Hughes' first design proposal in September 1913 put forward a number of principles. None of these were radical, but they represented the best features of British locomotive design at the time, together with Flamme's influence. Although Horwich would later be overshadowed by
Stanier's work during the LMS period, at this time they considered themselves to be one of the leading British locomotive designers. •
Superheating, a developing practice at the time, which Hughes had experience of with smaller classes, although the valve and lubrication problems were still an issue. The use of
piston valves was a response to this, their
piston ring sealing working better at these increased steam temperatures than the flat faces of
slide valves had done. • Large grate area, and large boiler. : A large grate allowed a shallow fire, capable of burning the hard local coal. The large boiler surface avoided the need to 'force' the boiler, and the excess coal consumption that entailed. • Improved cylinder design and porting, with improved valve gear : The importance of this was increasingly recognised at this time, by those engineers such as Hughes and
George Jackson Churchward, who were following developments in continental best practice. Churchward's
Star class and its combination of superheating with long-travel, large-diameter piston valves represented the best front-end performance yet achieved in Britain. : The
Walschaerts valve gear was another Belgian influence and was a change from the previous
Stephenson or
Joy valve gears used previously. With the 4-6-0
Dreadnoughts of 1908, Hughes' reputation as an engineer and innovator had suffered and these locomotives would later be improved by rebuilding, part of which was to change their Joy valve gear to Walschaerts. • Four cylinder simple, rather than
compound. : Although he had experimented with compounding, Hughes chose to use four simple cylinders here. These gave better balance and also permitted just two sets of outside valve gear, with the inside valves being operated by rockers. This freed up more space between the frames, allowing for a stronger crank axle, connecting rods and big ends. • Despite this being the era for the adoption of the (also Belgian)
Belpaire firebox, which Hughes had introduced on his other designs and rebuilding work, Flamme now considered it 'obsolete'. Flamme's new design was for a round-topped firebox of the maximum possible size, and with radial firebox stays rather than the older and troublesome girder stays. The tapered rear ring of the boiler allowed the highest firebox to be used with a practical diameter of boiler, even though the British loading gauge meant that there could be no
dome. • Flexible wheelbase : The new layout and the length of the wheelbase were a concern, and a means was needed to provide some flexibility. Flamme had used a
Krauss-Helmholtz bogie where the front carrying axle and the leading driver were articulated as a bogie. • Alloy steels, with nickel and chromium additives, were in development at this time and they were to be used for the most highly stressed parts of the motion. An initial design for a four-cylinder 2-10-0 was produced. An outline drawing, dated 18 June 1914, is shown in . The calculated
tractive effort of would be exceptional for this time; the contemporary
Class 31 0-8-0 was only in comparison. Hughes' design was strongly influenced by Flamme's, particularly for its boiler. The round-topped boiler almost filled the loading gauge, with the firebox wrapper the height of the cab. Even though it was also tapered, the boiler had to be
domeless, owing to the lack of clearance and even the safety valves had to be moved to the side, rather than the usual position on top. The boiler pressure was lowered from 200 to 180 psi, but the slightly smaller wheels kept the tractive effort high. The large grate area of would have provided adequate evaporative capacity, but would also have been a challenge for the fireman. The cylinders were directly below the smokebox and moderately inclined, with all four cylinders driving on the third axle. The
crosshead was, unusually, a single bar type. Walschaerts valve gear was used. The piston rods are particularly long, allowing space for a rocker arm on the valve rods, between the valve chest and the combination lever, to drive the inner valves. The front carrying axle was simplified to a conventional
Bissell truck, carried on a long radius pivot under the first driven axle, of almost . The two rear driving axles were beneath the ashpan, although this early design does not make it clear how the small space here was managed. The
Dreadnoughts had already suffered from a lack of air supply here. Owing to the length of the locomotive, the
tender was kept to a short 6-wheeled pattern, rather than the existing 8-wheeled designs of the 0-8-0 locomotives, so that the overall locomotive would still fit onto existing
turntables. This was taller though, so its capacity was increased from 5 tons and 3,600 gallons to 6 tons and 4,500 gallons. Despite this increase, it was still described as looking like "an elephant harnessed to a hand-cart". The outbreak of the
Great War only a month after this drawing meant that there was no longer time for new speculative designs, and so none were built. Its effects also prevented Hughes from the much-needed rebuilding work on the
Dreadnoughts. == Post-War ==