South African type XE1 tender

Specifications
Configuration	2-axle bogies
Gauge	3 ft 6 in (1,067 mm) Cape gauge
Length	22 ft 1 5⁄8 in (6,747 mm)
Wheel dia.	33 1⁄2 in (851 mm) as built; 34 in (864 mm) retyred
Wheelbase	14 ft 7 in (4,445 mm)
• Bogie	4 ft 7 in (1,397 mm)
Axle load	♠ 9 LT 4 cwt 1 qtr (9,360 kg) av.; ♣ 9 LT 8 cwt (9,551 kg)
• Front bogie	♣ 17 LT 13 cwt (17,930 kg)
• Rear bogie	♣ 18 LT 16 cwt (19,100 kg)
Weight empty	♣ 42,234 lb (19,157 kg)
Weight w/o	♠ 36 LT 18 cwt (37,490 kg); 37.49 t; 41.33 short tons; ♣ 36 LT 9 cwt (37,030 kg); 37.03 t; 40.82 short tons
Fuel type	Coal
Fuel cap.	♠ 6 LT (6.1 t; 6.7 short tons); ♥ 9 LT (9.1 t; 10.1 short tons); ♣ 10 LT (10.2 t; 11.2 short tons)
Water cap.	♠♥♣ 2,855 imp gal (13,000 l)
Stoking	Manual
Couplers	Drawbar & Johnston link-and-pin ; Drawbar & AAR knuckle (1930s)

Type and origin
	♠ 6 long tons coal capacity; ♥ 9 long tons coal capacity; ♣ 10 long tons coal capacity
Locomotive	♣ GGR 8th Class of 1902 (2nd) ; ♣ CGR 8th Class of 1903 ; ♣ CGR 8th Class Experimental ; ♥ CGR 8th Class 2-8-0 of 1903 ; ♣ CGR 8th Class 2-8-0 of 1904 ; ♠ CGR 9th Class of 1903
Designer	Cape Government Railways ; (H.M. Beatty)
Builder	♠♥ Kitson and Company ; ♣ Neilson, Reid and Company ; ♣ North British Locomotive Co.
In service	1902-1904
Rebuilder	South African Railways
Rebuild date	c. 1925
Rebuilt to	Type XF

South African type XE1 tender
	Type XE1 tender on CGR 8th Class 2-8-0 of 1904
Type and origin
	♠ 6 long tons coal capacity; ♥ 9 long tons coal capacity; ♣ 10 long tons coal capacity
Locomotive	♣ GGR 8th Class of 1902 (2nd) ; ♣ CGR 8th Class of 1903 ; ♣ CGR 8th Class Experimental ; ♥ CGR 8th Class 2-8-0 of 1903 ; ♣ CGR 8th Class 2-8-0 of 1904 ; ♠ CGR 9th Class of 1903
Designer	Cape Government Railways ; (H.M. Beatty)
Builder	♠♥ Kitson and Company ; ♣ Neilson, Reid and Company ; ♣ North British Locomotive Co.
In service	1902-1904
Rebuilder	South African Railways
Rebuild date	c. 1925
Rebuilt to	Type XF
Specifications
Configuration	2-axle bogies
Gauge	3 ft 6 in (1,067 mm) Cape gauge
Length	22 ft 1 5⁄8 in (6,747 mm)
Wheel dia.	33 1⁄2 in (851 mm) as built; 34 in (864 mm) retyred
Wheelbase	14 ft 7 in (4,445 mm)
• Bogie	4 ft 7 in (1,397 mm)
Axle load	♠ 9 LT 4 cwt 1 qtr (9,360 kg) av.; ♣ 9 LT 8 cwt (9,551 kg)
• Front bogie	♣ 17 LT 13 cwt (17,930 kg)
• Rear bogie	♣ 18 LT 16 cwt (19,100 kg)
Weight empty	♣ 42,234 lb (19,157 kg)
Weight w/o	♠ 36 LT 18 cwt (37,490 kg); 37.49 t; 41.33 short tons; ♣ 36 LT 9 cwt (37,030 kg); 37.03 t; 40.82 short tons
Fuel type	Coal
Fuel cap.	♠ 6 LT (6.1 t; 6.7 short tons); ♥ 9 LT (9.1 t; 10.1 short tons); ♣ 10 LT (10.2 t; 11.2 short tons)
Water cap.	♠♥♣ 2,855 imp gal (13,000 l)
Stoking	Manual
Couplers	Drawbar & Johnston link-and-pin ; Drawbar & AAR knuckle (1930s)
Career
Operators	Cape Government Railways ; South African Railways
Numbers	♠ SAR 910-911; ♥ SAR 896-899; ♣ SAR 900-907, 1072-1081, 1192-1233

