''Old Bess'' is an early beam engine built by the partnership of

Boulton and Watt Boulton & Watt was an early British engineering and manufacturing firm in the business of designing and making marine and stationary steam engines. Founded in the English West Midlands around Birmingham in 1775 as a partnership between the Eng ...

. The engine was constructed in 1777 and worked until 1848. The engine is most obviously known simply for being an early example of an engine built by Boulton and Watt. However it also played a far more important role in the development of steam engines for being the first engine designed to work with an early cutoff, and so to use the expansion of the steam for greater efficiency. It is now preserved in the Power Gallery of the Science Museum, London. It is the oldest surviving

Watt engine The Watt steam engine design became synonymous with steam engines, and it was many years before significantly new designs began to replace the basic Watt design. The first steam engines, introduced by Thomas Newcomen in 1712, were of the "at ...

, and the third-oldest surviving beam engine.

Watt's previous Kinneil Engine

Watt The watt (symbol: W) is the unit of power or radiant flux in the International System of Units (SI), equal to 1 joule per second or 1 kg⋅m2⋅s−3. It is used to quantify the rate of energy transfer. The watt is named after James ...

's first engine at Kinneil in Scotland had been unsuccessful, and the parts were taken down and re-used at Boulton's

Soho Manufactory The Soho Manufactory () was an early factory which pioneered mass production on the assembly line principle, in Soho, Birmingham, England, at the beginning of the Industrial Revolution. It operated from 1766–1848 and was demolished in 1853. B ...

Birmingham Birmingham ( ) is a City status in the United Kingdom, city and metropolitan borough in the metropolitan county of West Midlands (county), West Midlands in England. It is the second-largest city in the United Kingdom with a population of 1. ...

. The reworked engine was more successful there, and encouraged Boulton to invest further in this developing steam technology and in Watt's inventions. The Manufactory had been built to use a

water wheel A water wheel is a machine for converting the energy of flowing or falling water into useful forms of power, often in a watermill. A water wheel consists of a wheel (usually constructed from wood or metal), with a number of blades or bucket ...

to drive its machinery, and the site had been chosen on that basis, but there were concerns over seasonal lack of water to power the wheel. Similar problems in the iron industry had inspired the development of the

water-returning engine A water-returning engine was an early form of stationary steam engine, developed at the start of the Industrial Revolution in the middle of the 18th century. The first beam engines did not generate power by rotating a shaft but were developed as wat ...

: a steam pump that could raise water to drive the wheel, in times of low water on the river. The Kinneil Engine had been built as a pump, for use in a coal mine, and so was suitable for this new task. Watt's

rotative beam engine A beam engine is a type of steam engine where a pivoted overhead beam is used to apply the force from a vertical piston to a vertical connecting rod. This configuration, with the engine directly driving a pump, was first used by Thomas Newc ...

had not yet been considered and so the only way to produce rotary work to drive machinery in the Manufactory was by water power. In 1777 Boulton and Watt decided to build a second engine for use at Soho, either to supplement the Kinneil Engine or primarily to experiment with Watt's new idea of expansive working of the steam. The new engine was also to be a water-returning engine Like the earlier

Newcomen engine The atmospheric engine was invented by Thomas Newcomen in 1712, and is often referred to as the Newcomen fire engine (see below) or simply as a Newcomen engine. The engine was operated by condensing steam drawn into the cylinder, thereby creati ...

s, it was only capable of pumping water rather than driving machinery directly.

Working life

Construction

As early as 1769, Watt was considering the possibility of working steam expansively, as recorded in a letter of 28 May to Dr. Small. Early engines were incapable of this, as they used a single valve for both inlet and exhaust. As Watt had already begun to use separate valves for each function, it would now be possible to control their timing independently, i.e. to apply

lead Lead is a chemical element with the symbol Pb (from the Latin ) and atomic number 82. It is a heavy metal that is denser than most common materials. Lead is soft and malleable, and also has a relatively low melting point. When freshly cu ...

