2-10-2

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2-10-2 (Santa Fe)
WheelArrangement 2-10-2.svg
2-10-2 tandem compound locomotive, Santa Fe (Howden, Boys' Book of Locomotives, 1907).jpg
ATSF tandem compound 2-10-2
Equivalent classifications
UIC class 1E1, 1′E1′
French class 151
Turkish class 57
Swiss class 5/7
Russian class1-5-1
First known tank engine version
First use1922
CountryGermany
Locomotive Prussian T 20
Railway Deutsche Reichsbahn
Designer Prussian state railways
Builder Borsig & Hanomag
First known tender engine version
First use1903
CountryUnited States
LocomotiveAT&SF 900 class
Railway Atchison, Topeka and Santa Fe
BuilderAtchison, Topeka and Santa Fe
Evolved from 2-10-0, 2-8-2
Evolved to 2-10-4
BenefitsDeeper firebox and better steaming than the 2-10-0
DrawbacksNosing action at speed
First known "True type" version
First use1919
CountryUnited States
LocomotiveAT&SF 3800 class
RailwayAtchison, Topeka and Santa Fe
BuilderAtchison, Topeka and Santa Fe
Evolved to 2-10-4
BenefitsLarger and deeper firebox
DrawbacksNosing action at speed

Under the Whyte notation for the classification of steam locomotives, 2-10-2 represents the wheel arrangement of two leading wheels, ten powered and coupled driving wheels, and two trailing wheels. In the United States and elsewhere the 2-10-2 is known as the Santa Fe type, after the Atchison, Topeka and Santa Fe Railway that first used the type in 1903.

Contents

Overview

The 2-10-2 wheel arrangement evolved in the United States from the 2-10-0 Decapod of the Atchison, Topeka and Santa Fe Railway (ATSF). Their existing 2-10-0 tandem compound locomotives, used as pushers up Raton Pass, encountered problems reversing back down the grade for their next assignments since they were unable to track around curves at speed in reverse and had to run very slowly to avoid derailing. Consequently, the ATSF added a trailing truck to the locomotives which allowed them to operate successfully in both directions. [1] These first 2-10-2 locomotives became the forerunners to the entire 2-10-2 family. [2]

The trailing truck allows a larger, deeper firebox than that of a 2-10-0. Like all ten-coupled designs, the long rigid wheelbase of the coupled wheels presented a problem on curves, requiring flangeless drivers, lateral motion devices and much sideplay on the outer axles. To limit this problem, the coupled wheels were generally small, up to 64 inches (1,630 mm) in diameter, which in turn generated the problem of insufficient counterweights to balance the weight of the driving rods. [2]

The 2-10-2's inherent problem was the low speed restriction on the type, which was about 35 mph (56 km/h). Further, the 2-10-2 had other inherent restrictions. The massive cylinders that were required on locomotives in the United States for high tractive effort had the result that no reasonably sized valves could admit and exhaust steam at a sufficient rate to permit fast running. In addition the 2-10-2, like the 2-6-2, had its main rod connected to the middle coupled axle, very near to the centre of gravity, which created a violent nosing (waddling) action when operating at speed. The peak of the 2-10-2 design limitations was reached in the United States in 1926 and was overcome with the advent of the superior 2-10-4 design. [2]

Usage

Locomotives with a 2-10-2 wheel arrangement were used in a number of countries around the world, including those in North America, Western Europe, China, the Soviet Union and Africa. Continental Europe saw a fair number of 2-10-2s, although the type was always less popular than 2-8-2 Mikados and 2-10-0 Decapods. A large number of European 2-10-2s were tank locomotives, taking advantage of the symmetrical nature of the wheel arrangement.

Argentina

The metre gauge General Manuel Belgrano Railway in Argentina operated the E2 series of 2-10-2 locomotives. In 1956, Mitsubishi Heavy Industries of Japan constructed a batch of ten 2-10-2s based on this design for the isolated Ramal Ferro Industrial Río Turbio (RFIRP) 750 mm gauge railway in the southern Patagonian Desert, to haul coal from Río Turbio for shipping from Río Gallegos, Santa Cruz. These required modification by Livio Dante Porta to achieve their full potential. Ten more powerful examples were introduced into service in 1964. [3]

Belgian Congo

Two classes of 2-10-2 locomotives were used in the Belgian Congo.

