The GWR was the longest-lived of the pre-nationalisation railway companies in Britain, surviving the 'Grouping' of the railways in 1923 almost unchanged. As a result, the history of its numbering and classification of locomotives is relatively complicated. This page explains the principal systems that were used. * For information about individual classes and locomotives, see:

Locomotives of the Great Western Railway The first Locomotives of the Great Western Railway (GWR) were specified by Isambard Kingdom Brunel but Daniel Gooch was soon appointed as the railway's Locomotive Superintendent. He designed several different broad gauge types for the growing r ...

Numbering

Broad Gauge Era

From the start, the GWR gave names only to its broad gauge locomotive stock. However, many classes carried 'themed' names, e.g. stars or signs of the zodiac, which aided identification of locomotives to some extent. ''See

List of 7-foot gauge railway locomotive names This is a list of the names of broad gauge railway locomotives built in the United Kingdom during the heyday of that gauge (which ended in that country by 1892 with the final triumph of standard gauge). Throughout the history of railways many lo ...

'' The exception to this rule was that any broad gauge locomotives the GWR absorbed from other railways (in particular, the South Devon Railway and

Bristol and Exeter Railway The Bristol & Exeter Railway (B&ER) was an English railway company formed to connect Bristol and Exeter. It was built on the broad gauge and its engineer was Isambard Kingdom Brunel. It opened in stages between 1841 and 1844. It was allied with t ...

) were given numbers in the 2000-2199 series. This applied even where locomotives had carried names under their previous owner (indeed, these names were usually removed by the GWR) and even when the locomotives had originally belonged to the GWR and had been sold out of stock. Towards the end of the broad gauge era, a number of locomotives were built to a design that enabled them to be easily converted from one gauge to the other (hence the term 'convertibles' used for these locomotives). These engines also carried numbers in the standard gauge series, whether or not they were running in broad gauge form.

Standard Gauge 1854-1875

Initially standard gauge locomotive numbering was a simple sequential system, starting from 1. Numbering in this series, which included new locomotives and those absorbed from other railways, eventually reached 1297. New locomotives were identified as being paid from either revenue or capital account. Initially an effort was made to treat the numbering of locomotives bought out of revenue differently from those out of capital, including by re-using old numbers left vacant following withdrawal, using a duplicate number system (unusually, giving the new locomotives an A suffix - other railways tended to apply such notation to the old locomotive being replaced) and, for a few years, using the series 1000 (later 1001) upwards. In 1875, the sequential system starting at 1 reached 1000 and then jumped to 1116, the other side of the latter range of numbers still carried.

Standard Gauge 1875-1902

Under William Dean's leadership, blocks of numbers were allocated for different locomotive types, as follows: The only exceptions to these principles under Dean were use of the 20xx, 21xx, and 27xx series for goods tank engines after the end of broad gauge operations. Experimental locomotives and other small classes continued to be numbered in gaps left following withdrawals in the number series below 1000.

Standard Gauge 1902-1912

Under

George Jackson Churchward George Jackson Churchward (31 January 1857 – 19 December 1933) was an English railway engineer, and was chief mechanical engineer of the Great Western Railway (GWR) in the United Kingdom from 1902 to 1922. Early life Churchward was born at ...

, the system applied by William Dean broke down, and new classes simply took the next free block of hundred numbers starting at xx01, with experimental engines numbered in odd gaps in the earlier series of numbers, usually below 110.

1912 Renumbering

In December 1912 (the official date being 28 December), the GWR undertook a renumbering of some of its locomotives — mainly 4-4-0 classes — so that locomotives of the same class were numbered consecutively. This desirable aim was made more important following the rebuilding of some Duke and Atbara locomotives to Bulldog and City class designs. A few of the changes were connected with a decision that blocks of numbers for each class should start at xx00 rather than xx01 as previously. RCTS Part 1, p.14

Standard Gauge 1912 onwards

From the time of the 1912 renumbering, a system was adopted for new locomotives where the second digit indicated the broad type of locomotive. For example, express passenger locomotives had x0xx numbers and large mixed traffic tender locomotives were x9xx. When a class numbered more than 100 locos, rather than continue the numbers consecutively the second digit remained constant (e.g. 4900 Class included 4900-4999, 5900-5999, and 6900 onwards). At the same time, a change was made so that new classes usually commenced from the number xx00. There was a certain amount of renumbering so that the prototype locomotives for existing classes took the appropriate xx00 number before the series used by production locomotives. Thus, from this time on, numbers below 2000 were mainly occupied by old, absorbed or otherwise non-standard locomotives. The steam rail motors, diesel railcars and the diesel shunters were each numbered into their own sequences, all beginning at 1. (The 1911 petrol-electric railcar was numbered 100.)

