John L. Savage

From Wikipedia, the free encyclopedia
John L. Savage

John L. Savage
Born December 25, 1879
Cooksville, Wisconsin
Died December 28, 1967
Englewood, Colorado
Occupation Civil engineer
Spouse(s) Jessie Burdick Sexsmith, Olga Lacher Miner
Children None[1]
Parents Edwin and Mary Savage

John Lucian Savage (December 25, 1879 December 28, 1967) was an American civil engineer. Among the 60 major dams he supervised the designs for, he is best known for the Hoover Dam, Shasta Dam, Parker Dam and Grand Coulee Dam in the United States along with surveying for the future Three Gorges Dam in China.[2] He was a member of the National Academy of Sciences and the recipient of numerous awards including the John Fritz Medal.[1]

Biography

Early life

John L. Savage was born on December 25, 1879 in Cooksville, Wisconsin to Edwin Parker and Mary Therese Savage. Raised on a farm, Savage was involved in numerous chores and labor while attending grade school. Savage later attended the Hillside Home School after he earned tuition and board for two years. After Savage graduated from Madison High School, he attended the University of Wisconsin. During the summer of his freshmen year helped work on the Geological Survey of Wisconsin. During the summers of his sophomore and junior years, he conducted surveying with the United States Geological Survey. Savage graduated from the University of Wisconsin in 1903 with a B.S. in Civil Engineering.[1]

Professional life

U.S. Bureau of Reclamation, Idaho Division

In 1903, Savage took an engineering aid job with the United States Bureau of Reclamation, Idaho Division. Before leaving that position in 1908, Savage worked on his first dam, the Minidoka Project. In Idaho, Savage also worked on the Payette-Boise Canal System, the Boise River Diversion Dam and the Upper and Lower Deer Flat Dams.[1]

A. J. Wiley Engineering Association

In 1908, after leaving the U.S. Bureau of Reclamation Idaho Division, Savage began an eight-year association with A. J. Wiley, an engineer in Boise, Idaho. Their engineering practice boomed because of increased water use by the private sector for agriculture. Savage spent the majority of his time in the association inspecting and consulting on projects. During his time with Wiley, Savage worked on the Salmon River Dam, the Swan Falls Power Plant on the Snake River, the Barber Dam on the Boise River, the Twin Falls North Side Canal System, and the American Falls Power Plant. Savage also designed the gates for the Arrowrock Dam on the Boise River.[1]

U.S. Bureau of Reclamation, Chief Engineer Office

Savage and other engineers observing the Black Canyon; future Hoover Dam site.

After working with A.J. Wiley and buying a cattle ranch in Idaho, Savage returned to the U.S. Bureau of Reclamation in the office of the Chief Engineer. There he became the first designing engineer of the Bureau and later, between 1924 and 1945, served as the chief designing engineer in charge of all civil, electrical, and mechanical design. While in this position, Savage's supervisor, the Chief Engineer, allowed him to work in an independent capacity because of his abilities. With this, Savage was responsible for the designing of large projects, such as the Hoover Dam, the Parker Dam, the Shasta Dam, the All American Canal System and the Grand Coulee Dam.[1][3]

Official overseas consulting

Savage and Chinese Delegation, on Yangtze River, 1944
Savage’s Proposal for the Yangtze River Gorge Dam, 1945

While with the U.S. Bureau of Reclamation, Savage became a renowned expert on dams and civil engineering; he consulted in 19 countries on hundreds of projects. In 1938, the Government of New South Wales asked Savage to consult on the Burrinjuck Dam in Australia after fears that the dam wall was unstable.[4][5] Initially, Savage was not allowed to go because of a U.S. law forbidding federal employees from accepting money from foreign powers. Savage refused any payments and offered his services anyway, writing his superiors: "Any assistance will be gratis and I shall not accept any reimbursement for expenses. An overdue vacation will be sufficient gratuity."[1]

After serving Mexico, in 1941, the United States Congress unanimously passed legislation allowing Savage to officially consult in India, Australia, and other countries. In Australia, Savage was consulted during the construction of the Upper Yarra[6] and Warragamba[7] Dams. Savage consulted on several dams in Afghanistan for the purpose of irrigation.[1] In Switzerland, he consulted on the design and construction of the Grande Dixence Dam. He also consulted on numerous projects in India, Palestine and Spain.[8]

