniță pe traseul CFF Vișeu Romania3952 1910 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 100 hp Purwodadi 8 PG Purwodadi Ngawi Indonesiaca 1910 nbsp Theo Sugar mill Tjoekir in Jombang Indonesia3961 1910 nbsp 0 8 0 610 mm 2 ft 50 hp Goodwood Timber and Tramway Co Ltd Port Albert Victoria Australia 22 3999 1910 nbsp 0 6 0 600 mm 1 ft 11 5 8 in Ortal Group K4 Tramways du Lot et Garonne Tonneins France 45 4011 1910 nbsp 0 6 0 600 mm 1 ft 11 5 8 in 20 hp Ferrocarril Austral Fueguino El Tren del Fin del Mundo now plinted at the jail of Ushuaia4017 1910 nbsp 0 4 0 Initially 600 mm 1 ft 11 5 8 in later 1 000 mm 3 ft 3 3 8 in 20 hp FC Midland de Buenos Aires and Talleres Libertad later Domingo Faustino Sarmiento Railway X 5 now Plaza Once Buenos Aires Argentina 47 4028 nbsp 600 mm 1 ft 11 5 8 in Makatea Tuamotu French Polynesia4058 1910 nbsp 0 4 0 Carnarvon Tramway Western Australia 48 4083 1910 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 40 hp Munster4115 1910 nbsp 0 8 0T 750 mm 2 ft 5 1 2 in 40 hp Lovcen BAr Virpazar Montenegro now on display at Podgorica station4134 1910 nbsp 0 4 0 t 750 mm 2 ft 5 1 2 in Cornella No 14 Narrow gauge railway Palamos Girona Banyoles and later narrow gauge railway Valdepenas Puertollano 49 4135 1910 nbsp 0 4 0 t 750 mm 2 ft 5 1 2 in Mercedes No 15 Narrow gauge railway Palamos Girona Banyoles and later narrow gauge railway Valdepenas Puertollano 49 4201 1910 nbsp 2 6 0 2 ft 610 mm Ingenio Tilapa 1 Aldama Sugar Mill Puebla Mexico4202 1910 nbsp 2 6 0 2 ft 610 mm Ingenio Tilapa 2 Aldama Sugar Mill Puebla Mexico4244 1910 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 60 hp Pagottan 2 PG Pagottan Madiun Indonesia4264 1910 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 60 hp Kanigoro 2 Madiun Java Indonesia4300 1910 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 60 hp Olean 7 PG Olean Situbondo Indonesia4360 1910 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 60 hp Olean 2 PG Olean Situbondo Indonesia4400 1910 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 60PS Kebonagung 2 PG Kebonagung Malang Indonesia4403 1911 nbsp 0 6 0 1 435 mm 4 ft 8 1 2 in Preussische Staatsbahn Gattung T3 N 89 61434445 1910 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 60 hp Purwodadi 10 PG Purwodadi Ngawi Indonesia1910 nbsp 0 6 0 1 000 mm 3 ft 3 3 8 in Nr 59 Initially Ferrocarriles del Estado and a construction company of Santiago del Estero later Tranway Rural Reconquista 50 1910 nbsp 0 4 0 40 hp Initially Isnardi Alves amp Cia since 1913 Cia Matte Laranjeira at Estrada de Ferro Guaira a Porto Mendes since 1944 N 4 of Servico de Navegacao da Bacia do Prata SNBP operational until 1959 or 1916 now exhibited at Guaira Parana Brazil4614 4621 1911 nbsp 1 Dn2 1 067 mm 3 ft 6 in Luderitz Bay Railway and South African Railways4623 1911 nbsp 0 6 0 Initially 750 mm 2 ft 5 1 2 in later 914 mm 3 ft 60 hp First locomotive of the FCCSA preserved at Estacion Wanchaq Cuzco Peru4631 1911 nbsp Bn2t 762 mm 2 ft 6 in Grafton Copper Mining Co in Cangai near Grafton in New South Wales Australia4359 1910 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 60 hp Purwodadi 16 PG Purwodadi Ngawi Indonesia4494 1910 nbsp 0 4 4 0 Mallet 600 mm 1 ft 11 5 8 in 60 hp Rejoagung 23 PonenII 51 52 see also No 2728 1908 ca 1910 nbsp 0 3 0 600 mm 1 ft 11 5 8 in 20 hp 2 2 coupled tender locomotive 5 4 tonnes 5 3 long tons 6 0 short tons used at the Battles of the Isonzo 25 May 19184676 1911 nbsp 0 4 0 1 067 mm 3 ft 6 in 30 hp Mizuma Town Kurume Fukuoka Japan4698 4700 1911 nbsp Japan 53 4720 1911 nbsp 0 4 0 750 mm 2 ft 5 1 2 in 30 hp Initially Usines Carrieres de Vaujours et Livry Gargan later Roche sur Foron Haute Savoie now Stefanie Chemin de fer touristique d Abreschviller4819 nbsp Delivered to Francisco Brunet Manati The lettering Orenstein amp Arthur Koppel Comp Berlin Nueva York Agentes Generales para la usla de Puerto Rico Koerber amp Co San