Canada

In 1916, Canadian Government Railways (CGR) took delivery of ten 2-10-2s built by ALCO. After CGR became part of Canadian National Railways (CNR) in 1918, these locomotives were designated Class T-1-a. Ten more were delivered from the Montreal Locomotive Works in 1918, and another 25 slightly modified T-1-cs in 1920 that were 500 kilograms (1,100 lb) lighter. Canadian Locomotive Company produced five T-2-as in 1924. Ten ALCO's named "T-3-a" were acquired from the Boston and Albany Railroad in 1928. Canadian Locomotive Company produced the last series of 2-10-2s for CNR, a batch of 15 T-4-as in 1929, and 18 T-4-bs in 1930.

The 2-10-2s began to be scrapped in the mid-1950s, with the last models being used until 1961. There are two surviving CNR 2-10-2 locomotives. One is No. 4008, on display at the CNR Station in Rainy River, Ontario, and the other is No. 4100, on display at the Canadian Railway Museum in Delson, Quebec. [6]

China

The first QJ class locomotive China Railways HP3501.jpeg
The first QJ class locomotive

The mainstay of Chinese steam was their 2-10-2 locomotives. This was the wheel arrangement of the Chinese QJ class locomotives that were based on the Soviet locomotive class LV and built by Datong Locomotive Works from 1959. They were produced until 1988 and were still in widespread service until the final steam runs in 2005.

After retirement, some of these QJ class locomotives found their way to the United States, where they are used in revenue freight and excursion service. In Train Festival 2011, Multipower International restored two Chinese locomotives to Federal Railroad Administration (FRA) Part 230 specifications and delivered them to the Railroad Development Corporation. [7]

Germany

Prussian T 20, class BR95 95 027 Bw Berlin-Schoneweide 12.09.10.JPG
Prussian T 20, class BR95

Examples on the German railway systems included classes BR84 and BR85, both standard tank locomotive designs built in 1935 and 1937 respectively, and class BR95, a tank locomotive built in 1922 by the Prussian State Railways as the Prussian T 20.

From 1936, the German railways built 28 three-cylinder 2-10-2 tender freight locomotives of class BR45, which were the most powerful steam locomotives on the system. [8]

Further examples, still in regular service, are the metre-gauge DR Class 99.23-24 on the Harz Narrow Gauge Railways and the 750 mm-gauge DR Class 99.77-79 on the Rügen narrow-gauge railway.

Mozambique

CFM Class 250 2-10-2 No. 252 Mozambique CFM Class 250 2-10-2 no 252.JPG
CFM Class 250 2-10-2 No. 252

While the 2-10-2 wheel arrangement was not very common in Africa, the Lourenco Marques system in Mozambique ( Caminhos de Ferro de Moçambique or CFM) had altogether 37 locomotives of this type, in three classes.

Philippines

MRR 200 class on a turntable in Lucena, Quezon. MRR Santa Fe on a Turntable in Lucena.png
MRR 200 class on a turntable in Lucena, Quezon.

The Manila Railroad Company (now the Philippine National Railways) acquired ten 200-class locomotives in 1922 from the American Locomotive Company (Alco) and was purchased alongside the 4-8-2 170-class. Based on Henry Kirke Porter's acclaimed design of the 45 class, these were intended to replace the original Scottish-built tank locomotives as well as a small group of 4-4-2 tender locomotives that were acquired from the company's predecessors. [11]

They were serviced to haul heavy freight trains on the South Main Line between Manila and ‹See TfM› Lucena. [12] This class also had one of the largest cylinders of any unarticulated Cape-gauge locomotive according to Alco, but it comparatively had small boilers and grills. [13] Their arrival also called for larger 80-foot (24 m) turntables in both ends of the line, making them some of the largest and most powerful locomotives that entered Philippine service. [12] [14]

Out of ten locomotives, four managed to survive World War II, all of which were still in active service in 1952. [15] However, these locomotives were retired after the MRR turned to upgrading its fleet to diesel locomotives in 1956. Not a single unit was preserved.

