South African Class H 4-10-2T

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NGR Class C 4-10-2T
South African Class H 4-10-2T
NGR Class C 4-10-2T no. 171, SAR Class H no. 253.jpg
NGR Class C no. 171 c. 1903, SAR Class H no. 253
Type and origin
Power typeSteam
DesignerNatal Government Railways
(G.W. Reid)
BuilderDübs and Company
North British Locomotive Company
Serial numberDübs 3835, 4040-4064, 4118-4141, 4254-4278, 4310-4329
NBL 15723-15727
Build date1899-1903
Total produced102
RebuilderNatal Government Railways
South African Railways
Rebuild datec. 1910 onward
Number rebuilt98 to 4-8-2T (Mountain)
Specifications
Configuration:
 • Whyte4-10-2T (Reid Tenwheeler)
 • UIC2'E1'n2t
Driver2nd coupled axle
Gauge3 ft 6 in (1,067 mm) Cape gauge
Leading dia.25+34 in (654 mm)
Coupled dia.45 in (1,143 mm)
Trailing dia.25+34 in (654 mm)
Minimum curve300 ft (91 m)
Wheelbase30 ft 6 in (9,296 mm)
 • Leading5 ft 4 in (1,626 mm)
 • Coupled16 ft 8 in (5,080 mm)
Length:
 • Over couplers37 ft 6 in (11,430 mm)
Height12 ft 6 in (3,810 mm)
Frame typePlate
Axle load12 LT 5 cwt (12,450 kg)
 • Leading9 LT 17 cwt (10,010 kg)
 • 1st coupled10 LT 18 cwt (11,070 kg)
 • 2nd coupled12 LT 5 cwt (12,450 kg)
 • 3rd coupled10 LT 13 cwt (10,820 kg)
 • 4th coupled10 LT 10 cwt (10,670 kg)
 • 5th coupled10 LT 10 cwt (10,670 kg)
 • Trailing4 LT 4 cwt (4,267 kg)
Adhesive weight54 LT 16 cwt (55,680 kg)
Loco weight68 LT 17 cwt (69,950 kg)
Fuel typeCoal
Fuel capacity4 LT (4.1 t)
Water cap1,880 imp gal (8,550 l)
Firebox typeRound-top
 • Firegrate area21.15 sq ft (1.965 m2)
Boiler:
 • Pitch6 ft 10 in (2,083 mm)
 • Diameter4 ft 7+78 in (1,419 mm)
 • Tube plates10 ft 4 in (3,150 mm)
 • Small tubes287: 1+34 in (44 mm)
Boiler pressure175 psi (1,207 kPa)
Safety valveSalter & Ramsbottom
Heating surface1,493.50 sq ft (138.751 m2)
 • Tubes1,358.71 sq ft (126.228 m2)
 • Firebox134.79 sq ft (12.522 m2)
CylindersTwo
Cylinder size19 in (483 mm) bore
27 in (686 mm) stroke
Valve gearAllan
Valve typeRichardson balanced slide
CouplersJohnston link-and-pin
Performance figures
Tractive effort28,440 lbf (126.5 kN) @ 75%
Career
OperatorsNatal Government Railways
South African Railways
Witbank Collieries
ClassNGR Class C
SAR Class H
Number in classNGR 101, SAR 93
NumbersNGR 149-249, SAR 232-324
Official nameReid Tenwheeler
NicknamesWalloper
Delivered1899-1903
First run1899
Withdrawn1977
The leading and trailing coupled axles had flangeless wheels

The South African Railways Class H 4-10-2T, introduced in 1899, was a steam locomotive from the pre-Union era in the Colony of Natal.

