118 The Spread of Steam Power

25.3.3: The Spread of Steam Power

Steam engines found many uses in a variety of industries, most notably mining and transportation, but its popularization shaped nearly every aspect of the industrial society, including where people could live, labor, and travel;  how goods were produced, marketed, and sold; and what technological innovations followed.

Learning Objective

Give examples of the industries powered by steam

Key Points

  • The steam engine was one of the most important technologies of the Industrial Revolution, inspiring other innovations and initiating further technological advancements. In 1775, James Watt formed an engine-building and engineering partnership with manufacturer Matthew Boulton. This served as a kind of creative technical center for much of the British economy. They supported talents and other companies, creating a culture where firms often shared information that they could use to create new techniques or products.
  • From mines to mills, steam engines found many uses in a variety of industries. The introduction of steam engines improved productivity and technology and allowed the creation of smaller and better engines. Around the start of the 19th century, Cornish engineer Richard Trevithick and American Oliver Evans began to construct higher-pressure non-condensing steam engines, exhausting against the atmosphere. After Trevithick’s development, transport applications became possible and steam engines found their way into boats, railways, farms, and road vehicles.
  • The steam engine was originally invented and perfected to be used in mines. The introduction of the steam pump by Savery in 1698 and the Newcomen steam engine in 1712 greatly facilitated the removal of water and enabled shafts to be made deeper, enabling more coal to be extracted. The adoption of John Smeaton’s improvements to the Newcomen engine followed by James Watt’s more efficient steam engines from the 1770s reduced the fuel costs of engines, making mines more profitable.
  • Steam locomotives were invented after the introduction of high pressure steam engines when the Boulton and Watt patent expired in 1800. Steam-hauled public railways began with the Stockton and Darlington Railway in 1825. The use of steam engines on railroads proved extraordinary since large amounts of goods and raw materials could now be delivered to cities and factories alike at a fraction of the cost traveling by wagon.
  • Following the advent of the steamboat, the United States saw an incredible growth in the transportation of goods and people, which was key in westward expansion. The steamboat dramatically reduced time used to transport goods and allowed for increased specialization. The steamboat was also critical to facilitating the internal slave trade. With the steamboat came the need for an improved river system and infrastructure along the rivers.
  • Steam engines are a particularly illustrative example of how changes brought by industrialization led to even more changes in other areas. While many consider the potential for an increase in power generated the dominant benefit, others favor the potential for agglomeration. Steam engines made it possible to easily work, live, produce, market, specialize, and viably expand without having to worry about the less abundant presence of waterways.

Key Terms

Boulton and Watt
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 English manufacturer Matthew Boulton and the Scottish engineer James Watt, the firm had a major role in the Industrial Revolution and grew to be a major producer of steam engines in the 19th century.
beam engine
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 Newcomen around 1705 to remove water from mines in Cornwall.
steam engine
A heat engine that performs mechanical work using steam as its working fluid.

 

 

Steam Engine Revolution

The steam engine was one of the most important technologies of the Industrial Revolution, although steam did not replace water power in importance in Britain until after the Industrial Revolution. From Englishmen Thomas Savery’s first practical, atmospheric pressure engine (1698) and Thomas Newcomen’s atmospheric engine (1712) through major developments by Scottish inventor and mechanical engineer James Watt, the steam engine became used in many industrial settings. In 1775, Watt formed an engine-building and engineering partnership with manufacturer Matthew Boulton that became one of the most important businesses of the Industrial Revolution and served as a creative technical center for much of the British economy. The partners solved technical problems and spread the solutions to other companies. Similar firms did the same thing in other industries and were especially important in the machine tool industry. These interactions between companies reduced the amount of research time and expense that each business had to spend working with its own resources. The technological advances of the Industrial Revolution happened more quickly because firms often shared information they could use to create new techniques or products.

Watt’s rotative engine at the Henry Ford Museum The Henry Ford Museum in Dearborn, Michigan houses a Watt rotative engine manufactured in 1788 by Charles Summerfield. This is a full-scale working Boulton-Watt engine. The American industrialist Henry Ford moved the engine to Dearborn around 1930.

Major Applications

From mines to mills, steam engines found many uses in a variety of industries. The introduction of steam engines improved productivity and technology and allowed the creation of smaller and better engines. Until about 1800, the most common type of steam engine was the beam engine, built as an integral part of a stone or brick engine-house, but soon various patterns of self-contained rotative engines (readily removable, but not on wheels) were developed, such as the table engine. Around the start of the 19th century, the Cornish engineer Richard Trevithick and American Oliver Evans began to construct higher-pressure non-condensing steam engines, exhausting against the atmosphere. After Trevithick’s development, transport applications became possible and steam engines found their way into boats, railways, farms, and road vehicles.