Poland

PKP Class OKz32 Lokomotywa OKz32-2 z pociagiem retro PKP Cargo na p.o. Kasina Wielka..jpg
PKP Class OKz32

Twenty-five OKz32 2-10-2 tank locomotives were built by H. Cegielski – Poznań and delivered to PKP between 1934 and 1936. They were used mainly to work passenger trains between Kraków and Zakopane, a difficult railway line, steep in places, with many sharp curves, and requiring three direction changes. [16] One has been preserved in working condition. [16]

Romania

CFR 151.000 no. 151.002 at Cluj Depot Romania CFR 151.002 2-10-2.JPG
CFR 151.000 no. 151.002 at Cluj Depot

Romania designed its 151.000 Class as freight locomotives to serve on the Căile Ferate Române (CFR). These locomotives used a straightforward two-cylinder 650-by-720-millimetre (26 in × 28 in) engine with 1,500-millimetre-diameter (59 in) coupled wheels and a total weight in working order of 123 tonnes (121 long tons; 136 short tons). The heating surface of the boiler was 254.8 square metres (2,743 sq ft), of which 98.5 square metres (1,060 sq ft) were superheated, while the grate area was 4.72 square metres (50.8 sq ft). At a tractive effort of 21,294 kilograms-force (208.82 kN; 46,950 lbf), they were the most powerful steam locomotives built in Romania. [17]

Two of these locomotives were built by the Malaxa Works in 1939 and 1941, numbered 151.001 and 151.002. Number 151.002 was preserved.

South Africa

SAR Class 18 SAR Class 18 (2-10-2).jpg
SAR Class 18

On 3 ft 6 in (1,067 mm) Cape gauge , this wheel arrangement was first used by the South African Railways (SAR) in 1927. Two Class 18 steam locomotives, the most powerful non-articulated locomotives to see service on the SAR, were introduced on the line between Witbank and Germiston in an attempt to ease problems that were being experienced with increasingly heavy coal trains. It was designed by Colonel F.R. Collins DSO, Chief Mechanical Engineer of the SAR from 1922 to 1929, and built by Henschel and Son in Germany. They were three-cylinder locomotives, with the two outer cylinders using Walschaerts valve gear and the inner cylinder using Gresley conjugated valve gear, actuated by the motions of the outer cylinders. [10] [18] [19] [20] [21]

SAR Class 20 as experimental condensing locomotive SAR Class 20 2485 (2-10-2) Condenser.jpg
SAR Class 20 as experimental condensing locomotive

One more 2-10-2 locomotive, the Class 20, was designed for branch line work on light rail by A.G. Watson, Chief Mechanical Engineer from 1929 to 1936. Only one locomotive was built by the SAR at its Pretoria Mechanical Shops at Salvokop in 1935. [18] [19]

In 1950, this sole Class 20 locomotive was modified to an experimental condensing locomotive, equipped with a condensing tender that was ordered from Henschel in Germany in 1948. Beginning in 1951, tests with the condensing Class 20 were conducted in the Eastern Transvaal and the Karoo. The positive results of the condensing trials proved the viability of condensing locomotives in South Africa and led to the introduction of the Class 25 4-8-4 condensing locomotive fleet in 1953. [10] [18] [19] [20]

Soviet Union

In the Soviet Union, 2-10-2 locomotives were used to haul heavy freight trains. Two series were relatively common, the FD (for Felix Dzerzhinsky) with more than three thousand built through the 1930s, and the LV (Lebedyansky, modified by the Voroshilovgrad plant). [22]

Soviet locomotive class FD 2-10-2 in Brest museum Parovoz "Felix Dzherzinski" in Brest museum.jpg
Soviet locomotive class FD 2-10-2 in Brest museum

The FD class was developed from ALCO and Baldwin heavy freight locomotives that were imported to the Soviet Union, where they were designated as the Ta and Tb classes respectively. The first FD class locomotive was built at the Voroshilovgrad Locomotive Plant in 1931.

In 1932, the Voroshilovgrad plant began with the mass production of FD20 locomotives. In the process of production, their construction was improved constantly. Production was interrupted at the outbreak of the Great Patriotic war in 1941 and was only resumed in 1942, when four locomotives were built in Ulan Ude. The total production was 2,927 locomotives of FD20, and 286 locomotives of FD21. The two subclasses only differed in respect of their types of superheater.

OR18-01 at Lebyazhye Railway Museum OR18-01 at Lebyazhye Railway Museum, Leningrad Oblast, Russia.JPG
OR18-01 at Lebyazhye Railway Museum

In 1958, 1,054 FD class locomotives were sold to China, where they worked until the 1980s. A much lesser number were sold to North Korea at around the same time. [23]

The Soviet locomotive class LV was developed from the previous L class 2-10-0 locomotive by the Voroshilovgrad plant. It used a feedwater heater to increase thermal efficiency and was the most efficient freight steam locomotive in the Soviet Union, with thermal efficiency of 9.3%. The first prototype was named OR18-01 (October Revolution plant, 18 ton axle load). A total of 522 LV class locomotives were built. Several were preserved, including the first, OR18-01, and the last, LV-0522.

