Maunsell locomotive types
| Specific designs Lord Nelson Schools King Arthur 2-6-0 series River 2-6-4T W class 2-6-4T Q 0-6-0 Z 0-8-0T |
See also Maunsell
(biography) Unfulfilled projects |
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| Note: the basis for this page is Jones's Steam locomotive development which is being updated. | ||
Overall studies
Bradley, D.L. Locomotives of
the Southern Railway. London: RCTS. 1975/6.. Volume 1.
Restricted solely to those locomotives, Lord Nelson, Schools, not
many etc, actually designed by Southern Railway under Maunsell.
Burtt, F. SE&CR locomotives, 1874 —
1923. London: Ian Allan, 1947
Includes Maunsell designs developed prior to the Grouping
Cocks, C.S. History of Southern
Railway locomotives to 1938. J.
Instn Loco. Engrs, 1948, 38, 749-822. Disc.: 823-60. (Paper
No. 481)
On the SECR the N class introduced by Maunsell was the first to combine
high superheat with long travel valves. The leading pony trucks combined
a spherical centre with Cartazzi type (the slides were in an oil bath). The
tapered boiler barrel and top feeds and superheater were further advances.
The K class (2-6-4T) was fitted with a two-wheeled Bissel truck with a 6ft
4 in radial arm. Cocks mentions the Sevenoaks accident without pursuing this
topic in depth other than the conversion of the class to 2-6-0s.
On the foundation thus provided at the grouping, Maunsell laid down a set
policy for the future design of locomotives, under the following headings:
(1) Ample power for all requirements to enable sectional timing
to be maintained with a high degree of efficiency.
(2) Ease of maintenance.
(3) Suitable for operating on all three sections within the limits of bridge
loading.
(4) Standard locomotives with as few types as possible to cover the whole
of the requirements. Standard details to be as interchangeable as possible,
such as boiler, cylinder, motion, tyres, axles, axleboxes, fittings and boiler
mountings.
(5) Belpaire type firebox, with grate area and heating surface well
proportioned.
(6) Long lap piston valves.
(7) Freer exhaust passages.
(8) Accessibility of all parts ("Make everything 'Get-at-able.' was Maunsell's
remark).
(9) Footplate comfort and ease in handling. In this connection wooden models
or mock-ups of the cab with the handles for operation in position were made
for the enginemen's inspection and suggestions.
(10) Lubrication of all parts to be efficient and simple. To be under the
control of the enginemen as far as possible without leaving the footplate.
(11) Large smokeboxes and capacious ashpans.
Holcroft
(pp. 834-44) provided a major addendum in which he made a major contribution
on three-cylinder locomotives. The benefit obtained by the third cylinder
can take many forms, depending on the working conditions. For instance, the
Author has made references to the Tonhridge-Hastings line in connection with
three-cylinder engines. To those not familiar with this section of the Southern
lines, it should be explained that this road traverses difficult, hilly country
and has numerous sharp curves, speed restrictions and heavy gradients. The
tunnels as constructed by the old S.E.R. had brick linings which proved to
be too' thin. To have re-bored the cross section for thicker brickwork would
have been a great expense and the short-sighted decision was made to thicken
up the lining internally, thus reducing the structure gauge. The matter was
not of much consequence with the narrow rolling stock of the period, but
at the present day special 8 ft. 6 in. wide corridor stock has to be provided,
some types of freight vehicles are barred and so are two-cylinder engines
with outside cylinders. By constructing a three-cylinder modification of
the standard engine, dimension over cylinders was reduced sufficiently to
permit of its running. Thus in this special case use of a third cylinder
enabled more powerful engines to be put to work over this heavy
road.
In the case of heavy shunting engines, as exemplified by the Z class,
three cylinders confer a number of desirable features which the Author has
touched upon. These engines are specially adapted to hump shunting where
a very steady push is needed. In all-out conditions they will continue to
move almost imperceptibly under circumstances where an equivalent two-cylinder
engine would have stalled. It should be noted that no superheater is fitted
on the Z class. On an engine used intermittently in shunting duties no
appreciable benefit results from the normal fire tube superheater; in fact
it is a drawback in operation unless the regulator is on the cylinder sfde
of the header.
The K class passenger tanks were very comfortable in their cab
arrangements and smooth riding, but the three-cylinder No. 890 was outstanding
by reason of its lighter balancing, apart from its performance. It was remarkable
in that it could be operated with wide open regulator and a very short cut-off.
The two-cylinder engines were more suited to a partially opened regulator
witn a cut-off of not less than 20 per cent. I made several trips on No.
890 with an evening train very smartly timed to do the 26.1 miles from Tonbridge
to Ashford in 28 minutes start to stop. The load was about 270 tons tare
and the running was against the gradient shown in Fig. 17 (page 781). The
engine performed its task with ease under a full regulator and with the reverser
only half a notch from and- gear. Steaming left nothing to be desired and
the trip was as near perfection in locomotive work as could be. Whether the
superiority of this engine over the two-cylinder variety was sufficiently
marked to justify the additional expense is a debatable point because the
Sevenoaks accident occurred before any systematic tests were put in hand,
and the matter was not, followed up after conversion.
Turning to the 4-4-0 type, even G. J. Churchward could not make a succes
of his outside cylinder design, the original " County " class. Add a third
cylinder to such a design and the situation is transformed to such an extent
that the type can then compete in performance with a larger and nominally
more powerful 4-6-0. Instances have been cited in the discussion of the fine
work done by the " Schools " class in this respect. All the difficulties
with balancing of the reciprocating parts disappear, and the effect on bridges
can be observed in the almost perfect parabolas recorded by the instruments
used in investigating bridge stresses.
Coming to the more difficult cases where two- and three-cylinder engines
directly compete in normal traffic, more particularly as regards freight
service, the only ways in which the three-cylinder can obtain advantage lie
in improved combustion efficiency, higher mechanical efficiency and in reduced
wear and tear. Without careful dynamometer car tests which
include indicating, it is not possible to detect improvement in mechanical
efficiency, though it is to be expected with reduced nosing, more even turning
moment, steadier drawbar pull, reduced thrust on bearing surfaces and smaller
reaction on the riding of the tender.
As regards wear and tear, a reduction is to be expected owing to better
distribution of loading on bearings; smaller flange and tread wear should
result from less nosing and lighter balance weights. If three-cylinder engines
fail to show improved mileages over corresponding t\vo-cylinder between general
repairs it may be that it is because there is a tendency to put them to work
on the heavier duties. A ton-mile basis is required to assess the
matter.
Turning to efficiency of combustion, this is influenced by the modified
smokebox action through the same volume of steam being metered by the exhaust
beats at shorter intervals per revolution with three cylinders instead of
two.
In drawing out with a heavy freight train observation of the fire
in the case of the two-cylinder shows a white flash with each exhaust beat
followed by a rather longer interval in which the firebox is filled by the
dull orange glow of incompletely burned hydrocarbon vapour. This alternation
goes on until some speed is gained, when the light gradually becomes white
but flickering. This dies out with further increase in speed a steady white
glow fills the firebox as - combustion conditions improve.
In the case of the three-cylinder, the stages in combustion conditions are
far less marked and occur earlier, and moreover the flickering dies out at
a much lower speed. If the fire bed is watched through a dark blue glass,
it will be seen that the agitation of the particles of fuel is less than
occurs with a two-cylinder engine at the same speed. When the r.p.m. reach
100 or so the difference between the two types is small, and combustion
conditions tend to become equal. Fuel saving in a three-cylinder engine is
therefore to be looked for in slow and heavy haulage in freight service or
passenger service over steep gradients
Although the Author had not been able to produce any figures, Holcroft able
by reference to his notebook gave particulars of coal tests carried out between
two- and three-cylinder engines on freight service over the same road and
using the same grade of Kent coal (Chislet), the
| Date | Engine No. | Cylinders | Coal lb/engine mile . | Coal lb/gross ton mile. | Average No. loaded wagons |
| July 1923 & July 1923 |
822 |
3 |
61.3 |
0.107 |
50 |
| June 1924 | 821 |
2 |
66.5 |
0.114 |
51 |
| June 1924 | 825 |
2 |
61.3 |
0.113 |
47 |
| July 1922 | 817 |
2 |
74.4 |
0.106 |
59 |
| July 1922 | 818 |
2 |
79.2 |
0.118 |
59 |
The coal returns supplied by the outdoor locomotive department for N
class engines stationed at Ashford and working in the same link, prior to
the first tests with No. 822 were as follows
| Month In 1923 | Engine No. | Coal lb/mile | Engine No. | Coal lb/mile |
| March | 822 | 66.03 | 820/ 821 | 71.89 |
| April | 822 | 66.87 | 821 | 75.38 |
| May | 822 | 66.88 | 821 | 76.99 |
| June | 822 | 62.99 | 821/ 823 | 69.74 |
| Average | 65.69 | 73.50 |
The result in favour of the three-cylinder engine was a saving of 11.8 per
cent, of the coal consumed by the other engines in the link.
The economy in fuel by No. 822 is not so apparent in' the overall
results of the coal tests, but if the results of the individual test runs
are plotted as a graph (see Fig. X) they are very striking.
All the trials were conducted during the summer months so that weather had
little effect on them. Disregarding the abnormally large consumption of Engine
'No. 8i8, lines are drawn through the scattered points plotted, one for No.
822 and the other br INOS. 817, 821 and 825. These lines show, under the
conditions of the test, that with a load of 47 wagons the coal consumption
of two- and three-cylinder engines are equal.
For a smaller number of wagons, advantage lies with the two- cylinder, but
as the load increases above 47, so does the relative economy of the
three-cylinder engine. The deduction is obvious: give three-cylinder engines
the maximum of hard work and they will repay their cost.
During the course of the trials there was little difference in superheat
between the two types but the average of 8~ readings of the water gauge for
smokebox vacuum was 1.9 in. with ~ wagons for No. 822, and for 6~ readings
with No. 825 pulling 48 wagons it was 2.6 in. As the conditions in each case
were strictly comparable and the ashpan dampers well open on both engines,
it is apparent that the lower smokebox vacuum was due to a smaller resistance
at the fuel bed, that is to say the three-cylinder could be worked with a
thinner fire so that combustion conditions were more favourable.