Last updated February 23, 2019

The South African type XE1 tender was a steam locomotive tender from the pre-Union era in the Cape of Good Hope.

A tender or coal-car is a special rail vehicle hauled by a steam locomotive containing its fuel and water. Steam locomotives consume large quantities of water compared to the quantity of fuel, so their tenders are necessary to keep them running over long distances. A locomotive that pulls a tender is called a tender locomotive. Locomotives that do not have tenders and carry all their fuel and water on board the locomotive (itself) instead are called tank locomotives.

The Union of South Africa is the historical predecessor to the present-day Republic of South Africa. It came into being on 31 May 1910 with the unification of the Cape Colony, the Natal Colony, the Transvaal, and the Orange River Colony. It included the territories that were formerly a part of the South African Republic and the Orange Free State.

The Cape of Good Hope, also known as the Cape Colony, was a British colony in present-day South Africa, named after the Cape of Good Hope. The British colony was preceded by an earlier Dutch colony of the same name, the Kaap de Goede Hoop, established in 1652 by the Dutch East India Company. The Cape was under Dutch rule from 1652 to 1795 and again from 1803 to 1806. The Dutch lost the colony to Great Britain following the 1795 Battle of Muizenberg, but had it returned following the 1802 Peace of Amiens. It was re-occupied by the UK following the Battle of Blaauwberg in 1806, and British possession affirmed with the Anglo-Dutch Treaty of 1814.

Manufacturers

Type XE1 tenders were built between 1901 and 1904 by Kitson and Company, Neilson, Reid and Company and North British Locomotive Company.^[1]^[2]^[3]

Kitson and Company was a locomotive manufacturer based in Hunslet, Leeds, West Yorkshire, England.

The North British Locomotive Company was created in 1903 through the merger of three Glasgow locomotive manufacturing companies; Sharp, Stewart and Company, Neilson, Reid and Company and Dübs and Company, creating the largest locomotive manufacturing company in Europe and the British Empire.

The 8th Class locomotive and tender were designed in 1901 by H.M. Beatty, Chief Locomotive Superintendent of the Cape Government Railways (CGR), at the Salt River works in Cape Town. The Type XE1 first entered service in 1902, as tender to the second batch of ten out of altogether 23 8th Class 4-8-0 Mastodon type locomotives which were built for the CGR by Neilson, Reid and Company. These locomotives were designated Class 8 on the South African Railways (SAR) in 1912.^[1]^[2]^[3]

Until 1904, more were delivered as tenders to five more locomotive types of the CGR, two more 8th Class Mastodon types in 1903 of which one was experimental, the 9th Class 2-8-2 Mikado type in 1903 and two 8th Class 2-8-0 Consolidation types in 1903 and 1904.^[1]^[2]^[3]

Characteristics

Three versions of the Type XE1 tender saw service, all with a water capacity of 2,855 imperial gallons (13,000 litres), but with different coal bunker capacities and different axle loads.

The axle load of a wheeled vehicle is the total weight felt by the roadway for all wheels connected to a given axle. Viewed another way, it is the fraction of total vehicle weight resting on a given axle. Axle load is an important design consideration in the engineering of roadways and railways, as both are designed to tolerate a maximum weight-per-axle ; exceeding the maximum rated axle load will cause damage to the roadway or rail tracks.