Spain

RENFE 151.5001 at Railway Museum of Catalonia Locomotora de Vapor 151F-3101.jpg
RENFE 151.5001 at Railway Museum of Catalonia

In Spain, the 2-10-2 wheel arrangement was represented by one series of 22 locomotives. They were initially ordered for the Compañía del Norte, but RENFE kept the entire series in reserve. Built between 1941 and 1944 in the La Maquinista Terrestre y Maritima SA factory in Barcelona for hauling heavy coal trains, they were amongst the most powerful steam locomotives in Europe. They had three cylinders, but used simple expansion and were known as Santa Fe locomotives. [ citation needed ]

Greece

SEK class Ma Ma 1002.jpg
SEK class Μα

SEK (Sidirodromoi Ellinikou Kratous, Hellenic State Railways) class Μα (or class Ma; Mu-alpha) was a class of 2-10-2 steam locomotives built by Ansaldo and Breda in 1953. They were numbered Μα 1001-1020.

The Μα locomotives were the last steam locomotives acquired by SEK before conversion to diesel traction. They were designed and built in Italy by Breda (10 units) and Ansaldo (10 units) in 1953–1954, while some parts (including whole tender underframes) were made by Nuove Reggiane. The length of the locomotive with the tender was 24.93 m, the maximum height 4.51 m and service weight 136 t. The boiler operated at 18 bars (1.8 MPa; 260 psi), and their rated power was 2,950 horsepower (2.20 MW). Maximum speed was 90 km/h.

Due to various technical problems, only two years after introduction they were modified by Henschel (1957–1958). The boilers were converted to burn heavy fuel oil.

These locomotives were based at Aghios Ioannis Rentis and Thessaloniki depots and were used mainly for freight trains and for some express passenger trains on Piraeus–Thessaloniki and Thessaloniki–Idomeni mainlines until the early 1970s, when they were withdrawn by the Hellenic Railways Organisation (successor of SEK) due to complete conversion to diesel traction.

Only two examples survived the 1984-1985 steam locomotives scrappings. One of them, 1002 was set on display as part of the theatre Το Τρένο στο Ρουφ ( Greek for 'The Train at Rouf'), at Rouf station in Athens. The other one is at Thessaloniki old railway station, not preserved.

United States

AT&SF 2-10-2 No. 3932 Santa Fe 2-10-2 Baldwin locomotive.jpg
AT&SF 2-10-2 No. 3932

In the United States, the 2-10-2 type was produced between 1903 and 1930. The first were the Atchison, Topeka and Santa Fe Railway (AT&SF) engines of the 900 and 1600 series, which were an early type with few advantages over the 2-10-0 Decapod, save their ability to operate in reverse without derailing. By 1919, the AT&SF was building the definitive type, with the trailing truck supporting a large firebox. These were of the AT&SF 3800 class. One of them, AT&SF engine no. 3829, was equipped with an experimental two-axle trailing truck to become the first 2-10-4 Texas type. [2]

Southern Railway USRA 2-10-2 Light Santa Fe No. 5200 USRA Light Santa Fe.jpg
Southern Railway USRA 2-10-2 Light Santa Fe No. 5200

About 2,200 Santa Fe types were built, including about 500 of the two United States Railroad Administration (USRA) First World War standard designs. There were two USRA standard 2-10-2s, the heavy version with an engine weight of 380,000 pounds (170 t) and the light version with an engine weight of 352,000 pounds (160 t). The Santa Fe had the most with 352 engines. [2]

Of the 2-10-2’s built for the Santa Fe, only one has been preserved. [24] AT&SF No. 940 is on static display outside the Santa Fe depot, now a Visitor Center, in Bartlesville, Oklahoma. [24]

Reading Railway 2-10-2 No. 3000 Reading 2-10-2 locomotive.jpg
Reading Railway 2-10-2 No. 3000

The heaviest 2-10-2s were ten locomotives built by Baldwin Locomotive Works for the Reading Railway c. 1931, weighing 451,000 pounds (205 t), engine only. [25]