When it is considered that the coal consumed in the trials included
that for lighting up, standing in steam and light running, the saving by
the three-cylinder is all the more remarkable because the opportunity for
fuel saving only occurs when the engine is pulling hard in
traffic.
The conjugated valve gear used in three-cylinder engines has been
criticised, mainly on account of over-travel of the middle valve which has
been known to occur on infrequent occasions. The critics are, however, "barking
up the wrong tree.." The conjugated faithfully reproduces the combined movement
of the two primary gears, and if they have any faults it reveals those faults
in magnified form. If there is over-travel of the middle valve it arises
from over-travel of the primary gears.
In the shops it is customary to take readings of the valve motion while the locomotive wheels are slowly revolved. It is too often Assumed that precisely the same results are produced at high speed in service.
If the matter is considered, it will be found that two Walschaert gears are anchored at five points, at the reverser and at each cross- head and return crank. The structure includes a none-too-rigid reversing rod, a reversing shaft subject to torsion and deflection and off-sets at overhung return cranks and other non-alignment. Thus we have an elastic set-up for the purpose of reciprocating a pair of valves with a harmonic motion, the principal effort required being to overcome the inertia of the valve at each end of their travel. Such a system will have a natural period of oscillation and at some particular speed over-travel will reach a maximum, being accentuated if the motion. is put into full gear, as when steam is shut off at high speed.
In the case of a conjugation being added for operating the valve of the middle cylinder in a three-cylinder engine, there are three light valves to swing about instead of two heavy ones, so the work expended is not much affected. The phase is altered, because the impulses occur at intervals of 60º instead of 90º. The remedy for over-travel or other irregularities of the third valve is to make the primary gears as rigid as possible, consistent with their weight. The deflection of the levers of the conjugation is small but could be further reduced by using a deep I section of aluminium alloy. It does not seem to be grasped that corrections can be applied by departing from the rigid 2 :1 ratio of the levers; the valve events can be advanced or retarded and also the travel can be adjusted by slight alterations in the proportions of the levers. In other words, the possibilities of the conjugated gears have not been fully explored: they can take many forms, there is no need to adhere to those forms so far employed.
Morris, O.J. Standardising. Loco. Rly Carr. Wagon Rev., 1941,
47, 16-19; 157-60 [E4 class]; 229-31
Nock, O.S. The
locomotives of R.E.L. Maunsell, 1911-1937. 1954.
Includes detailed arrangement drawings.
Webster, R. Locomotives designed by R.E.L. Maunsell, C.B.E., Chief
Mechanical Engineer, South Eastern & Chatham Railways, 1914-1922. Rly
Obsr, 1930, 2, 4-5; 29-31; 44-7.
Webster, R. Locomotives designed by R.E.L. Maunsell, C.B.E. Chief
Mechanical Engineer, Southern Railway. Rly Obsr, 1930, 2, 127-8;
144,158-60; 161-2. table.
By later Railway Observer standards these articles are somewhat
superficial.
Woodnutt, G.C. S.R. locomotives, 1923-35. Rly Obsr, 1937,
9, 4-8; 51-2; 86-8; 100-2; 128-30; 159-62; 214-15; 230-2; 257-61;
294-6; 329-31; 361-5. 21 tables.
4-6-0
LN ("Lord Nelson"): 1926 :
On the basis of tractive effort (33,500 lbf) this class was the most
powerful express passenger design in Britain, when introduced. The Publicity
Department expolited this fact in special posters : see
"The Lord Nelson poster" (below). Bulleid
modifications.
BOILER details of the "Lord Nelson" locomotive, Southem Railway. Rly
Engr. 1927, 48, 21-3. 7 diagrs., plan..
Detailed working drawings.
FOUR-CYLINDER express engine, Lord Nelson class, Southern Ry. Loco. Rly
Carr. Wagon Rev., 1927, 33, 275 + col. folding plate f.p. diagr.
Coloured sectionalized diagrams.
4-6-0 type 4-cylinder, Southern Railway, new express locomotive, "Nelson"
class. Engineering, 1926, 122, 473-4. illus., diagr. (s. &
f. els.)
The "LORD Nelson" locomotive on the Southern Railway. Rly Engr. 1926,
47, 430-1 + folding plate. 5 diagrs. (incl.. s. el.), plan.
Includes sectionalized diagrams.
"LORD Nelson" poster, Southern Railway. Rly Mag.,
1926, 59, 502. illus.
"The most powerful express passenger locomotive in
Britain".
NEW four-cylinder 4-6-0 locomotive, Southern Railway. Rly Engr, 1926,
47, 395-7. 2 illus., 2 diagrs. (s. & f. els.)
NEW four-cylinder 4-6-0 locomotive, Southern Railway. Rly Mag., 1926,
59, 380. + plate f.p. 341. illus.
SOUTHERN Ry. four-cylinder "Nelson" class express locomotive. Loco. Rly
Carr. Wagon Rev., 1926, 32, 346. diagr. (s. & f. els.)
SOUTHERN Railway—four cylinder simple passenger engine. Engineer,
1926, 142, 413; 558-60 + folding plate f.p. 555. illus., diagrs.,
plans.
Includes detailed working diagrams.
SOUTHERN Railway—new express locomotive, "Lord Nelson" class. Loco.
Rly Carr. Wagon Rev., 1926, 32, 310-1 1. illus.
SOUTHERN Railway new express passenger locomotive. J. Instn Loco. Engrs,
1926, 16, 656-8. illus.
Very full description: notes that fitted with Maunsell
superheater
1929 No. E860
the last of the class to be built, was fitted with boiler tubes 10
in longer than the rest of the class.
FOUR-CYLINDER express engine with longer boiler, Southern Ry. Loco. Rly
Carr. Wagon Rev., 1929, 35, 345. illus.
1934: No. 862 was fitted with a Kylchap double
chimney.
DOUBLE blast pipe fitted to Southern Ry. locomotive. Loco. RIy Carr. Wagon
Rev., 1935, 41,14. illus..
[LORD Nelson class No. 862 fitted with a Kylchap double chimney]. Rly
Mag., 1934,75, 382. illus.
1937: combustion chamber boiler:
In connection with the development of a Pacific type locomotive No.
857 was rebuilt experimentally, with a taper-boiler fitted with a combustion
chamber.
LOCOMOTIVE boilers. Rly Gaz., 1937, 66, 746.
Editorial comment.
"LORD Nelson" class engine No. 857, Southern Railway : fitted with enlarged
taper boiler having a round-topped firebox with combustion chamber. Rly
Gaz., 1937, 66, 661-2. illus.,diagr. (s. el), table.
RE-BOILERED "Lord Nelson" class engine, Southern Railway. Loco. Rly Carr.
Wagon Rev., 1937, 43,100. illus., diagr. {s. & f. els.),
table.
1938: Front-end modifications—see
Bulleid.
Retrospective and critical
Anderson, E.P. Report on the partial derailment of the engine of
an express passenger train that occurred on the 23rd January, near Kent House.
Ministry of Transport: Railway accidents ... which occurred during the three
months ending 31st March, 1930. London, HMSO, 1930. l0p. + folding plate.
4 diagrs. (incl. s. el.)
Anderson suggested that the flanges should be thickened and deepened
on the leading coupled wheels and that the strength of the bogie control
springs should be increased—the derailment was due to flange wear an
the leading coupled wheels.
Boocock, Colin. Victory on
a 'Nelson'. Steam Wld., 2003, (192) 16-20.
Boocock was an apprentice at Eastleigh and as part of his training
he was allocated six weeks of footplate travel. The primary theme was on
the way to fire the Lord Nelson class which ccalled for a particular skill
to cope with the long, narrow, and partly sloping grate. Like many 4-6-0s
the class could be rough and this was violent through the crossovers at Pirbright
Junction.
Clarke, Jeremy. The locomotives of R.E.L. Maunsell. Part 6: the 'Sea
Dogs'. Steam Wld, 2008 (251)
46-50.
Rather superficial assessment of the Lord Nelson class, although does
note its reliability and the difficulties of firing the long difficultly
shaped grate which was exacerbated by the small size of the class. Bulleid's
significant modifications are noted, although the larger piston valves were
never fitted to all locomotives.
Harvey, N. The Maunsell "Lord Nelson" class. J. Stephenson Loco.
Soc., 1962, 38, 349-55. 5 illus., table.
Lacks depth.
Holcroft, H. "Castles", Lord Nelsons", and "Royal Scots". Rly
Mag., 1947, 93, 13-15; 27. 3 illus.
The relationship of the LMS design to the Lord Nelson
class.
IN memory of the "Lord Nelsons". Rly Wld., 1963, 24, 90-5.19
illus.
Photographic feature showing the many variants.
Kelway-Bamber, H. Modern British
railway express passenger engines. J. Instn. Loco. Engrs., 1926,
16, 1004-17.
A detailed analysis of Castle locomotive work (including on the LNER)
plus a comparative study of this design, the Al and "Lord Nelson"
classes.
Martin, G.P.B. The "Lord Nelson" class, Southern Railway. Rly
Mag., 1946, 92, 284-8; 358-9; 378-80. 11 illus.
A detailed account.
A NEW express locomotive. Engineer, 1926, 142, 419-20.
Editorial comment on the "Lord Nelson" design in comparison with the
Al and "Castle" designs (see Kelway-Bamber above).
Swift, Peter. Locomotives in detail. 8. Maunsell 4-6-0 Lord
Nelson class. London: Ian Allan, 2007.
Mel Holley (Steam
Wld, 2007 (243) 66) called the book "rough and ready"
and sighed that "it could have been so much better". KPJ agrees entirely:
very poor standard of reproduction: copy seen at NRM bookshop where it contrasts
greatly with NRM's own high standards for book production..
Townroe, S.C. 'Arthurs', 'Nelsons' & 'Schools' at
work. London: Ian Allan, 1973/1983. 144pp. Bibliography.