The four tenders which were delivered with the CGR 8th Class 2-8-0 of 1903, later the SAR Class 8Y, had a coal capacity of 9 long tons (9.1 tonnes).^[2]^[3]
The two tenders which were delivered with the CGR 9th Class of 1903, later the SAR Class Experimental 4, had a coal capacity of 6 long tons (6.1 tonnes) and an average maximum axle load of 9 long tons 4 hundredweight 1 quarter (9,360 kilograms).^[2]^[3]
All others had a coal capacity of 10 long tons (10.2 tonnes) and a maximum axle load of 9 long tons 8 hundredweight (9,551 kilograms).^[2]^[3]

Locomotives

In the SAR years, tenders were numbered for the engines they were delivered with. In most cases, an oval number plate, bearing the engine number and often also the tender type, would be attached to the rear end of the tender. During the classification and renumbering of locomotives onto the SAR roster in 1912, no separate classification and renumbering list was published for tenders, which should have been renumbered according to the locomotive renumbering list.^[3]^[4]

Six locomotive classes were delivered new with Type XE1 tenders, built by three manufacturers. Bearing in mind that tenders could and did migrate between engines, the tenders should have been numbered in the SAR number ranges as shown.^[2]^[3]^[4]

1902: CGR 8th Class of 1902, SAR Class 8, second batch, numbers 1072 to 1081.
1903: CGR 8th Class of 1903, SAR Class 8D, numbers 1192 to 1229.
1903: CGR 8th Class Experimental, SAR Class 8E, numbers 1230 to 1233.
1903: CGR 8th Class 2-8-0 of 1903, SAR Class 8Y, numbers 896 to 899.
1903: CGR 9th Class of 1903, SAR Class Experimental 4, numbers 910 and 911.
1904: CGR 8th Class 2-8-0 of 1904, SAR Class 8Z, numbers 900 to 907.

Classification letters

Since many tender types are interchangeable between different locomotive classes and types, a tender classification system was adopted by the SAR. The first letter of the tender type indicates the classes of engines to which it can be coupled. The "X_" tenders could be used with the locomotive classes as shown.^[3]

The second letter indicates the tender's water capacity. The "_E" tenders had a capacity of between 2,800 and 2,855 imperial gallons (12,700 and 13,000 litres; 3,360 and 3,430 US gallons).^[3]

A number, when added after the letter code, indicates differences between similar tender types, such as function, wheelbase or coal bunker capacity.^[3]

Modifications and rebuilding

The official SAR diagram book contains an annotation with the Type XE1 drawing to the effect that tender no. 552, a three-axle Type YC tender off a SAR Class 6C locomotive, was added to the type in 1956. While the reason is not apparent from the document, it could only have been as a result of a modification of the tender's engine drawgear which would place it in the "X_" tender group and of the tender being fitted with a larger water tank which would place it in the "_E" tender group.^[2]^[3]

Modifications

Pictures of most of these locomotives in service show them with tenders with built-up sides to the coal bunker, to increase the coal capacity. Early versions of the built-up coal bunker sides were in the form of a slatted open-top cage, made of rectangular steel rods. Later versions were constructed of sheet-metal. In the second example depicted, a Type XE1 tender with a sheet-metal extended coal bunker is plinthed with CGR 6th Class no. 356, an engine which is suited for Type "Y_", not Type "X_" tenders.^[2]^[3]

Rebuilding

From c. 1925, some Type Type XE1 tenders from Classes 6H, 6J and 8 were completely rebuilt by the SAR by mounting a new upper structure on the existing underframe. Since their new tanks increased their water capacity from 2,855 to 3,000 imperial gallons (13,000 to 13,600 litres), these tenders were reclassified to Type XF. They had a coal capacity of 10 long tons (10.2 tonnes) and a maximum axle load of 11 long tons 3 hundredweight 2 quarters (11,350 kilograms). These rebuilt tenders had a more modern appearance, with flush sides all the way to the top of the coal bunker.^[2]^[3]^[5]