At 104,000 pounds-force (460 kN), the Illinois Central Railroad's 2800 class rebuilds probably had the highest calculated tractive effort of any two-cylinder steam locomotive, although the adhesive weight was only 333,000 pounds (151 t). [25]

Baltimore and Ohio Railroad 2-10-2 No. 6206 Baltimore & Ohio 2-10-2 freight locomotive, 6206 (CJ Allen, Steel Highway, 1928).jpg
Baltimore and Ohio Railroad 2-10-2 No. 6206

The Baltimore and Ohio Railroad ordered its first 2-10-2 from Baldwin in 1914. From 1914 to 1956, their 2-10-2s bore numbers commencing with 6, hence the nickname "Big Sixes". Designated the S class, there were several sub-classes. The first of the Big Sixes was retired in 1951 and were all scrapped by 1960. [25]

Southern Railway Ss class 2-10-2 No. 5016 Image from page 402 of "Railway mechanical engineer" (1916).jpg
Southern Railway Ss class 2-10-2 No. 5016

The Southern Railway (SOU) ordered its first batches of fifty-five 2-10-2 Ss class steam locomotives (Nos. 5000-5054) from Baldwin in 1917. [26] The second batches of twenty-five 2-10-2s (Nos. 6350-6374) were built by the American Locomotive Company's (ALCO) Richmond Works in 1918 originally for SOU's Cincinnati, New Orleans and Texas Pacific (CNO&TP) division. [26] The latter batches were later moved to the SOU's main division and renumbered to 5055-5079 when they were proved to be too bulky for the CNO&TP tunnels' tight clearances. [26] After receiving the last batches of Ss types, the SOU received fifty more 2-10-2s (Nos. 5200-5249) from ALCO's Brook Works in a USRA Light Santa Fe design which were classified as Ss-1. [26] Both classes were assigned to SOU's Asheville division, banking and hauling heavy freight trains up the steep Saluda Grade and Old Fort Loops in the Blue Ridge Mountains. [26] Between the late 1930s and the early 1950s, all of the Ss and Ss-1 steam locomotives were retired and scrapped with none surviving into preservation. [26]

The Union Pacific Railroad rostered 144 2-10-2 locomotives, under the designation of TTT (Two-Ten-Two). They were divided into classes TTT-1 through TTT-7, but all had the same cylinder dimensions, driving wheel diameter and boiler pressure. [27] Of these, only one locomotive survives; Union Pacific 5511 was donated to the Railroading Heritage of Midwest America, who plans to restore the locomotive to operating condition. [28] [29]

The Denver and Rio Grande Western rostered ten 2-10-2 locomotives, under the class designation of F-81, rostered as No 1400-1409, and purchased from Alco in 1916. None survived into preservation, all of them being scrapped between 1952 and 1955. [30]

Related Research Articles

<span class="mw-page-title-main">Mallet locomotive</span> Articulated locomotive with compound steam power

A Mallet locomotive is a type of compound articulated steam locomotive, invented by the Swiss engineer Anatole Mallet (1837–1919).

<span class="mw-page-title-main">4-6-2</span> Locomotive wheel arrangement

Under the Whyte notation for the classification of steam locomotives, 4-6-2 represents the wheel arrangement of four leading wheels on two axles, six powered and coupled driving wheels on three axles and two trailing wheels on one axle. The 4-6-2 locomotive became almost globally known as a Pacific type after a locomotive built by the Baldwin Locomotive Works in Philadelphia was shipped across the Pacific Ocean to New Zealand.

<span class="mw-page-title-main">4-8-2</span> Locomotive wheel arrangement

Under the Whyte notation for the classification of steam locomotives, 4-8-2 represents the wheel arrangement of four leading wheels, eight powered and coupled driving wheels and two trailing wheels. This type of steam locomotive is commonly known as the Mountain type, though the New York Central Railroad used the name Mohawk for their 4-8-2s.

<span class="mw-page-title-main">2-10-4</span> Locomotive wheel arrangement

Under the Whyte notation for the classification of steam locomotives, a 2-10-4 locomotive has two leading wheels on one axle, usually in a Bissel truck, ten coupled driving wheels on five axles, and four trailing wheels on two axles, usually in a bogie. These were referred to as the Texas type in most of the United States, the Colorado type on the Burlington Route, and the Selkirk type in Canada.