Townroe, S.C. The "King Arthurs" and "Lord Nelsons" of the Southern
Railway. London, Ian Allan, [1949] . 47 p. mcl. 16 plates. 37 illus.,
4 diagrs. (incl. 2 s. & f. els.), 9 tables.
A good "potted" account which included performance. Location: British
Museum.
Tuplin, W.A. Strange story of "Lord Nelson". Rly Wld, 1959,
20, 187-93. 2 illus,, 2 diagrs. (s. els.)
An assessment: in Tuplin's
British steam since 1900
he was not wildly excited about the LN class and considered that
the grate was excessivley long and difficult to fire and that the crank setting
spoiled the balancing of the reciprocating parts.
Winding, P. Maunsell triumvirate. Rly Mag., 1963, 109,
566-74. 10 illus., 3 tables. Bibliog.
An appreciation of the V, LN and N15 designs.
4-6-0: modifications to pre-grouping designs.
London, Brighton & South Coast Railway
N15X:1934:
The L.B. & S.C.R. had built seven large express tank engines,
with the Baltic wheel arrangement (the L class). These locomotives became
redundant when the Brighton line was electrified. In consequence, the class
was rebuilt as 4—6—0 tender engines, and used on the
Western Division.
The SOUTHERN Baltics converted. Rly Mag., 1935, 76, 61; 36.
illus.,diagr. (s. & f. els.), tables.
SOUTHERN Railway : conversion of 4-6-4 type "Baltic" tank engines to 4-6-0
type engines. Loco. Rly Carr. Wagon Rev., 1934, 40, 365-6.
illus. diagr. (s. & f. els.)
Retrospective and critical
EXTINCT locomotive classes : Southern Region class N15X (converted L class
tanks). J. Stephenson Loco. Soc., 1957, 33, 372-3. illus.,
table.
Morris, O.J. As they were! — Class 'N15X' Southern Region.
Trains ill., 1949, 2, 128-30. 2 illus.
Riley, R.C. The Pacific and Baltic tanks of the L.B. & S.C. R.
Trains ill., 1957, 10, 40-6. 8 illus.
Includes the rebuilt Baltics.
Webber, A.F. The proportions of
locomotive boilers. J. Instn Loco. Engrs, 1937, 27, 688-725.
(Paper No. 378).
Included on a comparative basis.
London & South Western Railway:
The diagram (below) shows the complex inter-relationship of Drummond,
Urie and Maunsell 4-6-0 classes.
H15: 1924 :
This was a modification of Urie's original 4-6-0 for new construction.
The N15 boiler was substituted but the cylinders (21 in x 28 in) and 6 ft
0 in driving wheels were not changed.
NEW 4-6-0 mixed traffic engines, Southern Railway (L. & S.W. Section).
Loco. Rly Carr. Wagon Rev., 1924, 30, 111.illus.
NEW 4-6-0 mixed-traffic locomotive, Southern Railway. Rly Mag., 1924,
54, 438. illus.
N15: King Arthurs: 1925:
To meet a demand for an increase of motive power on the Western Section,
Maunsell modified the Urie N15 design for a new series. The boiler pressure
was raised from 180 lb/in2 to 200 lb/in2, and the cylinder
volume was reduced. In addition, the front-end was re-designed with long
travel valves and more direct steam passages. It should be noted that the
Urie locomotives were not modified until after Maunsell had retired. Several
series of the Maunsell version were built. In retrospect it seems strange
that the boilers and front ends were not modified to accept a drumhead smokebox.
The differences between them were due to the varying nature of Southern operating
conditions.
1925: Eastleigh series: LSWR cabs and bogie
tenders.
4-6-0 express locomotives, Southern Railway. Loco. Rly Carr. Wagon Rev.,
1925, 31,135-6. diagr. (s. & f. els.)
"KING Arthur" class, Southern Railway. J. Instn Loco. Engrs, 1925,
15, 381-2. illus.
REBUILT 4-6-0 express locomotives, "King Arthur" class, Southern Ry. Loco.
Rly Carr. Wagon Rev., 1925, 31, 99-100. illus.
Rebuilt is a misnomer as the locomotives were built as
replacements.
North British Locomotive Co. batch
:1925
"KING Arthur' class 4-6-0 locomotives, Southern Railway. Rly Engr.
1926, 47, 248-50 + folding plate. illus. 4 diagrs., plan.
NEW express locomotives, Southern Railway. Rly Mag., 1925, 57,
164. illus.
NEW six-coupled bogie passenger engines, Southern Ry. Loco. Rly Carr.
Wagon Rev., 1925, 31, 235. illus.
SOUTHERN Rly.—express locomotive. Engineer, 1925, 140,
329. illus., diagr. (s. & f. els.)
E448: modification improved sprringing to bogie: 1925
Holcroft, H. Locomotive
adventure. p. 132
Longer span laminated springs with addiotion of rubber pads.
Smoke deflection:
The class was the subject of several smoke deflection experiments.
See also, the paper by Holcroft in the retrospective section.
1926:
Small wing-like deflector plates were fined immediately behind the
chimney on No. E450. Incidentally, this application may explain why smoke
deflector plates have sometimes been called "wings".
STEAM deflector for locomotives, Southern Ry. Loco. Rly Carr. Wagon
Rev., 1926, 32, 127. illus.
1927 No. 772 was equipped with large, rectangular plates which sloped inwards at the upper edges. The supporting arrangement was unusual in that the plates were fixed to the smokebox by large brackets which projected above the defiectors and met the smokebox near to the chimney.
SOUTHERN Railway locomotive fitted with smoke deflectors. Rly Mag., 1927, 60, 30, illus.
1928: Deflector plates of a standard design were fitted to the class.
[SMOKE deflectors for the "King Arthur" class.] Loco. Rly Carr. Wagon Rev., 1928, 34, 163.
World War II
King Arthur locomotives were loaned to the LNER
Barnes, Robin. Wartime service on Tyneside for SR Arthurs.
Steam Wld, 1991 (51)
40.
Letter plus two reproductions of paintings: SR King Arthur No. 740
Merlin piloting C7 Atlantic passing through base of Cuxhoe signalbox
with Q5 behind during WW2 (other relates to A1/1)..
Retrospective and critical
Bond, R.C. Organisation and control
of locomotive repairs on British Railways. J. Instn Loco. Engrs, 1953,
43, 175-265. (Paper No. 520).
Annual average mileage statistics (70,995) attained between overhauls
for the class are quoted.
Chadwick, John. One good [firing]
turn. Gt Western Rly J., 2005, 7, 439-42.
Based at Oxford and used to footplate work on locomotives of all the
pre-nationalization railways. Comment on exposed nature of King Arthur cabs
and location of firehole, but regarded as powerful locomotives.
Gresley, H.N. [Report on the stability of S.R. classes K, K1 and N15
when tested on the Great Northern main-line] [in (pp. 34-7)]. Pringle,
J.W. Report on the derailment of a passenger.train, which occurred
on the 24th August, 1927, near Sevenoaks, on the Southern Railway. Ministry
of Transport: Railway accidents [monograph]. London, HMSO, 1928. 38 p. 5
diagrs. (md. s. & f. els.), 6 tables, plan.
Gresley was critical of the vibration experienced in the cab of the
N15 class during test running.
Hardy, R.H.N. "Balmore", pseud. Locomotive on shed. Trains
Ann., 1956, 58-66.10 illus.
The author was shedmaster at Stewarts Lane. He gave his impressions
of the N15s, which he considered to be a sound class.
Holcroft, H. Locomotive trials on the Southern Railway.
Engineer, 1925, 140, 658-62. 4diagrs., 6 tables.
Comparative Yorkshire/Welsh coal tests, coincidentally giving very
full details of N15 working.
Holcroft, H. Smoke deflectors
for locomotives. J. Instn Loco. Engrs, 1941, 31, 462-89. (Paper
No. 430).
Smoke deflection development especially on the N15 class.
The King Arthurs—a class that sustained a great tradition. J.
Stephenson Loco. Soc., 1964, 40, 47-51. 4 illus.
An appreciation reprinted from Modern Transport.
London & South Western Railway, "N 15" class 4-6-0's. J. Stephenson
Loco. Soc., 1958, 34, 233-7.5 illus., table.
McKillop, N. Ace enginemen
(1963)
Footplate log of Sam Gingell and Fireman F. Rowe working a Victoria
to Ramsgate train with 30768 Sir Balin, recorded Ronald Nelson.
Nock, O.S. The
Southern King Arthur family. 1976.
Includes both Urie and Maunsell two-cylinder 4-6-0s of classes N15,
H15 and S15. Includes full general arrangement drawings for N15. Notes how
Clayton had redesiigned front end. Improved balancing had reduced the hammer
blow as compared with the Urie design. The Maunsell/Hutchinson superheater
had replaced the Urie type.
Rich, Fred. Yesterday once more: a
story of Brighton steam. 1996. Chapter 14. Yesterday once more. pp.
161-3.
Observations gleaned from former LBSCR enginemen on their brief experience
of the King Arthurs and their response in comparison with the Brighton Baltics
which accelerated more rapidly, but were slower downhill than the
Arthurs.
Riley, R.C. The Urie Arthurs. Rly Wld, 1958, 19,
185-92. 10 illus., 2 tables.
Swift, Peter. Locomotive
in detail 4: Maunsell 4-6-0 King Arthur Class. Ian Allan, 2005.
Not seen, but presumably shares similar qualities as this Author's
work on Schools class in same series.
Swift, Peter. SR 1930s – that makeshift lamp iron [letter].
Rly Arch., 2008 (20) 20.
See Rly Arch., 2008
(19) page 43 upper for photographic survey of Southern Railway Continel
boat trains which included on of King Arthur No. 767 and its "makeshift extended
lamp iron" on the buffer beam. The normal bracket was not broken as it is
clearly visible above the smoke deflector plate. The reason for the makeshift
may have been through the varying practices of the Southern Railway constituents.