Between 1899 and 1903, the Natal Government Railways placed 101 tank steam locomotives with a 4-10-2 wheel arrangement in service. In 1912, after the establishment of the South African Railways, 93 of these Class C Reid Tenwheelers survived unmodified and were designated Class H.[1][2][3]

Design[]

By 1898, increasing traffic on the new Natal Government Railways (NGR) mainline into the interior, with its sharp curves and severe 1 in 30 (3⅓%) gradients, necessitated double-heading of the NGR's Dübs A 4-8-2T locomotives on the heavier section of the Natal mainline between Estcourt and Mooirivier as a means to run longer trains to reduce occupation of the line. The requirement therefore arose for a tank locomotive which could haul at least one-and-a-half times as much as a Dübs A locomotive.[2][3][4]

The limitations within which G.W. Reid, Locomotive Superintendent of the NGR at the time, had to meet this requirement were rather severe. The maximum axle load was not to exceed 14 long tons (14,220 kilograms) within the construction loading gauge of 13 feet (3,962 millimetres) high by 9 feet (2,743 millimetres) wide, while the locomotive had to be able to negotiate gradients of 1 in 30 (3⅓%), compensated for curves of 300 feet (91 metres) radius. The result was Reid's design of a 4-10-2 tank engine, the first locomotive in the world to use this wheel arrangement.[2][3][4]

Manufacturers[]

Since there was no precedent for such an enormous Cape gauge tank locomotive, the design was the subject of some severe criticism and various objections were put forward against its introduction. It was therefore decided to order only one experimental locomotive from Dübs and Company. It was delivered in 1899 and numbered 149.[4]

G.W. Reid

In 1900, the General Manager of the NGR reported that the trials of the 4-10-2T Reid locomo­tive had proven successful beyond anticipation and that the engine could haul a gross load of 200 long tons (203.2 tonnes) over the worst section of line with ease, 50% in excess of that taken by a Dübs A locomotive. As a result, orders were placed for another 100 of these locomo­tives between 1901 and 1903. The first 95 of these locomotives were built in four batches by Dübs and were numbered in the range from 150 to 244.[2][4]

Since Dübs and a number of other Scottish locomotive builders were merged to form the North British Locomotive Company (NBL) while the locomotives were being built, the last five engines were delivered as having been built by the newly established NBL, numbered in the range from 245 to 249.[4][5][6]

Classification[]

On the NGR, the locomotive type became known as the Reid Tenwheeler. When a locomotive classification system was introduced on the NGR, they were designated Class C.[4][5][7]

Characteristics[]

To negotiate sharp curves, both the first and fifth pairs of coupled wheels were flangeless. The cylinders were arranged outside the plate frame, while the Richardson balanced type slide valves were placed between the frames. The locomotive used saturated steam and was equipped with Allan straight link valve gear, which was reversed by hand-wheel and quick screw gear. Allan valve gear was chosen chiefly because it required less space than the more usual Stephenson lifting link gear and was simpler in construction. The trailing Bissel truck was of the Cartazzi type which allowed the axle some lateral movement.[2][3][4]

The leading bogie was controlled by two side-check springs and had 4 inches (102 millimetres) of side-play in each direction. This arrangement was later modified on some locomotives by substituting it with swing links. The portion of the driving crankpins for the connecting rod big-ends was turned 1+12 inches (38 millimetres) eccentric to that of the coupling rods to obtain the longest possible piston stroke which the wheel diameter would permit, while keeping the throw of the coupling rod to a reasonable amount. Since the piston rod and crosshead was forged in one piece, the connecting rod small-end had to be forked.[2][4]

The firebox, at 8 feet 11+58 inches (2,734 millimetres) long and 2 feet 4+12 inches (724 millimetres) wide inside and arranged between the frames, was the longest ever used in South Africa.[2]

Modifications[]

The main shortcoming of the Reid Tenwheeler was a tendency to derail while reversing, particularly over points, since the trailing coupled wheels were flangeless and tended to drop off the rails in the 1 in 7 turnouts which were in use at the time. This was overcome by increasing the tyre width from 6 inches (152 millimetres) to 7 inches (178 millimetres), after which the locomotives proved successful in service.[2][4]

When some were withdrawn from mainline service and placed in branch line and shunting service where smaller radius curves were encountered, they were modified to 4-8-2T locomotives by removing the fifth pair of coupled wheels.[3][4]

South African Railways[]