<span class="mw-page-title-main">4-6-4</span> Locomotive wheel arrangement

Under the Whyte notation for the classification of locomotives, 4-6-4 represents the wheel arrangement of four leading wheels, six powered and coupled driving wheels and four trailing wheels. In France where the type was first used, it is known as the Baltic while it became known as the Hudson in most of North America.

<span class="mw-page-title-main">4-8-4</span> Locomotive wheel arrangement

Under the Whyte notation for the classification of steam locomotives, 4-8-4 represents the wheel arrangement of four leading wheels on two axles, eight powered and coupled driving wheels on four axles and four trailing wheels on two axles. The type was first used by the Northern Pacific Railway, and initially named the Northern Pacific, but railfans and railroad employees have shortened the name since its introduction. It is most-commonly known as a Northern.

Under the Whyte notation for the classification of steam locomotives, 2-10-0 represents the wheel arrangement of two leading wheels on one axle, ten powered and coupled driving wheels on five axles, and no trailing wheels. This arrangement was often named Decapod, especially in the United States, although this name was sometimes applied to locomotives of 0-10-0 "Ten-Coupled" arrangement, particularly in the United Kingdom. Notable German locomotives of this type include the war locomotives of Class 52.

<span class="mw-page-title-main">2-8-0</span> Locomotive wheel arrangement

Under the Whyte notation for the classification of steam locomotives, 2-8-0 represents the wheel arrangement of two leading wheels on one axle, usually in a leading truck, eight powered and coupled driving wheels on four axles, and no trailing wheels. In the United States and elsewhere, this wheel arrangement is commonly known as a Consolidation, after the Lehigh and Mahanoy Railroad’s Consolidation, the name of the first 2-8-0.

<span class="mw-page-title-main">2-8-2</span> Locomotive wheel arrangement

Under the Whyte notation for the classification of steam locomotives, 2-8-2 represents the wheel arrangement of two leading wheels on one axle, usually in a leading truck, eight powered and coupled driving wheels on four axles and two trailing wheels on one axle, usually in a trailing truck. This configuration of steam locomotive is most often referred to as a Mikado, frequently shortened to Mike.

<span class="mw-page-title-main">2-8-4</span> Locomotive wheel arrangement

Under the Whyte notation, a 2-8-4 is a steam locomotive that has two unpowered leading wheels, followed by eight coupled and powered driving wheels, and four trailing wheels. This locomotive type is most often referred to as a Berkshire, though the Chesapeake and Ohio Railway used the name Kanawha for their 2-8-4s. In Europe, this wheel arrangement was mostly seen in mainline passenger express locomotives and, in certain countries, in tank locomotives.

<span class="mw-page-title-main">4-4-2 (locomotive)</span> Railway locomotive wheel arrangement

Under the Whyte notation for the classification of steam locomotives by wheel arrangement, 4-4-2 represents a configuration of a four-wheeled leading bogie, four powered and coupled driving wheels, and two trailing wheels supporting part of the weight of the boiler and firebox. This allows a larger firebox and boiler than the 4-4-0 configuration.

Under the Whyte notation for the classification of steam locomotive wheel arrangements, a 2-10-10-2 is a locomotive with two leading wheels, two sets of ten driving wheels, and a pair of trailing wheels.

<span class="mw-page-title-main">0-10-0</span> Locomotive wheel arrangement

Under the Whyte notation for the classification of steam locomotives, 0-10-0 represents the wheel arrangement of no leading wheels, ten powered and coupled driving wheels on five axles and no trailing wheels. In the United Kingdom, this type is known as a Decapod, a name which is applied to 2-10-0 types in the United States. In the United States, the type is known as ten-coupled.

Under the Whyte notation for the classification of steam locomotives, 0-8-0 represents the wheel arrangement of no leading wheels, eight powered and coupled driving wheels on four axles and no trailing wheels. Locomotives of this type are also referred to as eight coupled.

Under the Whyte notation for the classification of steam locomotives by wheel arrangement, a 2-6-6-2 is a locomotive with one pair of unpowered leading wheels, followed by two sets of three pairs of powered driving wheels and one pair of trailing wheels. The wheel arrangement was principally used on Mallet-type articulated locomotives, although some tank locomotive examples were also built. A Garratt locomotive or Golwé locomotive with the same wheel arrangement is designated 2-6-0+0-6-2 since both engine units are pivoting.

<span class="mw-page-title-main">Union Pacific 9000 Class</span> Steam locomotive class

The Union Pacific Railroad 9000 Class was a class of 88 steam locomotives, built by ALCO for the Union Pacific between 1926 and 1930.