All its pre-grouping companies used route indicating discs, but the SECR
used only four positions, three across the buffer beam and one in front of
chimney. The LSWR and LBSCR both used six positions: the LSWR put its middle
discs on either side of the smokebox at mid height, whilst the LBSCR used
extended double brackets on the buffer beam, able to carry both the lower
and middle disc. In about 1920, the SECR started to fit the additional brackets
to locomotives, but lower down on the smokebox, as shown in the various photos
of SECR 4-4-0s in Jim Greaves' article.
The problem with the LSWR arrangement is shown on No. 856,
in the photo below that of No.
767. The smokebox side, is right in the fireman's line of sight and would
be even worse when the brackets were raised, as on No. 767, after smoke
deflectors were fitted. The LSWR also differed from the other two in using
sockets instead of spikes for its lamp irons, requiring a different set of
lamps and discs. The Eastern Section solved this problem by inserting lamp
irons into the sockets, as seen in the centre bufferbeam bracket on No. 767
and, more clearly, in the two photos
of No. 772 on page 41. No. 772 also shows the final solution to the sighting
problem with the side discs moved onto the smokebox door. As
the photograph of 772 on page 42 shows, the operating department also
solved the problem in 1934 by changing the Victoria-Dover via Tonbridge headcode.
Lord Nelson No. 853 carried an LBSCR style double bracket on the fireman's
side for a several years.
Townroe, S.C. 'Arthurs', 'Nelsons' & 'Schools' at work.
London: Ian Allan, 1973/1983. 144pp. Bibliography.
Townroe, S.C. The "King Arthurs" and "Lord Nelsons" of the Southern
Railway. London, Ian Allan, [1949] .47 p. incl.. 16 plates. 37 illus., 4
diagrs. (md. 2s. & f. els). 9 tables.
Good "potted" history. Location : British Museum.
Webber, A.F. The proportions of
locomotive boilers. J. Instn Loco. Engrs, 1937, 27, 688-725.
(Paper No. 378).
Included on a comparative basis.
Winding, P. Maunsell triumvirate. Rly Mag., 1963, 109,
566-74. 10 illus., 3 tables. Bibliog.
Appreciation of the V, LN and N15 classes.
Names
The Arthurian names bestowed on the class by a vigorous publicity
department were imaginative and seem to have caught the public imagination
(see The Times reference (below)). Excalibur, Joyous Gard
and Camelot had a poetic quality seldom found in post-grouping
names.
KING Arthur haunts the railway. J. Stephenson Loco. Soc., 1964,
40, 23-5.
Reprinted from The Times of the 28th October, 1963 and accompanied
by a letter from Sir John Elliott.
SOUTHERN Railway locomotivesto be named. Rly Mag., 1925, 56,
321.
Elliot, J. Early days of the Southern Railway. Journal of Transport
History, 1960, 4, 197-213.
P14: 1923:
One of the Drummond P14 class four-cylinder locomotives was selected
for an experimental alteration in crank settings. The conventional setting
was 180o, but Holcroft had suggested that a change
to 135o would lead to an improvement in performance. The P14
locomotive was modified to test Holcroft's theory.
Holcroft, H. Four-cylinder locomotives.
J. Instn Loco. Engrs, 1920,10,115-32; 139-64. Disc.: 132-8;
165-77; 186-206.29 diagrs. (Paper No.80).
Theoretical treatise on crank settings.
SOUTHERN Railway (L. & SW. Section) re-built 4-cylinder express engine.
Loco. Rly Carr. Wagon Rev., 1923, 29, 352-3. illus., diagr.
(s. el.)
S15:1927:
This class was introduced, by Urie, in 1920. It was similar to the
N15 class, except for smaller (5 ft 7 in) driving wheels, and was intended
for fast freight duties. In 1927, and again in 1936, Maunsell introduced
further series, modified to conform with his N15 improvements.
1927 batch
NEW 4-6-0 goods locomotives, Southern Railway. Rly Engr. 1927,
48, 305. illus., diagr. (s. el.)
NEW six-coupled bogie goods engines, Southern Railway. Loco. Rly Carr.
Wagon Rev., 1927, 33, 174-5. illus., diagr. (s. el.)
1936 batch
EXPRESS freight locomotives, Southern Railway. Loco. Rly Carr. Wagon
Rev., 1936, 42, 236. illus., diagr. (s. & f. els.)
NEW express freight locomotives, Southern Railway. Rly Gaz., 1936,
65. 545-6. illus. 2 diagrs. (s. & f. els.)
T14:1930:
Introduced in 1911, the T14 was the last, and most successful, Drummond
4-6-0 design. Urie removed the firebox water-tubes and extended the smokebox.
From 1930, Maunsell raised the running plates, improved the lubrication system
and fitted his standard superheaters.
REBUILT 4-6-0 engine No. E 460, Southern Ry. Loco. Rly Carr. Wagon Rev.,
1930, 36, 181. illus.
SOUTHERN Railway rebuilt 4-6-0 No. E 460. Rly Mag., 1930,
67,34. illus.
Retrospective and critical
Maxwell, H. Farewell to the "Tl4s". Rly Mag., 1952, 98,
56-7.2 illus.
Webber, A.F. The proportions of
locomotive boilers. J. Instn Loco. Engrs, 1937, 27, 688-725.
(Paper No. 378).
T14 boiler included on a comparative basis.
The diagram (below) was contained in
Jones in an attempt to show the complicated
variations in the Maunsell 2-6-0/2-6-4T types with their variations in driving
wheel diameter and numer (2 or 3) cyclinders. It also shows the locomotives
which were constructed at Woolwich Arsenal following WW1. Since then Rowledge
has published a very thorough and detailed examination of the type including
the locomotives which were supplied to the Metropolitan Railway and to Irish
railways.
Middlemass, TomThe 'Woolworths'
— Woolwich Arsenal tentative entry into main line locomotive building.
Backtrack, 4, 148-54.
2-6-4T and 2-6-0 for SR (N, N1, K, K1, U, U1); 2-6-0 for MGWR/GSR
(K1, K1A); 2-6-4T for Metropolitan Railway (K).
Rowledge, J.W.P.
The Maunsell Moguls. Oakwood, 1976. (Locomotion Papers No. 99).
64pp.
The Maunsell "Moguls" in their earliest form represented the first
real change from the more elegant Victorian and Edwardian aspect of British
locomotives, being a transition from the advanced design achieved by Churchward
at Swindon to the outside-cylinder, outside-valve gear, mixed. traffic locomotive
which became the typical steam locomotive until the demise of steam, and
successfully copied by the LMS, LNER and British Railways; only the GWR remained
an exception. At the time of introduction their appearance was the subject
of much adverse comment, and they were never accorded a proper place in history.
That history is not confined to the railway of origin, the SECR and its
successors, by virtue of the British Government's choice of the type fot
construction by the Woolwich Arsenal after the First World War. Efforts to
sell them were spread over several years and inevitably resulted in a
considerable loss to the British tax payer. Whilst the SR took the greater
number, other sales resulted in the appearance of the type in Ireland and
on the Metropolitan Railway.
N:1917
The N class occupies a significant position in British locomotive
development. It was the first non-GWR design to incorporate most of Churchward's
design features, as exemplified by the coned boiler and long travel valves.
Further, the outside valve gear represented an advance on Churchward's
practice.
In 1919, the Government adopted it as a standard design for post-war
rehabilitation. To reduce unemployment in the munitions factories, one hundred
locomotives were constructed by the Woolwich Arsenal. Whilst most of these
locomotives were bou~it by the Southern, some were purchased by the Metropolitan
Railway and Great Southern Railways. The Southern engines received the soubriquet
"Woolworths" which reflected their place of origin and low price. Holcroft's
Locomotive adventure (both volumes) is an essential reference.
Clayton, J. The lubrication of
a modern locomotive. J. Instn Loco. Engrs., 1922, 12, 473-503.
Disc.: 504-15. (Paper 124)
Clayton shows where aspects of the design came from Swindon (notably
the big end) and shared this with the S&DJR 2-8-0s and had come with
Maunsell from Inchicore. Folding diagrams show the means of lubrication used
on the N class.
1924 : Woolwich Arsenal series.
LOCOMOTIVES built atWoolwich Arsenal. Loco. Rly Carr. Wagon Rev.,
1924, 30, 298. illus.
SALE of Government locomotives. Rly Mag., 1925, 57, 261.
Reply to a question in Parliament (13 July 1925) on the disposal of
the R.O.D. and Woolwich Arsenal locomotives.
1933: left-hand drive.
NEW mixed traffic engines, Southern Railway. Loco. Rly Carr. Wagon Rev.,
1933, 39, 347. illus.
NEW mixed-traffic locomotives, Southern Railway. Rly Mag., 1934,
74, 64. illus.
Experimental alterations
192? : Marshall valve gear.
This gear was applied experimentally to No. 1850.
Elsey,W. Experimental locomotives. 3. S.R. 2-6-0's Nos. 1816, 1629
and 1850. Rly Obsr, 1941, 13, 212-13.
Robertson, Kevin. Leader: the full
story. Stroud: Allan Sutton, 1995. 123pp + 128pp.
Published with Leader and Southern experimental steam (originally
published in 1990): this latter part (pp. 12-13) includes No. 1850, the
locomotive fitted with J.T. Marshall's experimental valve gear..
SOME "improved" locomotive valve gears. Loco. Rly Carr. Wagon Rev.,
1938, 44, 373-6: 1939, 45, 24-6. 10 diagrs.
Includes details of the Marshall valve gear.
1930 : No. A816 was fitted with the H.P.H. Anderson
compression system of condensing apparatus.
The situation on Patents
is covered in the brief biography of H.P.H. Anderson
Developments in boiler feeding. Loco. Rly Carr. Wagon Rev., 1936,
42, 104-5. illus.
Duffy, M.C. Waste heat recovery
and steam locomotive design. Trans. Newcomen Soc., 61. 15-30.
Disc.: 30-1.
Elsey,W. Experimental locomotives. 3. S.R. 2-6-0's Nos. 1816, 1629
and 1850. Rly Obsr, 1941, 13, 212-13.
Holcroft, H. Condensing by compression a locomotive experiment.
Engineer, 1946, 182, 202-3; 227-9; 248-9. 3 illus., 3 diagrs.,
table.