When the Union of South Africa was established on 31 May 1910, the three Colonial government railways (Cape Government Railways, NGR and Central South African Railways) were united under a single administration to control and administer the railways, ports and harbours of the Union. Although the South African Railways and Harbours came into existence in 1910, the actual classification and renumbering of all the rolling stock of the three constituent railways were only implemented with effect from 1 January 1912.[1][8]

In 1912, the 93 as yet unmodified Class C Reid Tenwheelers were designated Class H on the South African Railways (SAR) and renumbered in the range from 232 to 324. The modified 4-8-2T engines, also designated NGR Class C, were designated Class H2 on the SAR and renumbered in the range from 227 to 231. Three locomotives, NGR numbers 194, 195 and 214, had been scrapped prior to 1912 and did not come under the renumbering scheme.[1][3][4]

The SAR Class H locomotives were gradually also modified to a 4-8-2T wheel arrangement. The first three of these, SAR numbers 240, 294 and 305, were renumbered again to 329, 330 and 331 respectively, but the rest retained their Class H engine numbers after modification. Their builders, works numbers and renumbering are listed in the table.[1][4][6]

Service[]

The Reid Tenwheelers were initially employed on the lower section of the Natal mainline and worked both passenger and goods trains. Most of them continued to work there even after more powerful locomotives were placed in service. When the Corridor Train was introduced between Durban and Johannesburg in 1903, the Reid Tenwheelers worked the trains between Durban and Volksrust, but their limited coal and water capacity necessitated en route engine changes at Inchanga, Pietermaritzburg, Mooirivier, Ladysmith and Hattingspruit.[2]

In the SAR era, some were relocated to De Doorns in the Cape Province for banking service up the Hex River Railpass. They had a long service life and some, modified to the 4-8-2T Mountain type, remained in service until 1977.[3]

Other operators[]

Imperial Military Railways[]

In 1902, during the Second Boer War, the Imperial Military Railways (IMR) placed orders with Dübs and Company and Neilson, Reid and Company for altogether 35 locomotives of the Reid Tenwheeler type. In SAR service, these locomotives were designated Class H1 in 1912.[2][3][4]

Industry[]

A final order for one new Reid Tenwheeler locomotive was placed by Witbank Collieries as late as 1927. The total of 137 locomotives which were built to this design was about double the number of all other 4-10-2 locomotives in use elsewhere in the world, all of which were tender locomotives which served mainly in the United States of America and Brazil.[5]

Illustration[]

References[]

  1. ^ a b c d Classification of S.A.R. Engines with Renumbering Lists, issued by the Chief Mechanical Engineer's Office, Pretoria, January 1912, pp. 7, 11, 13, 23-25 (Reprinted in April 1987 by SATS Museum, R.3125-6/9/11-1000)
  2. ^ a b c d e f g h i j Espitalier, T.J.; Day, W.A.J. (1944). The Locomotive in South Africa - A Brief History of Railway Development. Chapter III - Natal Government Railways. (Continued). South African Railways and Harbours Magazine, June 1944. pp. 422-424.
  3. ^ a b c d e f g h Paxton, Leith; Bourne, David (1985). Locomotives of the South African Railways (1st ed.). Cape Town: Struik. pp. 10–11, 31. ISBN 0869772112.
  4. ^ a b c d e f g h i j k l m Holland, D.F. (1971). Steam Locomotives of the South African Railways. Vol. 1: 1859–1910 (1st ed.). Newton Abbott, England: David & Charles. pp. 92–95, 123–124. ISBN 978-0-7153-5382-0.
  5. ^ a b c Durrant, A. E. (1989). Twilight of South African Steam (1st ed.). Newton Abbott, London: David & Charles. p. 15. ISBN 0715386387.
  6. ^ a b North British Locomotive Company works list, compiled by Austrian locomotive historian Bernhard Schmeiser
  7. ^ The Railway Report for year ending 31 Dec. 1908, Natal Government Railways, p. 39, par 14.
  8. ^ The South African Railways - Historical Survey. Editor George Hart, Publisher Bill Hart, Sponsored by Dorbyl Ltd., Published c. 1978, p. 25.
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