1923 Renumbering

In 1923, the GWR absorbed a number of small railway companies as part of the Grouping. The locomotives that it inherited were renumbered into gaps in the number series below 2199 left vacant by the withdrawal of older locomotives. Many of these engines were withdrawn after a short period of time, but those that survived in 1946 were subject to another renumbering to rationalise the system further (see below). The bulk of the locomotives absorbed were renumbered into gaps in broad number ranges according to their

wheel arrangement In rail transport, a wheel arrangement or wheel configuration is a system of classifying the way in which wheels are distributed under a locomotive. Several notations exist to describe the wheel assemblies of a locomotive by type, position, and c ...

. Locomotives from the following railways were included in this scheme: Alexandra Docks Railway,

Barry Railway The Barry Railway Company was a railway and docks company in South Wales, first incorporated as the ''Barry Dock and Railway Company'' in 1884. It arose out of frustration among Rhondda coal owners at congestion and high charges at Cardiff Dock ...

Cambrian Railways The Cambrian Railways owned of track over a large area of mid Wales. The system was an amalgamation of a number of railways that were incorporated in 1864, 1865 and 1904. The Cambrian connected with two larger railways with connections to the ...

Cardiff Railway From 1839 the Trustees of the Marquis of Bute, operated a large dock operation in Cardiff, the "Bute Docks". This was very successful, but was overwhelmed by the huge volume of coal exported through Cardiff. At the same time it was seen that ...

Midland and South Western Junction Railway The Midland and South Western Junction Railway (M&SWJR) was an independent railway built to form a north–south link between the Midland Railway and the London and South Western Railway in England, allowing the Midland and other companies' tr ...

Port Talbot Railway The Port Talbot Railway and Docks Company (PTR&D) was formed in 1894 to secure the means of bringing minerals, chiefly coal, to the harbour in South Wales. It took over the docks at Port Talbot that had been operated by the Port Talbot Company. I ...

Rhondda and Swansea Bay Railway The Rhondda and Swansea Bay Railway was a Welsh railway company formed to connect the upper end of the Rhondda Fawr with Swansea, with the chief objective of transporting coal and other minerals to Swansea docks. It was incorporated in 1882, but ...

, Rhymney Railway,

South Wales Mineral Railway The South Wales Mineral Railway was a railway built to serve collieries in the upper Afan Valley, and bring their output to a dock at Briton Ferry, in South Wales. It opened in stages, in 1861 and 1863. It was built on the broad gauge and had ste ...

Taff Vale Railway The Taff Vale Railway (TVR) was a standard gauge railway in South Wales, built by the Taff Vale Railway Company to serve the iron and coal industries around Merthyr Tydfil and to connect them with docks in Cardiff. It was opened in stag ...

Vale of Rheidol Railway The Vale of Rheidol Railway ( cy, Rheilffordd Cwm Rheidol) is a narrow gauge heritage railway in Ceredigion, Wales, between Aberystwyth and Devil's Bridge; a journey of . It opened in 1902, and from the withdrawal of main line steam on Briti ...

, and

Welshpool and Llanfair Light Railway The Welshpool and Llanfair Light Railway (W&LLR) ( cy, Rheilffordd y Trallwng a Llanfair Caereinion) is a narrow gauge heritage railway in Powys, Wales. The line is around long and runs westwards from the town of Welshpool ( cy, Y Trallwng) ...

. Locomotives from the

Brecon and Merthyr Railway The Brecon and Merthyr Tydfil Junction Railway (B&MR) was a railway company in Wales. It was originally intended to link the towns in its name. Finding its access to Merthyr difficult at first, it acquired the Rumney Railway, an old plateway, an ...