There was further discussion on this topic by H.H. Carr and Oliver
Lyle in Engineer, 1946, 182, 327; 350; 446: 183, 89-91. (item
missed by KPJ see Duffy ibid
Holcroft, H. Locomotive adventure
fifty years with steam. London, Ian Allan, [1962].
See Chapter VII (Pp. 155-73).
Holcroft, H. Southern railway locomotive A816: a great engineering
venture. J. Stephenson Loco. Soc., 1958, 34, 70-87. 12 diagrs.
Holcroft, H. Discussion on Lomonossoff, G.V. and
Lomonossoff, G. Condensing locomotives. Proc. Instn mech. Engrs, 1945,
152, 275-88. Disc.: 289-303.8 illus., 25 diagrs., 4 tables. Bibliog.
Pp. 292-4 : This item of discussion was expanded into the article
in the Engineer.
Retrospective and critical
Hardy, R.H.N. "Balmore", pseud. Locomotive on shed. Trains
Ann., 1956, 58-66.10 illus.
The author was recently appointed shedmaster at Stewarts Lane, and
formerly from the Great Eastern Section, Hardy likened the N class to a much
improved LNER K2.
Bond, R.C. Organisation
and control of locomotive repairs on British Railways. J. lnstn Loco.
Engrs, 1953, 43, 175-216. (Paper No. 520)
Includes mileage/overhaul (average annual mileage: 53,852) statistics
for the class.
Casserley, H.C. End of the Maunsell moguls—the Southern
maids-of-all-work. Rly Wld, 1966, 27, 436-40. 11 illus.
Superficialities receive most of the author's attention.
Clarke, Jeremy. The locomotives of R.E.L. Maunsell. Part 3. The 'Mogul'
family – SECR. Steam Wld,
2008 (248) 38- 41.
Brief mention of the K class 2-6-4T No. 790 (illustrated in original
condition) and questions the reason for this design. Also the emergence of
the N class 2-6-0 No. 810 which shared many components in common with the
2-6-4T. The K1 and N1 three-cylinder variants also mentioned. The initial
locomotives were Nos. 890 and No. 822 and these were fitted with Holcroft's
form of derived motion, but a later batch of five three-cylinder N1 2-6-0s
in 1930 were fitted with three sets of valve gear. The sources of the design
at Derby and Swindon are noted. The N class was used very widely on the Southern,
especially on service in Devon and Cornwall. The illustrations of SECR No.
790, which clearly displays the tail rods which were originally fitted and
No. 822 with this its Holcroft valve gear are excellent, but where are the
photographs working as Southern Railway work horses?
Holcroft, H. Locomotive
adventure: fifty years with steam. London, Ian Allan, [1962]. p.
97.
Considered that the N class should have been fitted with a larger
boiler as class tended to be shy for steam.
Kirkland, R.K. The Woolwich moguls a locomotive family. Trains
ill., 1951, 4, 134-7. 2 illus.
Also includes the Irish and Met. R. purchases.
"Namron", pseud. Uckfield line services. J. Stephenson Loco.
Soc., 1955, 31, 26-7.
A footplateman's criticism of the N class and other
classes.
Reynolds, W.J.
The Maunsell moguls, S.R. Rly Mag., 1943, 89, 155-8; 199-202;
279-82. 17 illus., 3 tables.
Robertson, Kevin. Leader: the full
story. Stroud: Allan Sutton, 1995. 123pp + 128pp.
Published with Leader and Southern experimental steam (originally
published in 1990): this latter part includes a chapter entitled the
Holcroft-Anderson condensing turbine engine No. A816 (pp. 22-33). The chapter
title is inaccurate: the turbine was used solely as a secondary drive:
to drive the fan within the smokebox. Holcroft's Locomotive adventure
is a much better source...
N1: 1922 :
The original N1 locomotive incorporated three cylinders and Holcroft's
derived motion for the inside cylinder. Later locomotives were built with
three separate sets of Walschaerts gear. All contemporary references are
to the original locomotive.
NEW three-cylinder 2-6-0 type locomotives for the Southern Railway (South
Eastern & Chatham Section). Rly Engr. 1923, 44, 140-3 +
folding plate. illus., 3 diagrs., plan, table.
Includes sectionalized working diagrams.
Southern Railway (S.E. & C. Section) : new three-cylinder superheater
locomotive, 2-6-0 type. J. Instn Loco. Engrs, 1923, 13, 2-6.
illus., diagr. (s. el.)
Southern Railway—three cylinder simple, superheater locomotive.
Engineer, 1923, 135,200-1. illus,2 diagrs. (incl.s. &
f.els.)
THREE-CYLINDER "Mogul" locomotive, Southern Railway (S.E. & C.R. Section).
Loco. Rly Carr. Wagon Rev., 1923, 29, 61-4. illus., 5 diagrs.
(incl. s. & f/r els.), plan, 2 tables.
THREE-CYLINDER 2-6-0 locomotive for the Southern Railway (South Eastern and
Chatham Section). Rly Mag., 1923, 52, 310-11 + folding plate
f.p. 263. illus., diagr.
Retrospective and critical
Baxter, F.L. Balancing of three-cylinder locomotives. Engineer,
1935, 160, 84-6. 5 diagrs., 8 tables.
The N1 is considered on a comparative basis.
Casserley, H.C. End of the Maunsell moguls—the Southern
maids-of-all-work. Rly WId. 1966, 27, 436-40. 11 illus.
Clayton, J. Discussion on Gresley, H.N.
The three-cylinder high-pressure locomotive. Proc. Instn mech. Engrs,
1925,(2), 927-67. Disc. 968-86. 9 illus., 15 diagrs., 6 tables.
Pp. 968-70. Clayton gave details of the satisfactory performance of
No. A822 in service, but states his preference for three independent sets
of valve gear. This may explain the change from conjugated gears, on the
S.R. Clayton was critical of the irregularity of the derived
motion.
CONJUGATED valve gears. Loco. Rly Carr. Wagon Rev., 1949, 55,
41-2. 5 diagrs.
Considers the Holcroft and Gresley versions.
Holcroft, H. Conjugated valve gears for locomotives : their history
and development. Engineer, 1946, 181,145-7; 68-70; 192-3. 21
diagrs.
Includes the application to the N1 locomotive.
Reynolds, W.J. The Maunsell moguls, S.R. Rly Mag., 1943,
89, 155-8; 199-202; 279-82. 17 illus., 3 tables.
U and U1
These designs differed from the N and N1classes in having larger (6
ft 0 in) driving wheels. The U design pre-dated the Sevenoaks accident (see
K class), but after this the K class was rebuilt as 2-6-0s. The rebuilt K1
locomotive formed the prototype for the Ul class.
U: 1928 two-cylinder design.
New passenger locomotives—Southern Ry. Loco. Rly Carr. Wagon Rev.,
1929, 35, 104-5. illus., diagr. (s. & f/r. els.)
New Southern Railway locomotives. Rly Mag., 1929, 64, 350-2
+ plate f.p. 337. 2 illus., 2 diagrs. (s. els.)
Experimental alteration
1930 Experimental equipment of No. A629 with A.E.G. pulverized fuel apparatus.
Elsey,W. Experimental locomotives. 3. S.R. 2-6-0's Nos. 1816, 1629
and 1850. Rly Obsr, 1941, 13, 212-13.
Holcroft, H. discussion on page 841 Cocks, C.S.
History of Southern Railway locomotives to 1938.
J. Instn Loco. Engrs., 1948, 38, 749-822. Disc.: 823-60.(Paper
No. 481)
Gave a brief account of the experiment: KPJ suspects that the second
volume of Locomotive adventure gives fuller (and more colourful)
account.
Maunsell, R.E.L. Discussion on
Armstrong,
J.C. Pulverized fuel locomotives. J. Instn Loco. Engrs,
1929, 19, 53-90. Disc. 86-114; 492-9:1930, 20, 146-55; 325-34
(Paper No. 239).
Pp.86-90 (19) : Maunsell adds some notes on the purchase of A.E.G.
equipment for the S.R. : the paper is basically about the German results
from the system.
Robertson, Kevin. Leader: the full
story. Stroud: Allan Sutton, 1995. 123pp + 128pp.
Published with Leader and Southern experimental steam (originally
published in 1990): this latter part (pp. 41-4) includes an account of the
experiment. Photographs show the fuelling plant at Easboirne (the experiment
terminated when this exploded) and a photograph of the locomotive working
the 09.30 Eastbourne to Victoria express.
Ul:
The contemporary references noted are to the 1931 locomotives
built with three sets of Walschaerts valve gear.
NEW three-cylinder 2-6-0 type locomotive, Southern Railway. Rly Mag.,
1931, 68, 362. illus.
NEW three-cylinder 2-6-0 type locomotives, Southern Railway. Rly Engr, 1931,
52, 152. illus., 2 diagrs. (s. & f/r. els.)
THREE-CYLINDER passenger engines, Southern Ry. Loco. Rly Carr. Wagon
Rev., 1931, 37, 109-10. illus. 2 diagrs. (s. & f/r. els.)
Retrospective and critical
Bond, R.C. Organisation
and control of locomotive repairs on British Railways. J. lnstn Loco.
Engrs, 1953, 43, 175-216. (Paper No. 520)
Includes mileage/overhaul statistics (68,941 average annual) for the
class for the U class only.
Casserley, H.C. End of the Maunsell moguls—the Southern
maids-of-all-work. Rly Wld, 1966, 27, 436-40. 11 illus.
Superficialities receive most of the author's attention.
Clarke, Jeremy. The locomotives of R.E.L. Maunsell. Part 4. The 'Mogul'
family – SR. Steam Wld,
2008 (249) 53-6..
As is usual with descriptions of this species nothing is simple: 75%
of the illus. are of 2-6-4Ts, and the only 2-6-0 illustrated is a former
River class U No. 31798 at Ash Junction on 7 September 1949. The remaining
photographs are of K1 No. A890 River Frome at Bricklayers Arms in
July 1927; W class No. 1914 at Battersea on 21 April 1932 and A class No.
