CGR 3rd Class 4-4-0 1884

This article is about one of several different Cape Government Railways locomotive types to be designated "3rd Class". For the others, see Cape Government Railways 3rd Class locomotives.

The Cape Government Railways 3rd Class 4-4-0 of 1884 was a South African steam locomotive from the pre-Union era in the Cape of Good Hope.

CGR 3rd Class 4-4-0 1884
Neilson works picture, c. 1884
Type and origin Power type Steam Designer Cape Government Railways (J.D. Tilney) Builder Neilson and Company Serial number 3080-3081 Build date 1883 Total produced 2
Specifications Configuration: ​  • Whyte 4-4-0 (American)  • UIC 2'Bn2 Driver 1st coupled axle Gauge 3 ft 6 in (1,067 mm) Cape gauge Leading dia. 27+1⁄2 in (698 mm) Coupled dia. 48+3⁄4 in (1,238 mm) Tender wheels 27+1⁄2 in (698 mm) Wheelbase 38 ft 9 in (11,811 mm) ​  • Engine 17 ft 9 in (5,410 mm)  • Leading 5 ft (1,524 mm)  • Coupled 6 ft 6 in (1,981 mm)  • Tender 9 ft 3 in (2,819 mm)  • Tender bogie 4 ft 5+1⁄2 in (1,359 mm) Length: ​  • Over couplers 46 ft 2+1⁄2 in (14,084 mm) Height 12 ft (3,658 mm) Tender weight 20 LT 2 cwt 1 qtr (20,440 kg) Tender type 3-axle (1 leading, 1 bogie) Fuel type Coal Fuel capacity 5 LT (5.1 t) Water cap. 1,700 imp gal (7,730 L) Firebox: ​  • Type Round-top  • Grate area 18.25 sq ft (1.695 m2) Boiler: ​  • Pitch 6 ft (1,829 mm)  • Tube plates 10 ft 4+1⁄2 in (3,162 mm)  • Small tubes 143: 1+3⁄4 in (44 mm) Boiler pressure 130 psi (896 kPa) Safety valve Salter Heating surface: ​  • Firebox 83.23 sq ft (7.732 m2)  • Tubes 679.6 sq ft (63.14 m2)  • Total surface 762.83 sq ft (70.869 m2) Cylinders Two Cylinder size 15 in (381 mm) bore 20 in (508 mm) stroke Valve gear Joy Couplers Johnston link-and-pin
Performance figures Tractive effort 9,000 lbf (40 kN) @ 75%
Career Operators Cape Government Railways Class CGR 3rd Class Number in class 2 Numbers E53-E54 Delivered 1884 First run 1884

In 1884, the Cape Government Railways placed two experimental 3rd Class tender locomotives with a 4-4-0 American type wheel arrangement in service. They were designed at the Salt River shops in Cape Town to be able to use the low-grade local coal with its high content of incombustible matter.^[1][2]

Stormberg coalfields

In 1883, the extension of the Cape Government Railways (CGR) Eastern System's line from Queenstown reached Sterkstroom and passed through the Stormberg coalfields, where the Molteno and Cyphergat mines were operating.^[1][3]

While the Colonial coal was much cheaper than imported Welsh coal, it had a non-combustible content of as high as 29%. This led to difficulties when it was used in locomotives, since it frequently caused train delays as a result of unscheduled stops to allow the stoker to clear the grate of clinker and ash.^[1]

 

J.D. Tilney

In attempts to overcome the clinker problem, John D. Tilney, the Eastern System's Locomotive Superintendent, carried out many experiments on some of the 4th Class 4-6-0TT locomotives which had entered service on the Eastern System in 1880. One of these involved modifying the boilers and frames to accommodate oscillating firebars and larger fireboxes. He also modified approximately thirty locomotives by installing extended fireboxes with wire netting spark arresters and steam blowers and can be considered one of the foremost pioneers of these devices.^[1][4]

Tilney's initiatives did not pass unnoticed. In 1881, the General Manager appointed Mr. Hawthorne R. Thornton as Chief Locomotive Superintendent for the whole of the Cape of Good Hope, in response to the "growing tendency on the part of the several Locomotive Superintendents to bring in modifications of designs in essential parts of the engines and rolling stock".^[5]

Locomotive design

With three exceptions, the CGR's 4th Class of 1880 and its Stephenson and Joy valve gear versions of 1882 which had been designed by Western System Locomotive Superintendent Michael Stephens, detailed locomotive designing had hitherto been done by the manufacturers, working on no more than the CGR locomotive department's description of their main requirements. It gradually became apparent, however, that accepted European practices in locomotive design were not suited to South African conditions, since it was found that boilers had difficulty to maintain steam pressure when using anything but the best imported Welsh coal, firebox water spaces were too limited and the tubes were frequently pitched too close. Beginning with the pioneering work done by Tilney, locomotive mechanical engineers of the CGR began to exert greater influence on locomotive designs.^[5][6]

