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Engineering (I)
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★ Engineering (I)

This new product used powdered flint for colour and texture.  And was made of white clay and stone from Cornwall and bore clay from Devon and Dorset.  And Cream-ware was the speciality of Josiah Wedgwood.  Master potter, inventor, and one of the great entrepreneurs of the industrial revolution.  ibid.

 

You can’t put this lot straight into a kiln; you have to make a protective container known as a sagger.  And this job is known as sagger-maker’s-bottom-knocking ... Leading to this – the Bottle Kiln.  ibid.

 

In fifty years revolutionaries like Wedgwood transformed the trade of potter into an industry.  Wedgwood’s manufactory innovations were so well executed and so durable that Cream, or rather Queen’s-ware, is still made today.  ibid.

 

 

Steam power had finally arrived in the textile industry.  And this is what the boilers are generating steam for: its a tandem – because there are two cylinders one in front of the other like a bike – compound – because the steam is used more than once – condensing – because downstairs is James Watt’s separate condenser – creating a partial vacuum in this the big cylinder – steam engine!  It develops five hundred horsepower.  Mark Williams, Industrial Revelations s1e4: Pennine Passage

 

Because this is what it's driving – three hundred power-looms.  You can get an idea of how loud it is, but you cant feel the concrete floor vibrating ... Now everything is powered by steam. ibid.

 

 

A beautiful piece of working iron: a standardised Telford gate design to be found all over his roads.  Looks almost Art Deco.  Except it’s 1820 not 1920.  Mark Williams, Industrial Revelations s1e5: Working Iron

 

What fired Telford’s ambition to create this incredible structure?  The answer lies in the specification for this wrought-iron suspension bridge.  The iron is to be best quality Shropshire iron.  The world’s first iron bridge had been constructed only forty-seven years before the Menai over the River Seven in Shropshire, the heart of the iron industry.  ibid.   

 

In 1709 Abraham Darby got a patent for a new method of casting pot-bellied cooking pots ... in sand.  In 1709 he moved from Bristol to here.  And also in 1709 he did an amazing thing: because he discovered a way of smelting iron with coke ... He truly was the Father of the Industrial Revolution.  ibid.  

 

 

And it was local [Birmingham] traders who took the initiative.  In 1769 they commissioned James Brindley to build a canal connecting the local coal mines to the canal.  The price of coal halved, cutting costs in the metal workshops.  Mark Williams, Industrial Revelations s1e6: Coining It

 

Matthew Boulton, the great entrepreneur ... It was his collaboration with James Watt, the father of the steam engine, that really put Birmingham on the map ... In thirty years they dispatched over five hundred steam engines via the canal network to mines and factories all around Britain.  ibid.

 

Boulton was always quick to spot an opportunity.  In the 1790s rapid inflation created a national demand for coinage, so he set up another production line using steam power to revolutionise coin making – a trade still carried on in the city [Birmingham] today.  ibid.

 

 

Why was Sheffield king of the steel and cutlery business? ... Location, location, location.  Mark Williams, Industrial Revelations s1e7: Cutting Edge

 

In the seventeenth and eighteen centuries Sheffield had over a hundred and sixty mills.  ibid.

 

After three or four hours the lid would have been opened and the puller-out would wrap his lower body in water-soaked cloth, a water-soaked leather apron, position himself over the furnace – not a pleasant job – then the crucible would have been pulled out.  ibid.

 

Sheffield not only had supplies of iron, coal and water, it now also had the steel industry which was ideally placed to exploit the steam engine.  ibid.

 

1856 when Henry Bessemer invented a process for producing mass-produced steel.  ibid.

 

 

From the 1770s the steam-engine market was dominated by the partnership of Boulton & Watt.  They had made some improvements in efficiency but their engines, using massive copper boilers like giant kettles, had serious limitations.  To get more power they had to build bigger and bigger machines.  Mark Williams, Industrial Revelations s1e8: The Iron Horse

 

Richard Trevithick, a mining engineer with a passion for steam, was dreaming of small powerful engines  powerful enough to do a range of jobs and small enough to move themselves around.  High pressure locomotion.  This was the way of the future.  The technology of the steam railways.  ibid.