to the timing of the inlet valve. Watt decided to construct a new engine to demonstrate this principle and was confident of the substantial savings in coal consumption to be offered. Construction began in 1777 with the ordering of a 33-inch cylinder (84 cm). The engine was erected and working at Soho by August, although still incomplete. The engine always worked as a water pump and was equipped with two

cast iron Cast iron is a class of iron– carbon alloys with a carbon content more than 2%. Its usefulness derives from its relatively low melting temperature. The alloy constituents affect its color when fractured: white cast iron has carbide impur ...

cylinders at opposite ends of the beam, one for the working cylinder and one for the pump. The pump cylinder was taller and thinner, of diameter and tall, designed for a working stroke within this, although only was used in practice. The pumped water was delivered at a head of . The engine was later described as being of 30 hp in power. The beam was typical for early single-acting beam engines, pulling through

wrought iron Wrought iron is an iron alloy with a very low carbon content (less than 0.08%) in contrast to that of cast iron (2.1% to 4%). It is a semi-fused mass of iron with fibrous slag inclusions (up to 2% by weight), which give it a wood-like "grain" ...

chains running over a curved arch-head at each end of the beam. At some later point, possibly when reconstructed after the fire, this beam was strengthened by being strutted and bridled with the additional timber and iron triangular trusses that are seen above the beam today.

''Beelzebub''

Initial operation of the engine was unsatisfactory. Watt was away in Cornwall and Boulton wrote to him, describing the engine's actions as "very fierce". His opinion was that the engine's cylinder was too large for the work expected of it. This led to it being worked at a pressure of around 5.7 psi, whereas if it were operating at 8 psi, it would be less jerky and violent. This action was so remarkable as to give the engine its initial nickname of ''

Beelzebub Beelzebub ( ; he, ''Baʿal-zəḇūḇ'') or Beelzebul is a name derived from a Philistine god, formerly worshipped in Ekron, and later adopted by some Abrahamic religions as a major demon. The name ''Beelzebub'' is associated with the Can ...

''. Neither Watt nor Boulton had a solution to the engine's behaviour. Watt's experience with the Chacewater engine, a rebuilt Smeaton engine, at Wheal Busy, suggested that cutoff led to a violent action. In September he recommended

throttling A throttle is any mechanism by which the power or speed of an engine is controlled. Throttle or throttling may also refer to: Fiction * ''Throttle'' (film), a 2005 thriller * ''Throttle'' (novella), a 2009 novella by Stephen King and his son Jo ...

the steam supply to the engine. Boulton favoured further experimentation with cutoff (i.e. valve timing) and in 1779 suggested that a series of more scientific measurements be tried. With hindsight, Boulton's approach was the more thermodynamically efficient, although this lesson was not fully appreciated by locomotive drivers right to the end of steam power.

Fire and reconstruction

One morning in July 1778 the engine house was discovered to be on fire. The fire spread rapidly and within half an hour the roof was burned to the ground. The timberwork and soldered copper piping of the engine were also destroyed or damaged. Even the beam itself, a substantial timber construction, was "rendered unfit" by the fire. Fortunately the most important part of the engine, its cylinder, survived the fire relatively intact. Within three weeks the engine had been reconstructed and was expected to be working again shortly. While the engine had been damaged, Watt, who was once again away in Cornwall, had advised that "no repair farther that the roof ought to be gone about at present", with his intention being to reconstruct the engine in some improved manner. The nature of these reconstructions, and their effectiveness, remains unclear. By 1781, the engine had been working in its reconstructed form for some years. Whatever the improvements had been, they left Watt and Boulton still agreeing that this was, "one of the worst engines they had".

Closure of the Mint and preservation

The engine operated at the

Soho Mint Soho Mint was created by Matthew Boulton in 1788 in his Soho Manufactory () in Handsworth, West Midlands, England. A mint was erected at the manufactory containing eight machines, to his own patent design, driven by steam engine, each capable of ...

Handsworth, West Midlands Handsworth () is a suburb and an inner-city area of Birmingham in the West Midlands. Historically in Staffordshire, Handsworth lies just outside Birmingham City Centre and near the town of Smethwick. History The name ''Handsworth'' originat ...