The program to rebuild several older tender types with new upper structures was begun by Col F.R. Collins DSO, who approved several of the detailed drawings for the work during his term in office as Chief Mechanical Engineer of the SAR from 1922 to 1929. It was continued by his successor, A.G. Watson.^[6]

Illustration

Type XE1 with slatted top on SAR Class 8, c. 1930
Type XE1 with sheet-metal top on SAR Class 6, 2009
Rebuilt flush-sided Type XF tender on Class 8, c. 1930

References

1 2 3 4 Holland, D.F. (1971). Steam Locomotives of the South African Railways. 1: 1859–1910 (1st ed.). Newton Abbott, Devon: David & Charles. pp. 61–69. ISBN 978-0-7153-5382-0.
1 2 3 4 5 6 7 8 9 10 11 South African Railways & Harbours/Suid Afrikaanse Spoorweë en Hawens (15 Aug 1941). Locomotive Diagram Book/Lokomotiefdiagramboek, 3'6" Gauge/Spoorwydte. SAR/SAS Mechanical Department/Werktuigkundige Dept. Drawing Office/Tekenkantoor, Pretoria. p. 43.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 South African Railways & Harbours/Suid Afrikaanse Spoorweë en Hawens (15 Aug 1941). Locomotive Diagram Book/Lokomotiefdiagramboek, 2'0" & 3'6" Gauge/Spoorwydte, Steam Locomotives/Stoomlokomotiewe. SAR/SAS Mechanical Department/Werktuigkundige Dept. Drawing Office/Tekenkantoor, Pretoria. pp. 6a-7a, 43.
1 2 Classification of S.A.R. Engines with Renumbering Lists, issued by the Chief Mechanical Engineer’s Office, Pretoria, January 1912 (Reprinted in April 1987 by SATS Museum, R.3125-6/9/11-1000)
↑ SAR Mechanical Department. New Tender Tank - Class 6H, 6J, 8, 8A, 8B, 8C, 8D, 8E, 8F, 8Y, 8Z, 10C old tenders, Exp 4, 20. SAR Mechanical Department Drawing Office, Drawing L-5076/12, 1925.
↑ SAR Mechanical Department. New Tender Tank - Class 6B, 6E (XE), 7A, 7B, 7C (ZE). SAR Mechanical Department Drawing Office, Drawing L-5618, 1925.

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[Holland_1-1] 1 2 3 4 Holland, D.F. (1971). Steam Locomotives of the South African Railways. 1: 1859–1910 (1st ed.). Newton Abbott, Devon: David & Charles. pp. 61–69. ISBN 978-0-7153-5382-0.

[Diagram-book_1-2] 1 2 3 4 5 6 7 8 9 10 11 South African Railways & Harbours/Suid Afrikaanse Spoorweë en Hawens (15 Aug 1941). Locomotive Diagram Book/Lokomotiefdiagramboek, 3'6" Gauge/Spoorwydte. SAR/SAS Mechanical Department/Werktuigkundige Dept. Drawing Office/Tekenkantoor, Pretoria. p. 43.

[Diagram-book_2-3] 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 South African Railways & Harbours/Suid Afrikaanse Spoorweë en Hawens (15 Aug 1941). Locomotive Diagram Book/Lokomotiefdiagramboek, 2'0" & 3'6" Gauge/Spoorwydte, Steam Locomotives/Stoomlokomotiewe. SAR/SAS Mechanical Department/Werktuigkundige Dept. Drawing Office/Tekenkantoor, Pretoria. pp. 6a-7a, 43.

[SAR_Renumber-4] 1 2 Classification of S.A.R. Engines with Renumbering Lists, issued by the Chief Mechanical Engineer’s Office, Pretoria, January 1912 (Reprinted in April 1987 by SATS Museum, R.3125-6/9/11-1000)

[Drawing_L-5076/12-5] SAR Mechanical Department. New Tender Tank - Class 6H, 6J, 8, 8A, 8B, 8C, 8D, 8E, 8F, 8Y, 8Z, 10C old tenders, Exp 4, 20. SAR Mechanical Department Drawing Office, Drawing L-5076/12, 1925.