 

This is a replica of that secret locomotive.  This is the first locomotive in the world: built by Trevithick over the winter of 1802, it’s a living dinosaur in the nicest possible sense.  And we’re talking ten years before George Stephenson’s first attempts hit the tracks.  ibid.  

 

The truth is that the original steam locomotive was born out of a mix of Cornish genius and hard-nosed industrial competition.  ibid.

 

 

This is the Caledonian canal.  And it is the most beautiful canal in Britain.  It was built for ships of 400 tons, designed to transform the Highlands economy.  It employed hundreds of men for years and makes the English canals with their narrow boats seem half-hearted.  But it was never successful.  Mark Williams, Industrial Revelations s1e9: Highland Flop

 

 

At full capacity the engines of the Kew Bridge Station were capable of pumping thirty million gallons ... a day ... It’s a cathedral to steam.  Mark Williams, Industrial Revelations s1e10: Power Crazy

 

 

Steam-engines: the horse’s nemesis.  They’d existed for decades before anyone tried to put them to work on the farm.  Most farming jobs required them to be taken out into the fields.  These were the earliest agricultural steam-engines: portable engines.  Mark Williams, Industrial Revelations s2e1: Bread and Beer

 

Steamrollers were the first self-propelled self-steered steam-engines.  ibid.

 

 

Soon entrepreneurs started building factories to house the stocking frames ... These frame-knitter workshops with their high long windows to let in light were all built together around 1820.  Mark Williams: More Industrial Revelations s2e2: What to Wear? Discovery 2005

 

The knitters took their employers to court with little effect.  So, under the mythical leadership of one General Lud, well-organised gangs of knitters smashed the frames of any employers who broke the law.  ibid.

 

A sewing machine did away with ten tailors.  ibid.

 

 

This is a replica of Murdochs model.  A top-secret design for a vehicle that could pull carriages along the road ... Murdoch continued developing his model vehicle throughout the 1780s ... He was fascinated by high-pressure steam.  Mark Williams, Industrial Revelations s2e3: Gas on Wheels

 

This time extracting gas from coal ... He soon became so successful that he lit his own house.  The first house lit by gas in the world.  And Murdoch’s employers soon turned gas-light into big business.  From 1805 mills and factories were to work shifts around the clock using their own gas generating plants.  It wasn’t long before everyone wanted the new light.  ibid.

 

One of the most extraordinary pieces of machinery in the entire industrial age in my opinion  this is a Scrubber.  The idea in our computer-dominated nano-technology world that the way to remove ammonia from gas is to scrub it with brushes underwater seems fantastic.  But that’s what the machine does: gas is bubbled through water and scrubbed by slowly revolving brushes, and this is how town gas was cleaned throughout the whole of its life as a fuel supply.  ibid.

 

200 years later Murdoch’s coal gas was readily available.  It could be fed into an engine and ignited again and again and again.  ibid.

 

Fifty years after William Murdoch first dreamed of steam on the roads another visionary, Walter Hancock, made it happen.  ibid.

 

 

It was the clarity and precision of these beautifully carved letters that inspired Baskerville to change printing ... Baskerville set about designing new fonts based on stone-carving, and some of them are still in use today.  Mark Williams, Industrial Revelations s2e4: Print & Paper

 

This work is close and detailed.  Accuracy is paramount.  Printers were called the aristocrats of labour.  They were all highly literate.  And served a long apprenticeship.  And they were also correspondingly very well paid.  ibid.

 

 

How to serve beer more quickly ... Bramah set himself the task of coming up with a solution to serve beer through a pipe to the bar: a beer engine ... The Bramah Press.  Patented in 1795 it’s the same principle as the two syringes.  Mark Williams, Industrial Revelations s2e5: Under Pressure

 

But Armstrong was going to use hydraulic power for something butcher than kitchen gadgets.  Something that would give the ship-building industry quite a boost.  And make him even more money.  ibid.

 

The accumulator provides power at the turn of a valve.  There’s no reason why it couldn’t provide power for lots of machinery.  In fact, if you had a big enough accumulator and long enough pipes, you could provide power for a whole town or a city.  And that’s what this company did – the London Hydraulic Power Company.  ibid.  

 

 

Cheap mass-produced bricks were used in their millions for workers’ houses in Stockport.  And for roofs they could now get the best material available – slate from Wales.  Mark Williams, Industrial Revelations s2e6: Building a Revolution

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