June 2019

COMPRESSED AIR 42 HYDRAULICS & PNEUMATICS June 2019 www.hpmag.co.uk the adoption of electricity. At the same time, the ancient crafts of extracting ores and working metals determined the importance of air under pressure in the process, progressing from simple foot-operated bellows to today’s smart air compressor solutions. However, there was not always Making the wheels go around rejection of one type of power source in favour of a newer development. In fact, the adoption of hybrid power applications is typified by just a couple of examples: a steam-powered pump employed to return water to a textile manufacturer’s watermill stream flow in times of drought, and perhaps one of the first primitive air compressors, created in 1762 when the inventor John Smeaton found a way to rig a water wheel to power a blowing cylinder. It was possibly the first major breakthrough in producing a constant supply of pressurised air in roughly 3000 years – but more of that later. Water power and the factory system Since ancient times, hydropower from watermills has been used as a renewable energy source for irrigation, but also the operation of mechanical devices. In the Roman Empire, water-powered mills produced flour, but were also used in construction work for sawing timber and stone. At the beginning of the Industrial Revolution in Britain, water was the main source of power for new inventions, such as Richard Arkwright’s water frame, patented in 1769. Arkwright is also credited with inventing the prototype of the factory system, which saw the open water wheel concept evolve into a highly efficient enclosed turbine or water motor. Moving from water to steam power Although water power continued to be an essential energy source, the invention of the steam engine was the inspiration, the outstanding source of power and the major workhorse for industry, and eventually transport systems, throughout the Western world for almost 200 years. However, working conditions were dangerous, dirty and dark. Coal-fired steam-raising meant workers emerged after long hours coated with soot and suffering from eye problems and lung diseases. The pioneering work of Newcomen and Watt with steam technology in the mid-1700s prepared the way for the development of sophisticated heat engines, innovations that in the early 20th century expedited the large-scale Through the ages and across the globe, harnessing energy to provide motive force, increasing output and saving human effort, has been a constant aspiration. It is a quest that has resulted in the replacement of human and animal muscle power, employed the elemental sources of wind and water, encouraged scientific endeavour, and inspired mechanical innovation. Though the ways in which energy has been sourced have changed, the story of their development stretches back millennia. For example, the Chinese were using coal for heating in 2000 BC, but things progressed more slowly in the West, where Great Britain’s first coalmine was not opened until around AD 1200. Meanwhile, the first vertical water wheel was probably operating in the first century, while the mechanical method of grinding corn using windmill power is thought to have been developed around AD 644. New technologies evolve As the productive capabilities of applied power were realised, communities developed ever more powerful and efficient means to increase output. This led to a succession of new technologies, from wind and water power through to the harnessing of steam and, ultimately, From water, steam and electricity to compressed air, Alexander Pavlov, general manager at Atlas Copco Compressors UK & Ireland, gives a brief history of the factory through the ages and the energy that powered production Roadworkers breaking ground before the pneumatic breaker was invented. Alexander Pavlov: “With the Industrial Revolution, the mechanical air compressor was born, inspired by John Wilkinson’s hydraulic blowing machine.”