The steam engine was originally invented and perfected to be used in mines. Before the steam engine, shallow bell pits followed a seam of coal along the surface and were abandoned as the coal was extracted. In other cases, if the geology was favorable, the coal was mined by a drift mine driven into the side of a hill. Shaft mining was done in some areas, but the limiting factor was the problem of removing water. It could be done by hauling buckets of water up the shaft or to a tunnel driven into a hill t. In either case, the water had to be discharged into a stream or ditch at a level where it could flow away by gravity. The introduction of the steam pump by Savery in 1698 and the Newcomen steam engine in 1712 greatly facilitated the removal of water and enabled shafts to be made deeper, enabling more coal to be extracted. These developments began before the Industrial Revolution, but the adoption of John Smeaton’s improvements to the Newcomen engine followed by James Watt’s more efficient steam engines from the 1770s reduced the fuel costs of engines, making mines more profitable.

At the beginning of the Industrial Revolution, inland transport was by navigable rivers and roads, with coastal vessels employed to move heavy goods by sea. Wagon ways were used for conveying coal to rivers for further shipment, but canals had not yet been widely constructed. Animals supplied all of the motive power on land, with sails providing the motive power on the sea. The first horse railways were introduced toward the end of the 18th century, with steam locomotives introduced in the early decades of the 19th century. Steam locomotives were invented after the introduction of high-pressure steam engines when the Boulton and Watt patent expired in 1800. High-pressure engines exhausted used steam to the atmosphere, doing away with the condenser and cooling water. A few of these early locomotives were used in mines. Steam-hauled public railways began with the Stockton and Darlington Railway in 1825. The use of steam engines on railroads proved extraordinary in the fact that now you could have large amounts of goods and raw materials delivered to cities and factories alike. Trains could deliver these to places far away at a fraction of the cost traveling by wagon.

Particularly in the United States, the introduction and development of the steamboat resulted in vast changes. Prior to the steamboat, rivers were generally only used in transporting goods from east to west, and from north to south as fighting the current was very difficult and often impossible. Non-powered boats and rafts were assembled upstream to carry cargo downstream, and would often be disassembled at the end of their journey and the remains used to construct homes and commercial buildings. Following the advent of the steamboat, the U.S. saw incredible growth in the transportation of goods and people, which was key in westward expansion. The steamboat dramatically reduced time used to transport goods and allowed for increased specialization. It was also critical to facilitating the internal slave trade.

With the steamboat came the need for an improved river system. The natural river system produced such obstacles as rapids, sand bars, shallow waters, and waterfalls. To overcome these natural obstacles, a network of canals, locks, and dams was constructed. This increased demand for labor along the rivers, resulting in tremendous job growth. The popularization of the steamboat also led directly to growth in the coal and insurance industries and demand for repair facilities along the rivers. Additionally, the demand for goods in general increased as the steamboat made transport to new destinations both wide-reaching and efficient.

1920 Steamboat on the Yukon River near Whitehorse, Frank G Carpenter Collection, US Library of Congress.

Prior to the steamboat, it could take between three and four months to make the passage from New Orleans to Louisville, averaging twenty miles a day. With the steamboat this time was reduced drastically with trips ranging from twenty-five to thirty-five days. This was especially beneficial to farmers as their crops could now be transported elsewhere to be sold.

 

Steam Engine and Societal Progress

Steam engines are a particularly illustrative example of how changes brought by industrialization led to even more changes in other area.Water power, the world’s preceding supply of power, continued to be an essential source even during the height of steam engine popularity. The steam engine, however, provided many novel benefits. While many consider the potential for an increase in power generated o be the dominant benefit (with the average horsepower of steam powered mills producing four times the power of water powered mills), others favor the potential for agglomeration. Steam engines made it possible to easily work, live, produce, market, specialize, and viably expand without having to worry about the less abundant presence of waterways. Cities and towns were now built around factories, where steam engines served as the foundation for the livelihood of many of the citizens. By promoting the agglomeration of individuals, successful local markets were established. Cities quickly grew and the quality of living eventually increased as infrastructure was put in place. Finer goods could be produced as acquisition of materials became less difficult and expensive. Direct local competition led to higher degrees of specialization and labor and capital were in rich supply. The steam-powered towns encouraged growth both locally and on the national scale.

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