Burry Port and Gwendraeth Valley Railway :''Note: During most of the period of operation of the BP&GVR the anglicised spellings of Welsh place names were in use, and for consistency are used in this article. The Company's registered name included the incorrect spelling ''Gwendreath'' due t ...

and

Neath and Brecon Railway The Dulas Valley Mineral Railway was incorporated in 1862 to bring coal from the Onllwyn area north-east of Neath to the quays there, and in the following year was reconstituted as the Neath and Brecon Railway. The line was opened as far as Onllw ...

were also renumbered according to their wheel arrangement, but used a different set of number ranges. The number ranges used for all these locomotives are set out below, but note that those engines that had previously been sold out of stock by the GWR regained their original GWR numbers, and were not allocated new numbers in these ranges: The locomotives inherited by the GWR from other concerns were renumbered as follows: * Ex-

Cleobury Mortimer and Ditton Priors Light Railway The Cleobury Mortimer and Ditton Priors Light Railway was a pre-Railways Act 1921, grouping railway company that served part of south Shropshire. Everard Calthrop was appointed Consulting Engineer in 1900, responsible for surveying the route and ...

0-6-0 Under the Whyte notation for the classification of steam locomotives, represents the wheel arrangement of no leading wheels, six powered and coupled driving wheels on three axles and no trailing wheels. This was the most common wheel arrang ...

T engines became 28-29. * Locomotives from the Llanelli & Mynydd Mawr Railway, Powesland and Mason and Swansea Harbour Trust were absorbed after the original numbering series had been drawn up, and these were fitted into available gaps without reference to the original number ranges. In some case they took the numbers of other absorbed engines that had already been withdrawn. * In the 1940s, the

Corris Railway The Corris Railway ( cy, Rheilffordd Corris) is a narrow gauge preserved railway based in Corris on the border between Merionethshire (now Gwynedd) and Montgomeryshire (now Powys) in Mid-Wales. The line opened in 1859 as a horse tramway, runni ...

and

Weston, Clevedon and Portishead Railway The Weston, Clevedon and Portishead Light Railway (WC&PR) was a standard gauge light railway in Somerset, England. It was conceived as a tramway in the 1880s, opening between the coastal towns of Weston-super-Mare and Clevedon in 1897 and comp ...

were absorbed. The four engines inherited from these two concerns took GWR numbers 3-6.

1946 Renumbering

By 1946, the majority of the locomotives inherited at the 1923 Grouping had been withdrawn, as had most of the older GWR engines numbered below 2000. In order to tidy up the gaps in this number range, it was decided to renumber the surviving locomotives from each pre-Grouping company together. The series used were: * 1: ex- Ystalyfera Tin Works * 7-9: ex-

* 30-96: ex- Rhymney Railway * 193-399: ex-

and

* 421-436: ex-

* 1140-1147: ex- Swansea Harbour Trust * 1150-1153: ex- Powesland and Mason

Oil burning locomotives

In 1946/7 a number of locomotives were converted to burn oil, and some were renumbered in the process. Eleven 4900 Hall Class locos were renumbered into the 3900 range. Twelve 2800 Class 2-8-0s and eight of the 2884 Class were renumbered into the 4800 range. To make way for these, the 4800 Class 0-4-2Ts were renumbered to the 1400 range. (In addition, five 4073 Castle Class and one 4300 Class 2-6-0 were converted, but not renumbered.) All engines were converted back to coal firing by 1950, and regained their original numbers. However, the 1400s were never renumbered back to 4800s.

Application by British Railways

When the GWR was nationalised as part of

British Railways British Railways (BR), which from 1965 traded as British Rail, was a state-owned company that operated most of the overground rail transport in Great Britain from 1948 to 1997. It was formed from the nationalisation of the Big Four British ...

in 1948, its steam locomotives retained their numbers unchanged and new steam engines built to GWR designs continued to be allocated numbers in the same way as the GWR had done. However, its diesel locomotives were completely renumbered. They took numbers 15100-15107 in the 15xxx series allocated to pre-Nationalisation design diesel shunters. * see:

British Rail locomotive and multiple unit numbering and classification A number of different numbering and classification schemes were used for locomotives and multiple units operated by British Railways (BR), and this page explains the principal systems. This section also covers the post-privatisation period, as th ...

Summary of post-1902 class numbering

Classification

A very simple system was adopted, whereby the name (for broad-gauge locomotives) or number of the first locomotive in a class became the classification for all locomotives in that class (e.g. 'Sun Class', '4000 Class'). After the end of the broad gauge, names were applied to principal passenger and mixed-traffic standard-gauge locomotives. These were often based on a single theme, which could also lend its name to describe a class, for example 'Stars', also known as the '4000 Class', whose names included 'North Star', 'Rising Star' etc. However, the classes of locomotives inherited at the Grouping in 1923 continued to be referred to by the classification allocated to them by their original owner.

Notes

References

* * * * * * * * * * * * * {{British railway rolling stock numbering and classification Locomotive numbering and classification Locomotive classification systems