<span class="mw-page-title-main">4-10-2</span> Locomotive wheel arrangement

Under the Whyte notation for the classification of steam locomotives by wheel arrangement, 4-10-2 represents the arrangement of four leading wheels, ten powered and coupled driving wheels and two trailing wheels. In South Africa, where the wheel arrangement was first used, the type was known as a Reid Tenwheeler. In the United States of America it was known as a Southern Pacific on the Southern Pacific Railroad and as an Overland on the Union Pacific Railroad.

<span class="mw-page-title-main">Manila Railroad 200 class</span>

The Manila Railroad 200 class were 2-10-2 Santa Fe steam locomotives operated by the Manila Railroad Company (MRR), predecessor of the Philippine National Railways. They were built alongside the 4-8-2 Mountain-type 170 class by the American Locomotive Company at its Brooks facility between 1921 and 1922. During its service at the MRR, it carried heavy freight trains on the South Main Line between Manila and the Bicol Region.

<span class="mw-page-title-main">Manila Railroad 170 class</span> Philippine steam locomotive class from 1922

The Manila Railroad 170 class were ten 4-8-2 Mountain steam locomotives operated by the Manila Railroad Company (MRR), predecessor of the Philippine National Railways. They were built alongside the 2-10-2 Santa Fe-type Manila Railroad 200 class by the American Locomotive Company at its Brooks facility between 1921 and 1922. During its service at the MRR, it carried passenger trains on the South Main Line between Manila and the Bicol Region.

The Southern Railway Ss was a class of 2-10-2 "Santa Fe" type steam locomotives built in 1917 and 1918 for the Southern Railway (SOU). They were assigned to haul and bank heavy freight trains over the Saluda Grade and Old Fort Loops in the Blue Ridge Mountains of North Carolina.

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  15. Motive Power and Rolling Stock. Report of Survey of the Manila Railroad Company and the Preliminary Survey of Railroads for Mindanao (Report). De Leuw, Cather and Company; Manila Railroad Company. July 1952. Retrieved April 13, 2021.
  16. 1 2 Pokropiński, Bogdan (2007). Parowozy normalnotorowe produkcji polskiej[Normal gauge steam locomotives of Polish manufacture] (in Polish). Warsaw: Wydawnictwa Komunikacji i Łączności. pp. 108–110. ISBN   978-83-206-1617-0.
  17. 151.000 Class Locomotive Archived 2009-12-17 at the Wayback Machine at railwayfan.ro (in Romanian)
  18. 1 2 3 Holland, D. F. (1972). Steam Locomotives of the South African Railways. Vol. 2: 1910-1955 (1st ed.). Newton Abbott, England: David & Charles. pp. 51–52, 71, 107. ISBN   978-0-7153-5427-8.
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  21. South African Railways & Harbours Photo Journal, Vol. 1, no 8, pp. 1-3, by Les Pivnic
  22. Russian article on the 2-10-2
  23. Railography : Chinese Steam Profiles - FD Class 2-10-2
  24. 1 2 "Bartlesville Depot's Train Display". Bartlesville Downtown Depot/Visitor Center. Retrieved October 16, 2021.
  25. 1 2 3 Staufer, Alvin F. (ed.), B&O Power: Steam, Diesel and Electric Power of the Baltimore and Ohio Railroad 1829-1965, Staufer, Medina, n.d. pp. 152-167
  26. 1 2 3 4 5 6 Prince, Richard E. (1970). Steam Locomotives and Boats: Southern Railway System (2nd ed.). Wheelwright Lithographing Company. pp. 122–124. ISBN   0-9600088-4-5.
  27. "Los Angeles & Salt Lake / Oregon Short Line / Oregon-Washington RR & Navigation / Union Pacific / Utah Railway 2-10-2 "Santa Fe" Locomotives in the USA". www.steamlocomotive.com. Retrieved 2022-05-26.
  28. "Railroading Heritage of Midwest America - official website". Railroading Heritage of Midwest America. Archived from the original on April 28, 2022. Retrieved June 2, 2022.
  29. Glischinski, Steve (April 28, 2022). "Railroading Heritage of Midwest America, Union Pacific agree to donation of Challenger, other locomotives, cars". Trains . Kalmbach Media. Archived from the original on April 28, 2022. Retrieved June 2, 2022.
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