Manufacturer

Based on the results of Tilney's experiments, complete sets of drawings for an experimental 4-4-0 American type tender passenger locomotive and an experimental 4-6-0 Tenwheeler type tank-and-tender goods locomotive were prepared at the CGR's Salt River shops in 1882 and submitted to Neilson and Company, for the construction of two 4-4-0 and four 4-6-0 locomotives. The design of the two types was also an early attempt at standardisation, since their boilers and tenders and many other parts were made interchangeable.^[1][2][4]

Characteristics

The locomotives were delivered with Joy valve gear. The three-axle tender was unusual, since the leading axle was mounted in a rigid frame while the other two were mounted in a bogie. This was the first time that a bogie was used under a tender in South Africa, but also the only time that this tender wheel arrangement was used on the CGR. This peculiar tender wheel arrangement appeared in South Africa on only one other occasion, eighteen years later on the Baldwin-built Zululand Railway Company 2-6-0 construction locomotive in Natal.^[1][4][7]

The firebox was specially designed to Tilney's specifications to cope with the high percentage of clinker and ash content of Colonial coal from the Stormberg Range. A large drop-grate which occupied approximately half of the firebox area, with specially-designed sawtooth-shaped firebars, was arranged at the front end of the firebox. The firebars could be vibrated by a hand-operated lever in the cab, while the drop grate was controlled by two chains, fitted at each end and also manipulated from the cab.^[4]

Service

The 4-4-0 locomotives entered service in 1884 and were designated 3rd Class, numbered E53 and E54 for the Eastern System. Engine no. E54 was delivered to the Eastern system, where Tilney carried out extensive tests using the Stormberg coal. Engine no. E53 was initially delivered to the Western System, for evaluation and testing by Chief Locomotive Superintendent Thornton who, in turn, experimented with coal from Viljoensdrif.^[1][2][4]

The locomotives gave good results during testing and in service. It was reported at year-end in 1884 that the use of the low-grade coal led to a saving of 1¾d. per engine-mile. They were, however, difficult to fire due to their very long and narrow grates, and it was admitted in the report that dealing with the large drop-grate and the increased amount of clinker and ash placed greater physical strain on the stokers.^[4]

No more locomotives of this experimental design were ordered when better quality coal began to become available from the coalfields in Natal, more suitable for use in the standard locomotives.^[1]

Both locomotives were renumbered by 1886, when the system number prefixes were done away with and the Eastern System's locomotives were renumbered into the 600 number range. Engine no. E53 became no. 645 and engine no. E54 became no. 646. Neither entered South African Railways service, since both were withdrawn from CGR service between 1900 and 1910.^[1][2]

Illustration

•  
  No. 646 at King William's Town on 7 November 1899
•  
  No. 646 in King William's Town station, November 1899

References

 

Wikimedia Commons has media related to CGR 3rd Class 4-4-0 1884.

1. Holland, D.F. (1971). Steam Locomotives of the South African Railways. Vol. 1: 1859–1910 (1st ed.). Newton Abbott, England: David & Charles. pp. 35–36. ISBN 978-0-7153-5382-0.
2. C.G.R. Numbering Revised, Article by Dave Littley, SA Rail May–June 1993, pp. 94-95.
3. The South African Railways - Historical Survey. Editor George Hart, Publisher Bill Hart, Sponsored by Dorbyl Ltd., Published c. 1978, pp. 12-13.
4. Espitalier, T.J.; Day, W.A.J. (1943). The Locomotive in South Africa - A Brief History of Railway Development. Chapter II - The Cape Government Railways (Continued). South African Railways and Harbours Magazine, December 1943. pp. 883-886.
5. Espitalier, T.J.; Day, W.A.J. (1943). The Locomotive in South Africa - A Brief History of Railway Development. Chapter II - The Cape Government Railways (Continued). South African Railways and Harbours Magazine, October 1943. pp. 731-734.
6. Espitalier, T.J.; Day, W.A.J. (1943). The Locomotive in South Africa - A Brief History of Railway Development. Chapter II - The Cape Government Railways (Continued). South African Railways and Harbours Magazine, November 1943. pp. 811-812, 818.
7. Dulez, Jean A. (2012). Railways of Southern Africa 150 Years (Commemorating One Hundred and Fifty Years of Railways on the Sub-Continent – Complete Motive Power Classifications and Famous Trains – 1860–2011) (1st ed.). Garden View, Johannesburg, South Africa: Vidrail Productions. p. 22. ISBN 9 780620 512282.