A797 River Mole near Merstham on Victoria to Eastbourne train on 27
August 1926. A table partly assists to show the origins of the 6ft driving
wheel Moguls and the 5ft 6in W class freight only 2-6-4Ts which absorbed
some of the off-cuts. The 2-6-0s were both two and three-cylinder types:
the W class were wholly three-cylinder.
See also letter from Bill Southgate
(251 p. 21) who corrects the assertion that the U class Nos. A610-29
were ordered as
2-6-0s.
Johansen, F.C. Wind tunnel experiments [in:] Holcroft, H. Smoke
deflection for locomotives. J. Instn Loco. Engrs, 1941, 31,
462-89. Disc. : 490-509 + 3 folding plates. 31 illus., 8 diagrs. (Paper No.
430).
Pp. 473.84 An abstract of a National Physical Laboratory report on smoke
deflection experiments on mdoels of the U and V classes.
"Namron", pseud. Uckfield line services. J. Stephenson Loco.
Soc., 1955, 31, 26-7.
A footplateman's criticism of the N class and other
classes.
Reynolds, W.J.
The Maunsell moguls, S.R. Rly Mag., 1943, 89, 155-8; 199-202;
279-82. 17 illus., 3 tables.
0-6-0
Q: 1938 :
This was Maunsell's final design and was a straightforward, but modern
0-6-0 freight locomotive.
NEW freight engines, Southern Railway. Loco. Rly Carr. Wagon Rev.,
1938, 44, 58. illus., diagr. (s. & f. els.)
NEW 0-6-0 goods engines for the Southern Railway. Rly Mag., 1938,
82, 227. illus.
NEW 0-6-0 type freight engines, Southern Railway. Rly Gaz., 1938,
68, 219. illus., diagr. (s. el.)
Retrospective
Clarke, Jeremy. The locomotives of R.E.L. Maunsell. Part 8: Shunt
and trip. Steam Wld, 2008
(253), 36-9.
Z class three-cylinder 0-8-0T and Q class 0-6-0. Illus. include excellent
view of Q class No. 534 as new at Eastleigh in 1938 which clearly shows the
steam reverser. Also Q class No. 30543 as pilot to WC 34043 Coombe
Martin approaching Radipole Halt on climb from Weymouth to
Dorchester.
4-4-0
E1 and D1 rebuilds:
1919-20 (E1) and 1921-7 (D1)
There is a strong tradition that these were superb locomotives: certainly
Nock and Cox
(Locomotive panorama Vol. 1 p. 67) give this impression, but they
receive only passing reference in Cocks' paper. although
T.E. Chrims in the discussion (pp. 832-3)
noted that "these locomotives did splendid work". Burtt
gives the technical information (some were rebuilt at Ashford and some
at Beyer Peacock). They were rebuilds of Wainwright's E and D classes. The
main alterations were superheating, 10 inch piston valves and a new firebox
with a grate area of 24ft2. They were fast and were capable of
hauling heavy boat trains over the difficult former LCDR lines.
Clarke, Jeremy. The locomotives of R.E.L. Maunsell. Part 2. The SECR
4-4-0s. Steam Wld, 2008
(247), 48-52.
Interesting in that earlier writers have given the impression that
A.D. Jones, the Outdoor Superintendent and Maunsell were appointed at the
same time, whereas Clarke states that Jones was appointed in April 1913 and
assisted with Wainwright's removal prior to Maunsell's arrival in September
1913. Maunsell found that the design of the L class had reached an advanced
stage under Wainwright and Robert Surtees, but sent the drawings to W. Joynt
at Inchicore for his observations before construction by Beyer Peacock and
Borsig commenced. The rebuilding of the E class 4-4-0 No. 179 with 10 inch
piston valves and greatly improved boiler is regarded as a masterpiece, and
this led to ten further E class locomotives being converted to the E1 type
at Beyer Peacock in 1921 and twent D class being converted at Beyer Peacock
or Ashford into the slightly less puisant D1 class.
V (Schools class): 1930:
The Schools class marked a departure from the normal British
standards in 4-4-0 design, in that the leading dimensions were akin to 4-6-0
practice. The tractive effort (25,130 lbf), total heating surface (2049
ft2) and grate area (28.3 ft2) were comparable with
most 4-6-0 designs of intermediate capacity. Performance in service was equal
to, or rather better than, that of the King Arthur class. The remarks
made by Holcroft in his 1918 paper on three-cylinder loocomotives
are especially interesting where he stated that three-cylinder 4-4-0s would
be able to perform the work handled by two-cylinder 4-6-0s.
Holcroft's extensive contribution to Cocks' paper is
highly relevant. Bulleid fitted a
mock-up streamlining to one locomotive.
4-4-0 type "V" class passenger locomotive for the Southern Railway.
Engineering, 1930, 129, 408; 412. illus., diagr. (s. &
f. els.)
NEW express locomotives, Southern Railway. Rly Engr. 1930, 51,
176-8. illus., diagrs. (incl.. s. el.), plan.
Includes detailed sectionalized working drawings.
NEW 4-4--0 locomotives ("Schools" class). Southern Railway. Rly Mag.,
1930, 66, 359 + plate f.p. 337. illus.
NEW 4-4-0 type locomotives, Southern Railway. J. Instn Loco. Engrs,
1930, 20, 137-40. illus., diagr. (s. & f. els.)
SOUTHERN Ry., new 4-4-0 express locomotives. Loco. Rly Carr. Wagon Rev.,
1930, 36, 109-10. illus., diagr. (s. el.)
Retrospective and critical
Bond, R.C. Organisation
and control of locomotive repairs on British Railways. J. lnstn Loco.
Engrs, 1953, 43, 175-216. (Paper No. 520)
Includes mileage/overhaul statistics (69,851 average annual) for the
class.
Holcroft, H. Locomotive
adventure fifty years with steam. London, Ian Allan, [1962].
Pp 152-3: There was some trouble from slipping at first; the V class
had hand sanding, using dried sand, which was liable to become exhausted
during a trip when rails were generally greasy. Steam sanding to all four
wheels was substituted and the trouble ceased. The greatly reduced outflow
of sand enabled sanding periods to be prolonged. For instance, it could be
applied while passing over the two miles of normally greasy rails of the
up road in Sevenoaks Tunnel, rising at 1 in 144. This put the class 'properly
on its feet'.
Steam leaks occurred at the pipe joints between cylinders, and a special
design of flexible copper joint had to be used to cure the trouble. When
the class had been running for some time, fractures began to occur in the
bogie frames. The bogie was the same as that on the 'Nelson' but carried
3½ tons more weight. New frames of greater depth were substituted; and
with that, the 'teething troubles' of the V class were over.
The performance of the class in traffic was outstanding, and these engines
became the highlight of the Maunsell regime. Thirty more were built during
1932-35, the only alteration being to raise the side w,indows a little and
enlarge the openings in the cab sides to give more head room. The 'Schools'
were to be found in services to and from London and Folkestone, Kent Coast,
Hastings via Tonbridge, Portsmouth via Guildford and Bournemouth, and at
times on certain cross-country routes.
Holcroft, H. (Paper No. 65)
Three-cylinder locomotives. J. Instn Loco. Engrs., 1918, 8.
355-68. Disc.: 368-95; 476-91.
Argued that a three-cylinder 4-4-4T could take the place of a two-cylinder
4-6-2T or 2-6-4T. This idea was pursued still further in the paper, and in
the discussion, where it was considered that three-cylinder 4-4-0s
would be able to perform the work normally allocated to 2-cylinder
4-6-0s: these remarks may be regarded as the genesis for the Schools class.
Holcroft, H. discussion
on Cox, E.S. and F.C. Johansen Locomotive frames. J. Instn
Loco. Engrs, 1948, 38, 81-196.
Pp. 134-8.: Details of trouble experienced with the V
class.
Johansen, F.C. Wind tunnel
experiments in Holcroft, H. Smoke deflectors for locomotives.
J. lnstn Loco. Engrs, 1941, 31, 462-509. (Paper No. 430).
Pp. 473-84 (17 illus.) : An abstract of a National Physical Laboratory
report on experiments with models of the U and V classes: mainly the latter.
Mercury, pseud. Salute to the "Schools" 4-4-0s of the Southern.
Rly Wld, 1963, 24, 164-71. 14 illus., 2 tables.
A fairly detailed history.
Riemsdijk, J.T. van. Compound
locomotives: an International survey. 1994. 140pp.
Written mainly about Midland compounds, but added that the maximum
sustained power outputs achieved by the Midland Compounds, Southern
Schools, LNWR George V and LNER
Shire (D49) 4-4-0s were all much the same,
but the Midland and LNER types were rarely required to produce such
outputs.
Swift, Peter. Locomotives
in detail. 6. Maunsell 4-4-0 Schools class. London: Ian Allan. 2006.
96 pp.
Aimed at the modeller: thus rather superficial in both senses. Some
of the illustrations are very small, and not well reproduced: some are very
redolent of the Publisher's ABC series. On the other hand some of the superficial
detail is impressive: at the bottom of page 47 there is an illustration of
No. 926 Repton with its tender adorned with a British Railways totem of the
sort associated with platform signs. Extensive use has been made of Colour
Rail material. One suspects, having seen the same Author's excellent work
in Railway Archive that the limitations must be placed firmly on the
shoulders of the publisher. Mel
Holley (Steam Wld, 2007 (238) 66) comments: "this volume is not
as poor as some in the series" "Yet again this series fails to live up to
what it promises tthe reader".
Townroe, S.C. 'Arthurs', 'Nelsons' & 'Schools' at
work. London: Ian Allan, 1973/1983. 144pp. Bibliography.
Blurb stated that Stephen Townroe assisted in the construction of
the Schools class.
Townroe, S.C. The book of
the "Schools" class. 1947.
A short history. Location : British Museum.
Webber, A.F. The proportions of
locomotive boilers. J. Instn Loco. Engrs, 1937, 27, 688-763..
(Paper No. 378).
Analysis of the boiler design on a comparative basis.
Weight, R.A.H. Silver Jubilee of the Southern "Schools"- Trains
ill., 1955, 8, 374-6. 3 illus.