Juan is unusual O amp K delivered only 19 locomotives to Puerto Rico and the name Koerber does not appear in the delivery lists Orenstein amp Koppel Arthur Koppel was otherwise used 4863 1911 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 60 hp Gempolkerep 15 Mojokerto Indonesia4868 1911 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 60 hp Asembagus 16 Slamet Asembagus Situbondo Indonesia4870 1911 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 60 hp Wringinanom 6 PG Wringinanom Situbondo Indonesia4880 1911 nbsp 0 8 0 610 mm 2 ft South Western Railway Company Knysna South Africa 36 4930 1911 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 30 hp Initially Wegerif Amsterdam later brick works Ijsseloord Arnhem Netherlands since 1968 Aagje Efteling Stoomtrein Maatschappij near Kaatsheuvel between Waalwijk and Tilburg Netherlands4987 1920 nbsp 0 6 0 1 000 mm 3 ft 3 3 8 in 60 hp Diss amp Co Puerto de Adra Spain4990 1911 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 60 hp Wonolangan 2 PG Wonolangan Probolinggo Indonesia4991 1911 nbsp 0 4 4 0 Mallet 600 mm 1 ft 11 5 8 in 80 hp Asembagus 8 Asembagus Situbondo Indonesia5020 1911 nbsp 0 8 0 600 mm 1 ft 11 5 8 in Tx2 355 Narrow Gauge Railway Museum in Wenecja Poland 54 now Plac Strzelecki Wroclaw5081 1911 nbsp 0 6 2 508 mm 1 ft 8 in 50 hp The Sons of Gwalia Ltd Leonora Western Australia Koppel 22 5102 1912 nbsp 0 4 0 914 mm 3 ft 140 hp Poldark Mine bei Wendron Cornwall5152 1911 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 80 hp Kanigoro 4 PG Kanigoro Madiun Indonesia5179 1912 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 50 hp Katharina Moor und Fehnmuseum Elisabethfehn in Barssel Germanyca 1912 nbsp 0 4 0 750 mm 2 ft 5 1 2 in 50 hp5199 1911 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 60 hp Rendeng 02 PG Rendeng Kudus Indonesia5217 1912 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 60 hp Gempolkerep 14 Mojokerto Indonesia5297 1912 nbsp 0 4 0 1 067 mm 3 ft 6 in 40 hp Miyazaki Kotsu Railway SL No 1 1913 1962 now JR Lyushu Nichinan Line5301 5305 1912 20 hp Delivered to Argentina The main dimensions changed in 1912 from 145 mm 260 mm cylinders and 900 mm axle distance Alte Normalien old standard to 150 mm 275 mm cylinders and 1200 mm axle distance Neue Normalien new standard 5335 1912 nbsp C n2 750 mm 2 ft 5 1 2 in 80 hp Sri Maharacha Timber Company SRJ Si Racha SRJ 6 now Surasak Montri Public Park Si Racha Thailand5343 1912 nbsp D n2 2 ft 610 mm 100 hp N 4 ASPILLAGA 100hp ordered for Hacienda Cayalti in Cayalti District Region de Lambayeque Peru5438 1912 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 60 hp Merapi 15 Asembagus Situbondo Indonesia5440 1912 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 60 hp Olean 4 PG Olean Situbondo Indonesia5658 1912 nbsp 0 4 0 600 mm 1 ft 11 5 8 in Stockholms Elektricitetsverk Untraverket 1 1916 decommissioned since 1917 Vattenfall CF 10 decommissioned 1952 55 5662 1912 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 50 hp Initially Argentina now Apedale Valley Light Railway After leaving Statfold Barn Railway for a private site in Whaley Bridge in 2013 it came to Apedale in May 2022 after a full restoration to steam The original livery from Argentina has been retained by the owners and it is paired with a tender from its time in Argentina It will be based at Apedale for the foreseeable future and will operate occasionally on passenger trains throughout the year 5668 1913 nbsp 0 4 0 600 mm 1 ft 11 5 8 in or 610 mm 2 ft 30 hp Initially Penrhyn Quarry Railway 1963 sold to Bressingham Steam and Gardens Since 1995 at Bredgar and Wormshill Light Railway 56 5672 1912 nbsp 0 6 0 600 mm 1 ft 11 5 8 in Petter No 1 Lindfors Bosjons Jarnvag 57 58 5745 1912 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 20 hp Initially Ferrocarriles en el cono sur FCS Argentina now Chapel Hydraulique GmbH Kimmerle Ring Gunzburg