, until the mint's closure in 1848. It was sold for £48, then re-sold for £58 and placed on display on an island in Derrington Pool, outside the metal-rolling works of its new owner, a Mr. Walker. Although much of the Mint's coining machinery had been re-sold for further use at the new

Birmingham Mint The Birmingham Mint was a coining mint and metal-working company based in Birmingham, England. Formerly the world's largest privately-owned mint, the company produced coins for many foreign nations including France, Italy, China, and much of the ...

, this aged and thoroughly obsolete engine appears to have been one of the first artefacts of

industrial archaeology Industrial archaeology (IA) is the systematic study of material evidence associated with the industrial past. This evidence, collectively referred to as industrial heritage, includes buildings, machinery, artifacts, sites, infrastructure, docu ...

to be deliberately preserved. The engine was later re-sold and then presented to the Commissioners of Patents for their Patent Office Museum, which would in turn become the

Science Museum A science museum is a museum devoted primarily to science. Older science museums tended to concentrate on static displays of objects related to natural history, paleontology, geology, industry and industrial machinery, etc. Modern trends in ...

in London. The engine is thus not only one of the Museum's oldest exhibits, but also one of the first to enter its collection. When first displayed, the engine was erected in an open-fronted representation of a brick-built engine house. It is now displayed on free-standing timberwork, allowing a closer inspection of the cylinders. For an engine that had been described as "one of the worst engines they had" when almost new, it had a relatively long working life of over 70 years. Its name had also shifted from the violent ''Beelzebub'' to the rather more friendly ''Old Bess'', indicating a more satisfactory performance. Reports by both Joseph Harrison, Artificer of the Soho MintJoseph Harrison, Science Museum collection and William Buckle support this. In 2009 it was awarded an Engineering Heritage Award by the IMechE.

Confusion between engines

Several confusions exist about this engine, and have been widely repeated. The first of these confusions is that this was Watt's ''second'' engine (after the Kinneil engine) and the first by the Boulton and Watt partnership. In fact several engines were built between 1773 (the return of the Kinneil engine to Birmingham) and the construction of ''Beelzebub'' in 1777., Chap. IX, ''The Single Acting Pumping Engine'', pp. 111–119 These include such well-known engines as the 1775 38-inch

blowing engine A blowing engine is a large stationary steam engine or internal combustion engine directly coupled to air pumping cylinders. They deliver a very large quantity of air at a pressure lower than an air compressor, but greater than a centrifugal fan. ...

for John Wilkinson's blast furnaces at New Willey, near

Broseley Broseley is a market town in Shropshire, England, with a population of 4,929 at the 2011 Census and an estimate of 5,022 in 2019. The River Severn flows to its north and east. The first The Iron Bridge, iron bridge in the world was built in 17 ...

Shropshire Shropshire (; alternatively Salop; abbreviated in print only as Shrops; demonym Salopian ) is a landlocked historic county in the West Midlands region of England. It is bordered by Wales to the west and the English counties of Cheshire to ...

, and the 50-inch pumping engine for Bloomfield Colliery near

Tipton Tipton is an industrial town in the West Midlands in England with a population of around 38,777 at the 2011 UK Census. It is located northwest of Birmingham. Tipton was once one of the most heavily industrialised towns in the Black Country, w ...

in the

West Midlands West or Occident is one of the four cardinal directions or points of the compass. It is the opposite direction from east and is the direction in which the Sun sets on the Earth. Etymology The word "west" is a Germanic word passed into some ...

. The identity of ''Beelzebub'' is also confused. Some sources describe this as referring to the rebuilt Kinneil engine at Birmingham. There are two pieces of evidence to support the view that ''Old Bess'' and ''Beelzebub'' are the same engine. Firstly the name ''Beelzebub'' derives from its violent action when used experimentally for expansive working, an experiment applied to the engine built new in 1777. Secondly ''Beelzebub'' is described as a 33-inch engine, as is ''Old Bess'' on display today. There is no record of Boulton & Watt ever building another engine of this dimension.

References

{{steam engine configurations, state=collapsed Preserved beam engines Stationary steam engines Steam engines in the Science Museum, London History of the steam engine Industrial Revolution James Watt