The workings of the class in 1955, rather than history.
Winding, P. Maunsell triumvirate. Rly Mag., 1963, 109,
566-74. 10 illus., 3 tables. Bibliog.
An appreciation which also considers the N 15 and LN
classes.
Winkworth, D.W. The Schools
4-4-0s. London: Allen & Unwin, 1982. 112pp.
Very thorough monograph: notes experiments on draughting; two illus.
of wooden mock-up for streamlining; illus. of "30,903" (note comma) and other
painting variants; much performance.
Burtt, G.F., photographer. S.R. No.923 with original nameplates
(as built in Dec. 33). (Renamed Bradfield in August 1934). J.
Stephenson Loco. Soc., 1949, 25, plate 8 f.p. 249.
Formerly Uppingham
4-4-0: Modifications to pre-grouping designs
South Eastern & Chatham Railway
L1:1926 : The L1 design was based on Wainwright's L class, which had been introduced in 1914. Maunsell modified the valve arrangement to correspond the D and E class rebuilds. The boilers were adapted from the Wainwright design, hence the classification: L1.
NEW 4-4-0 locomotive, Southern Railway. Rly Engr, 1926, 47,
186. illus. diagr. (s. el.)
NEW 4-4-0 locomotives, Southern Railway. Rly Mag., 1926,58,
381 + plate f.p. 337. illus.
SOUTHERN Railway : new 4-4-0 type engines. J. Instn Loco. Engrs, 1926,
16, 226-8. illus.
full list of leading dimensions: notes that fitted with Maunsell
superheater
SOUTHERN Railway : new 4-4-0 type engines. Loco. Rly Carr. Wagon Rev.
1926, 32, 106. illus.
Retrospective
Atkins, Philip.The James Clayton
influence. Railways South East, 1988/89, 1, 122-9.
Traces Clayton's influence on
MR and SECR/SR, and also shows that designs developed on MR for 2-6-2T for
LTS Section were developed into 2-6-4Ts on SECR and on LMS. One extremely
revealing comparison pairs photographs of West Country Pacifics piloted by
40562 (on S&D passing Masbury) and L1 on Night Ferry (near Faversham).
The article inter alia contains further Clayton influences through
J.H. Adams and
Hookham. Whilst at Derby Clayton not
only worked on the Paget locomotive but also input into the S&D 2-8-0
and Lickey 0-10-0 designs. Atkins argues that the Ashford taper boiler did
not come from Swindon with Holcroft but from Derby. The similarities of the
E1 and D1 with the MR 2P, and the L1/Q with their Derby counterparts (2P/4F)
are also noted. The LN and Royal Scot classes shared the boiler flanging
plates used by NBL
Clarke, Jeremy. The locomotives of R.E.L. Maunsell. Part 2.
The SECR 4-4-0s. Steam Wld,
2008 (247), 48-52.
Interesting in that earlier writers have given the impression that
A.D. Jones, the Outdoor Superintendent and Maunsell were appointed at the
same time, whereas Clarke states that Jones was appointed in April 1913 and
assisted with Wainwright's removal prior to Maunsell's arrival in September
1913. Maunsell found that the design of the L class had reached an advanced
stage under Wainwright and Robert Surtees, but sent the drawings to W. Joynt
at Inchicore for his observations before construction by Beyer Peacock and
Borsig commenced. The rebuilding of the E class 4-4-0 No. 179 with 10 inch
piston valves and greatly improved boiler is regarded as a masterpiece, and
this led to ten further E class locomotives being converted to the E1 type
at Beyer Peacock in 1921 and twent D class being converted at Beyer Peacock
or Ashford into the slightly less puisant D1 class. The L1 design was based
upon the L class, but with some of the improvements worked into the E1 class,
but as finalised by the North British Locomotive Co. (NBL)..
Grayer, Jeffery. Twilight
of the [Southern Region] 'L1s'. Steam Wld, 2007, (235) 24-8.
Largely displaced by Phase 1 of the Kent Coast electrification in
1959 some were transferred to Nine Elms and used to a limited extent on Waterloo
to Basingstoke trains; and some worked on the Reading to Redhill and Redhill
to Tonbridge services. The South Eastern Limited double-headed by
L1 No. 31786 and D1 31749 is seen passing Falconwood (not on Dartford
Loop as stated, but on Bexleyheath line) on 11 June 1961 (Derek Cross:
b&w).
What is that vertical smokebox
pipe on a Maunsell 'L1' class 4-4-0? John Jones. Steam Wld, 2007,
(237) 20.
Reply with illustration from R.H.N. Hardy: pipe carried exhaust steam
from blast pipe to exhaust steam injector. At time photograph taken of No.
31754 exhaust steam injector was probably still capable of working. .
Tank engines
0-8-0T
Z: 1929 :
The Z class was introduced for heavy shunting duties. A three.cyIinder
arrangement was adopted to avoid slipping and noise.
[CLASS Z 0-8-OT, S. Rly. J. lnstn Loco. Engrs, 1929, 19, 4-7.
illus., diagr. (s.&f.els.)
LOCOMOTIVES for shunting, Southern Ry.. Loco. Rly Carr. Wagon Rev.,
1929, 35, 103-4.
NEW Southern Railway locomotives. Rly Mag., 1929, 64, 350-2
+ plate f.p. 337. 2 illus., 2 diagrs. s. els.)
THREE-CYLINDER shunting engine, Southern Ry., Loco. Rly Carr. Wagon
Rev., 1930, 36, 404 + folding plate. 3 diagrs.
Includes sectionalized diagrams.
Clarke, Jeremy. The locomotives of R.E.L. Maunsell. Part 8: Shunt
and trip. Steam Wld, 2008
(253), 36-9.
Z class three-cylinder 0-8-0T and Q class 0-6-0. Illus. two good views
of Z class: No. A950 on 9 June 1929 (O.J. Morris) and No. 951 taken in late
1930s.
Z class acting as banking engine at Exeter St Davids: Summer 1960
(KPJ)
 |
2-6-4T:
Maunsell designed the K class for express duties. The first locomotive
was built in 1917, but the main batch of 19 was not introduced until 1925.
In addition, one three-cylinder (class K1) locomotive was built. In 1927,
two engines were derailed and the class was withdrawn from service. Subsequently,
they were rebuilt into the U and Ul 2-6-0 classes .
Certain spare parts from the tank engines were incorporated into a freight
tank engine version of the N1 class; the W class.
K (River class): 1925 batch;
SOUTHERN Ry.: new 2-6-4 passenger tank engines. Loco. Rly Carr. Wagon
Rev., 1925, 31, 238. illus.
K1 :1925 three-cylinder variant.
NEW three-cylinder 2-6-4 tank engine for the Southern Railway. Rly Mag.,
1926, 58, 122-4. illus.
SOUTHERN Railway: new three-cylinder passenger tank locomotive. J. Instn
Loco. Engrs, 1926, 16, 2-3. illus.
leading dimensions listed, including weights on Bissel truck and
bogie
SOUTHERN Railway : three-cylinder tank locomotive. Loco. Rly Carr. Wagon
Rev., 1926, 32, 1-2. illus., diagr. (s. & fr. els.)
Retrospective and critical :
With the exception of the first two references, all are connected
with the accidents at Bearsted and Sevenoaks.
Bradley, D.L. The 'River' tanks. Br.
Rly J., 1986, 2, 122-5.
Bradley considers that one influence was probably J. Clayton's involvement
in the proposed Midland Railway 2-6-4T design for the Tilbury and Southend
services, but a major influence was the LBSCR Baltic tanks and G.H. Pearson
was sent to evluate their performance.
Clarke, Jeremy. The locomotives of R.E.L. Maunsell. Part 4. The 'Mogul'
family – SR. Steam Wld,
2008 (249) 53-6..
As is usual with descriptions of this species nothing is simple: 75%
of the illus. are of 2-6-4Ts, and the only 2-6-0 illustrated is a former
River class U No. 31798 at Ash Junction on 7 September 1949. The remaining
photographs are of K1 No. A890 River Frome at Bricklayers Arms in
July 1927; W class No. 1914 at Battersea on 21 April 1932 and A class No.
A797 River Mole near Merstham on Victoria to Eastbourne train on 27
August 1926. A table partly assists to show the origins of the 6ft driving
wheel Moguls and the 5ft 6in W class freight only 2-6-4Ts which absorbed
some of the off-cuts. The 2-6-0s were both two and three-cylinder types:
the W class were wholly three-cylinder.
See also letter from Bill Southgate
(251 p. 21) who corrects the assertion that the U class Nos. A610-29
were ordered as
2-6-0s.
Conjugated valve gears. Loco. Rly Carr. Wagon Rev.,
1949, 55, 41-2. 5 diagrs.
Describes the Holcroft gear which was fitted to the K1
locomotive.
Fryer, Charles. The rolling Rivers:
the saga of Maunsell's 2-6-4 express tank locomotives. 1993.
56pp.
Ottley 18895: not seen, but recommended by Steamindex user
Holcroft, H. Conjugated valve gears for locomotives: their history
and development. Engineer, 1946, 181, 145-7; 168-70; 192-3.
21 diagrs.
Including the K1 application.
Marshall, C.F.D. Some lessons of the Sevenoaks accident. Rly Engr,
1928, 49, 139-40.
a discussion on the rolling periods of engines and their train at
speed, in relation to track stresses and resistance problems".
Mount, A.H.L. Report on the derailment of a
passenger train which occurred on the 20th August, 1927, between Bearsted
and Hollingborne. Ministry of Transport : Railway accidents ... which
occurred during the three months ending 30th September, 1927. London: HMSO,
1928. 22 p.
In this accident to the K1 locomotive the track was mainly at fault,
but the springing of the locomotive was criticised.
Pringle, J.W. Report on the derailment of a
passenger train, which occurred on the 24th August, 1927, near Sevenoaks,
on the Southern Railway. Ministry of Transport : Railway accidents
[monograph]. London, H.M.S.O., 1928. 38 p. 5 diagrs., (incl. s. & f/r.
els)., 6 tables, plan.