Germany5754 1913 nbsp 2 6 0 1 000 mm 3 ft 3 3 8 in 200 hp E 94 Vale de Vouga Comboios de Portugal Portugal5755 1912 nbsp 2 6 0 1 000 mm 3 ft 3 3 8 in 200 hp E 96 Decauville Locomotive No 5755 1913 Vale de Vouga Comboios de Portugal Portugal now Musee des tramways a vapeur et des chemins de fer secondaires francais in Butry sur Oise in departement Val d Oise 30 kilometres 19 mi north of Paris5756 1913 nbsp 2 6 0 1 000 mm 3 ft 3 3 8 in 200 hp Companhia Real dos Caminhos de Ferro Portuguese E 91 Vale de Vouga Comboios de Portugal Portugal5757 1913 nbsp 2 6 0 1 000 mm 3 ft 3 3 8 in 200 hp Companhia Real dos Caminhos de Ferro Portuguese E 97 Vale de Vouga Comboios de Portugal Portugal5805 1912 nbsp 0 6 0 762 mm 2 ft 6 in 90 hp No 201 of Japanese government railways later LCK 31 of the Taiwaneses government railway now plinthed in Hualien Taiwan5744 1912 nbsp 0 4 0 600 mm 1 ft 11 5 8 in Initially Obras de Irrigacion del Territoria del Rio Negro later Mono Azul near Vista Alegre Sur and Centenario Neuquen Argentina now Rebecca Devon Railway Centre Bickleigh Devon England 59 5829 1913 nbsp 0 4 0 600 mm 1 ft 11 5 8 in 50 hp Train de Rille5834 1913 nbsp 0 4 0 610 mm 2 ft 20 hp No 11 P C Allen weight 5 57 tonnes Was in service at a Solvay Alkali Plant in Torrelavega Spain Named after the chairman of ICI from 1968 to 1971 who was a light railway enthusiast and instigated the rescue of this locomotive Now Leighton Buzzard Light Railway 5856 1912 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 60 hp Olean 1 PG Olean Situbondo Indonesia5857 1912 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 60 hp Sumberharjo 2 PG Sumberharjo Pemalang Indonesia5859 1912 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 60 hp Pesantren 9 PG Pesantren Baru Kediri Indonesia5885 1912 nbsp 0 4 0 1 067 mm 3 ft 6 in 40 hp Johoku Kotsu Park Itabashi Tokio Japan5933 1913 nbsp Putte was used from 1914 to 1934 between Baven and the Likstammen lake Baven Likstammen Jarnvag Axalabanan Sweden5990 1912 nbsp originally 0 4 0T later 0 4 2T 600 mm 1 ft 11 5 8 in 60 hp Sold in 1912 to Decauville Sao Paulo as an agent or reseller later Craig amp Martin Brasil later Estrada de Ferro Perus Pirapora EFPP No 8 chemin de fer de Cimento Portland Perus Cajamar later converted to 0 6 2 now LP Assessoria Industrial e Restauracoes Ltda Votorantim SP 60 61 6008 1912 nbsp 0 4 4 0 Mallet 600 mm 1 ft 11 5 8 in 60 hp Candi 6 Sidoarjo Indonesia6320 1913 nbsp 0 6 0 Elza former Zrenjanin Sugar locomotive at Mokra Gora nbsp 0 4 0 600 mm 1 ft 11 5 8 in The US army conficated the German locomotive in World War I near Abainville in France and applied the lettering U S A X6023 but this was not O amp k 6023 which was a 0 8 0 T for sugar mill Tjoekir Java 6024 nbsp 0 4 4 0 Mallet 610 mm 2 ft Cia Minera Penoles Avalos Mexiko6039 1912 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 60 hp Purwodadi 11 PG Purwodadi Ngawi Indonesia6389 1913 nbsp 0 8 0 600 mm 1 ft 11 5 8 in 80 hp Tasik Madu III Solo Java Indonesia5896 und 5897 1912 nbsp 0 8 0 600 mm 1 ft 11 5 8 in Nybergs Gruv AB 1 and Nybergs Gruv AB 2 Nyberget Morgardshammar Nybergets Jarnvag NJ Nybergs Gruv Avesta Jernverks AB Sweden 62 5896 und 5897 1912 nbsp 0 8 0 600 mm 1 ft 11 5 8 in Nybergs Gruv AB 1 and Nybergs Gruv AB 2 Nyberget Morgardshammar Nybergets Jarnvag NJ Nybergs Gruv Avesta Jernverks AB Sweden 62 6126 1913 nbsp 0 4 0 Hallefors Bruk No 66519 1913 nbsp 0 4 0 610 mm 2 ft 10 hp Sold via Decauville to the South Australian Irrigation and Reclamation Department in Pompoota on the Murray River 22 6520 1913 nbsp 0 4 0 610 mm 2 ft 10 hp Sold via Decauville to the South Australian Irrigation and Reclamation Department in Pompoota on the Murray River 22 6533 1913 nbsp 0 4 0 762 mm 2 ft 6 in 50 hp Initially Mitsui Bussan Kaisha Kobe now Igasa Railway Okayama Japan6559 1914 span, wikipedia, wiki, book, books, library,

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