Waterpower in Lowell by Patrick M. Malone
Engineering and Industry in Nineteenth-Century America (Johns Hopkins Introductory Studies in the History of Technology)

No critic rating

Waiting for minimum critic reviews

Synopsis

Patrick M. Malone demonstrates how innovative engineering helped make Lowell, Massachusetts, a potent symbol of American industrial prowess in the 19th century.

Waterpower spurred the industrialization of the early United States and was the principal power for textile manufacturing until well after the Civil War. Industrial cities therefore grew alongside many of America's major waterways. Ideally located at Pawtucket Falls on the Merrimack River, Lowell was one such city -- a rural village rapidly transformed into a booming center for textile production and machine building. Malone explains how engineers created a complex canal and lock system in Lowell which harnessed the river and powered mills throughout the city.

James B. Francis, arguably the finest engineer in 19th-century America, played a key role in the history of Lowell's urban industrial development. An English immigrant who came to work for Lowell's Proprietors of Locks and Canals as a young man, Francis rose to become both the company's chief engineer and its managing executive. Linking Francis's life and career with the larger story of waterpower in Lowell, Malone offers the only complete history of the design, construction, and operation of the Lowell canal system.

Waterpower in Lowell informs broader understanding of urban industrial development, American scientific engineering, and the environmental impacts of technology. Its clear and instructional discussions of hydraulic technology and engineering principles make it a useful resource for a range of courses, including the history of technology, urban history, and American business history.

 

About Patrick M. Malone

See more books from this Author
 
Published October 2, 2009 by JHUP. 269 pages
Genres: History, Computers & Technology, Education & Reference, Science & Math.
×