[Drawing_L-5618-6] SAR Mechanical Department. New Tender Tank - Class 6B, 6E (XE), 7A, 7B, 7C (ZE). SAR Mechanical Department Drawing Office, Drawing L-5618, 1925.

v t e Locomotives of the Cape of Good Hope
7' ¼" gauge	East London 0-4-0VB Table Bay 0-4-0ST Table Bay 0-4-0T Table Bay 0-4-0WT
4' 8½" gauge	Cape 0-4-0T Cape 0-4-2 Cape 2-4-0T CGR 0-4-0ST Aid
3' 6" gauge	CGR 0-4-0ST 1873 CGR 0-4-0ST 1874 CGR 0-4-0ST 1881 CGR 0-4-0ST 1881 Coffee Pot CGR 0-6-0ST CGR 0-6-0T CGR 2-6-0ST 1900 CGR 2-6-0ST 1902 CGR 1st Class 0-4-0ST 1875 CGR 1st Class 0-4-0ST 1876 CGR 1st Class 2-6-0 1876 BP CGR 1st Class 2-6-0 1876 Kitson CGR 1st Class 2-6-0 1879 CGR 1st Class 2-6-0 1891 CGR 1st Class 2-6-0ST CGR 1st Class 4-4-0 CGR 1st Class 4-4-0T CGR 1st Class 4-4-0TT CGR 2nd Class 2-6-2TT CGR 2nd Class 4-4-0T CGR 3rd Class 2-6-0T CGR 3rd Class 4-4-0 1883 CGR 3rd Class 4-4-0 1884 CGR 3rd Class 4-4-0 1889 CGR 3rd Class 4-4-0 1898 CGR 3rd Class 4-4-0 1901 CGR 3rd Class 4-4-0 1903 CGR 4th Class 4-4-2 CGR 4th Class 4-6-0TT 1880 CGR 4th Class 4-6-0TT 1882 CGR 4th Class 4-6-0TT 1882 Joy CGR 4th Class 4-6-0TT 1884 CGR 5th Class 1890 CGR 5th Class 1891 CGR 6th Class 1893 CGR 6th Class 1896 CGR 6th Class 1897 CGR 6th Class 1898 CGR 6th Class 1900 CGR 6th Class 1901 Baldwin CGR 6th Class 1901 Schenectady CGR 6th Class 1901 Neilson's CGR 6th Class 1902 CGR 6th Class 1904 CGR 6th Class 2-6-2 CGR 6th Class 2-6-4 CGR 7th Class 1892 CGR 7th Class 1896 CGR 7th Class 1902 CGR 8th Class 1901 CGR 8th Class 1902 CGR 8th Class 2-8-0 1903 CGR 8th Class 4-8-0 1903 CGR 8th Class 4-8-0 1903 Exp CGR 8th Class 2-8-0 1904 CGR 8th Class 4-8-0 1904 CGR 9th Class 1903 CGR 9th Class 1906 CGR 10th Class CGR Fairlie CGR Karoo 1903 CGR Karoo 1904 CGR Karoo Compound CGR Kitson-Meyer CGR Mountain 4-8-2 CGR Railmotor CGR Tandem Compound 1902 CGR Tandem Compound 1903 Kowie Railway 0-6-0T Kowie Railway 4-4-0T Metropolitan & Suburban 4-6-2T NCCR 7th Class 1899 NCCR 7th Class 1913 Port Elizabeth 0-4-0ST
2' 6" gauge	Cape Copper 0-6-0T Cape Copper Britannia Cape Copper Caledonia Cape Copper Clara Cape Copper Condenser Cape Copper Scotia Namaqua Copper Pioneer Walvis Bay Hope
2' gauge	CGR Baldwin 2-6-0 CGR NG 0-4-0T CGR NG 0-6-0T CGR NG 4-6-2T CGR Type A CGR Type B CGR Type C
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