This accident to a K class locomotive was caused by poor track, weak
spring design and oscillation due to water surging in the tanks. An appendix,
signed by H.N. Gresley gives the results of exhaustive riding tests carried
out on the Great Northern main-line at a variety of speeds.
Sanders, T.H. The influence of springs in locomotive derailments.
Rly Engr. 1931, 52, 209-13. 5 diagrs.
Four un-named accidents are discussed in detail : the 2-6-4T design
is quite clearly the K class.
Sanders, T.H. (Paper No. 271).
Locomotive suspension, and its influence on derailments. J. Instn Loco.
Engrs, 1931, 21, 133-55.
Very similar to the other Sanders reference.
SOME recent derailments. Rly Engr, 1928, 49, 435.
The SOUTHERN Railway derailments. Rly Engr, 1928, 49, 83.
TANK engines and the track. Engineer, 1928, 146, 320.
All of the last three references consist of editorial comments.
W:1931 :
These locomotives were practically identical with the three-cylinder
Goods Tender engines Class N1 with the addition of side tanks, bunker and
a trailing bogie. They were intended mainly for the heavy goods trafiic in
the Metropolitan area and other short distance goods workings elsewhere.
The engines were fitted with a powerful and graduated steam brake, working
in conjunction wwith the vacuum brake on the train when required, the brake
blocks being applied to all wheels except the leading pony truck. From J.
Instn Loco Engrs (below). They appear to have been banned from passenger
work, hence there is a large literature on alleged breaches of the ban.
NEW goods tank locomotive, Southern Railway. Rly Mag., 1932,
70, 152. illus.
NEW goods tank locomotives, class "W" on the Southern Railway.
J. Instn Loco. Engrs, 1932, 22,
155-6. illus., diagr. (s. & f. els.)
NEW goods tank locomotives, Southern Railway., Rly Engr, 1932,
53, 62. illus., diagr. (s. & fr. els.)
SOUTHERN Railway new goods tank locomotives. Engineer, 1932,
153, 210. illus.
SOUTHERN Ry.-new 2-6-4 goods tank locomotives, class "W". Loco. Rly Carr.
Wagon Rev., 1932, 38, 39-40. illus., 2 diagrs. (s. & fr. els.)
Retrospective and critical
Ball, J.D.W. Equivalent distributed loads for recent locomotives.
Rly Engr., 1932, 53, 399-401. 4 diagrs., 2 tables.
Three designs were considered, namely the booster equipped 4-4-2s
and 0-8-4Ts of the LNER and the W class
Bradley, D.L. The 'River' tanks. Br.
Rly J., 1986, 2, 122-5.
Notes that W class was tested on passenger trains, but was found to
be rough between Headcorn and Paddock Wood and experienced severe pitching
when descending Oxted bank.
2-6-2T
Lynton & Barnstaple line 2-6-2T No. 188 Lew:1925
This Manning, Wardle locomotive is of interest in being one of three
narrow gauge locomotives to be built by, or for, the four main-line companies
in Great Britain. The engine was a slightly modified version of the type
built for the opening of the railway.
SIDE tank locomotive for the Lynton and Barnstaple Section of the Southern
Ry. Loco. Rly Carr. Wagon Rev., 1925, 31, 303. illus.
Retrospective and critical
Brown, G.A., Prideoux , J.D.C.A and
Radcliffe, H.G. The Lynton and Barnstaple Railway. 1964.
Catchpole, L.T. The Lynton
& Barnstaple Railway. 1949. (Oakwood library of railway history,
No. 51).
First published in 1936.
0-6-2T
E1/R:1927
In 1927 there was a need for some 0-6-2Ts with an axle loading
of less than sixteen tons for service in the West Country. This need was
met by rebuilding some redundant El 0-6-0Ts (a
Stroudley design of 1874) with radial trailing axles and enlarged
bunkers.
Rebuilt tank locomotive, Southern Ry. Loco. Rly Carr. Wagon Rev.,
1927, 33, 210-11. illus., diagr. (s. & f. els.)
Retrospective and critical
Riley, R.C. Stroudley tank engines in the West Country. Rly Wld,
1960, 21, 274-8. 9 illus.
Southern Railway tank engines, class E.1R (with notes on the E.1 class).
J. Stephenson Loco. Soc., 1951, 27, 264-5; 283. illus.
0-6-0T
R1: 1925 .
This class was introduced by J. Stirling in 1888. Originally it was
fitted with domeless boilers. Most locomotives had been modified with the
domed type, but a few of the original design were required for working through
a tunnel of restricted dimensions on the Canterbury & Whitstable line.
From 1925, these locomotives were fitted with boilers which incorporated
very squat domes.
REBUILT 0-6-0 tank engines, Southern Railway (South Eastern & Chatham
Section). Loco. Rly Carr. Wagon Rev., 1925, 31, 311-12. 2 illus.,
diagr. (s. & fir. els.)
I1X:1925 .
The I1 class was introduced by D.E. Marsh in 1906. Maunsell continued
L.B. Billinton's policy of re-boilering the Marsh 4-4-2Ts.
REBUILT 4-4-2 tank engine No. B 596, Southern Railway. Loco. Rly Carr.
Wagon Rev., 1925, 31, 306. illus.
I3: .
This Marsh design was altered in several ways by Maunsell. New cylinders
and superheaters were fitted and the boiler mountings and cabs were cut-down
to meet the composite loading gauge.
Riley, R.C. The Marsh 13 tank locomotives. Rly Mag.,1953,
99,156-7.5 illus.
0-4-4T
O2: .
The Southern Railway decided to standardize the locomotive stock in
the Isle of Wight with three classes, namely 02, El and Al (Terriers).
In 1932 the O2 class locomotives on the island were fitted with extended
bunkers, and in this form operated most passenger services until the end
of 1966.
DEVELOPMENTS in the railways of the Isle of Wight. Loco. Rly Carr. Wagon
Rev., 1932, 38, 21-5.7 illus., table.
SOUTHERN Railway tank locomotive for the Isle of Wight. Loco. Rly Carr.
Wagon Rev., 1923, 29, 190. illus.
Retrospective and critical
Allen, P.C. and MacLeod, A.B. Rails in the Isle of Wight.
London, Allen & Unwin, 1967.68 p. + col. front. + 61 plates
(incl. 1 col.). 136 illus., diagr., 2 tables, map.
Allen, P.C. Recent railway developments in the Isle of Wight. Rly
Mag., 1932, 71, 157-65.12 illus., 3 tables, map.
The replacement of older locomotives by the O2s.
Robbins, M. The Isle
of Wight Railways. 1953. (Oakwood library of railway history No.54).
Woodnutt, G.C. The railways of the Isle of Wight. Rly Obsr,
1936, 8, 3-7; 28-32; 57-62; 207-9. 3 illus., 3 tables.
2-4-0WT
0298: 1931:
This Joseph Beattie design was introduced in 1874, but the survivors
were rebuilt in 1884, 1921 and 1931. The last two reconstructions were necessary
as the locomotives formed the only suitable motive power for a mineral line
near Wadebridge in Cornwall.
Ellis, [C.] H. The Beattie 2-4-0 tanks. Trains ill., 1956,
9, 483-6. 5 illus., table.
0-4-2T
Dl: 1931:
The Lyme Regis branch was difficult to work. It had steep gradients,
sharp curves and a severe axle-load limit. For most of its life it was worked
by the Adams class 0415 4-4-2Ts. In 1931, four Stroudley Dl 0-4-2Ts
were modified for service on the branch, but were not successful. The
modifications included reduced coal and water capacity to lessen
weight.
ALTERED 0-4-2 tank engines, Southern Ry. Loco. Rly Carr. Wagon Rev.,
1931, 37, 267. illus.
ONE of a well-known class in a new form. Rly Mag., 1931, 68,
443. ihlus.
Retrospective and critical
Riley, R.C. Stroudley tank engines in the West Country. Rly Wld, 1960, 21, 274-8. 9 illus.
Unfulfilled projects:
These are fully covered in the paper by
C.S. Cocks and in
Holcroft's books
Allen. C.J. Engines that were never built. Trains Ann., 1955,
59-70. 14 diagrs. (s. el.)
Atkins, Philip. The fruitless quest.
Rlys South East, 3, 62-7.
The frustrating period of steam locomotive design on the Southern
during Maunsell's tenure when William Glynn Hooley, Leading Locomotive
Draughtsman, drew up plans for many projects which remained unfulfilled including
an initial design for the Schools class, with taper boiler, various
designs for 2-6-2 (post the Sevenoaks accident these were doomed to failure)
and 4-6-2, and for several variants based on the Lord Nelson class,
including a compound version. See
letter by E.S. Youldon on page 177 concerning outside admission piston
valves and on experimental LN boiler which latterly was equipped with at
least one thermic syphon.
Hill, J., illus. Express engines that might have been. Trains
Ann., 1958, 22-3. 3 illus.
An artist's impression of the Maunsell 4-6-2 design.
Locomotive in detail
Standardization:
The locomotives acquired from the L.B. & S.C.R. were mostly
out-of-gauge on the other sections of the S.R. The S.R. gradually modified
these locomotives for more extensive service.
Morris, O.J. Standardizing Southern Railway locos., Central Section.
Loco. Rly Carr.Wagon Rev., 1937, 43, 42-5; 82-3, 291-2; 355-9:
1938, 44, 26-9; 77-9; 225-8; 279-80: 1939, 45, 344-7: 1940,
46, 93-4; 181-3: 1941, 47,16-19; 157-60; 229-31: 1942,
48,122-5: 1943, 49, 7-9: 1945, 51, 2-4; 40-2; 68-71;
120-4; 148-51: 1947, 53,155-8: 1948, 54, 21-4; 70-3; 107-9:
1949, 55, 183-6: 1950, 56, 12-14; 22-5. 67 iIlus, 16 diagrs.
(incl. 5 s. els.) 10 tables, plan.
STANDARDIZING Central Section locos., Southern Rly. Loco. Rly Carr. Wagon
Rev., 1936, 42, 279-80. 4 illus.
2008-09-28