In 1944, the Chairman of the Nationalist Government of China, Chiang Kai-shek invited Savage to China where he surveyed and designed his "dream dam". At the time, the project was known as the Yangtze Gorge Project and would help irrigate 10 million acres (40,000 km2) of land and control the Yangtze River, which was prone to deadly floods.[1][9] When Savage returned, he published his report titled "Yangtze Gorge and Tributary Project" in which he stated in the preface: "The Yangtze Gorge Project is a ‘CLASSIC'." He also stated that it would bring employment and a higher standard of living in China. On June 3, 1946, the first of the dams he suggested, the Upper Tsing Yuan Tung, began but was halted on August 15, 1947 because of the Chinese Civil War.[10] His dream, would be a reality almost 60 years later; standing as the Three Gorges Dam, one of the largest dams and supplying the largest power plant in the world.[1]

Retirement

John L. Savage retired from the U.S. Bureau of Reclamation in 1945 but continued to consult in countries such as Afghanistan, South Africa, India, Singapore, Formosa, Japan, Mexico, Canada and Australia.[1]

Legacy

John L. Savage was known as an exemplary and diligent worker among his peers, often seeing engineering problems before they arose. Savage's peers often referred to him as the first "billion dollar" American engineer because of the costs of the projects he designed and supervised. He was also known by some as "Jack Dam" Savage. Savage never saw money as an object of his work and once said that he took pleasure in joining "enterprises that have as their objective the development of human relations."[1]

During Savage's 1945 John Fritz Medal award ceremony, the following was said: "Among Savage's major satisfactions is that of having seen the West grow and thrive as a result of the Bureau of Reclamation program for power and irrigation. Nearly 5,000,000 people—one out of every five living in the seventeen Western states—are dependent in one way or another on the facilities designed under his supervision."[1]

Marriage and children

John L. Savage was married twice and never fathered any children. Savage first married Jessie Burdick Sexsmith on June 1, 1918 but she died on July 17, 1940. Savage's second marriage was to Olga Lacher Miner on January 14, 1950. Although childless, Savage helped fund several of his nieces and nephews through college. In addition, he brought home an orphaned child from his trip to China.[1]

Death

John L. Savage died on December 28, 1967 in Englewood, Colorado.[1]

Contributions to civil engineering

When designing the Hoover Dam, Savage introduced artificially cooled mass concrete, which dramatically reduced the setting time of concrete, allowing for faster construction. He also introduced the trial load method of arch analysis, which removed theorized and actual stresses in a finished structure. While designing the Grand Coulee Dam, Savage and his assistants solved an engineering problem of "twists" by leaving 6-foot (1.8 m) gaps in a dam structure called "twist adjustment slots" in order to provide "give" as hydrostatic pressure amounted on a concrete dam, preventing cracking.[1]

Savage and his associates developed methods and equipment that determined the stress on penstocks — pipes responsible for directly transferring water to generators in hydroelectricity power plants. They also studied the behavior of concrete and rolled-earth dams as well as the seismic and land subsidence effects caused by the weight of large reservoirs.[1]

Awards

Education

Honorary degrees

Professional

  • Colorado Engineering Council's Gold Medal Award, 1937
  • Gold Medal Award of the National Resources Commission of China, 1944
  • John Fritz Medal, 1945
  • Henry C. Turner Gold Medal Award, 1946
  • National Academy of Sciences Election, 1949
  • Washington Award, 1949
  • U.S. Department of Interior Gold Medal Award, 1950
  • Reclamation Hall of Fame, May 1950
  • Popular Mechanics Hall of Fame, 1952
  • "Order of Ching Hsin" (China), 1952[1]

References

  1. 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 1.10 1.11 1.12 1.13 1.14 1.15 1.16 1.17 1.18 Wolman, Abel; W. H. Lyles. "John Lucian Savage Biography". National Academy of Sciences. Retrieved 22 December 2009. 
  2. "Inventory of the John Lucian Savage papers, 1903-1961". University of Wyoming. American Heritage Center. Retrieved 7 May 2012. 
  3. Simonds, Joe. "THE BOULDER CANYON PROJECT Hoover Dam". U.S. Bureau of Reclamation. Retrieved 14 September 2010. 
  4. "BURRINJUCK DAM.". The Canberra Times (ACT : 1926 - 1954) (ACT: National Library of Australia). 9 April 1942. p. 3. Retrieved 26 July 2011. 
  5. ""HERALD" SATURDAY MAGAZINE.". The Sydney Morning Herald (NSW : 1842 - 1954) (NSW: National Library of Australia). 5 February 1949. p. 7. Retrieved 26 July 2011. 
  6. "DAM EXPERT FROM U.S.". The Mercury (Hobart, Tas. : 1860 - 1954) (Hobart, Tas.: National Library of Australia). 5 December 1941. p. 2. Retrieved 26 July 2011. 
  7. Aird, W.V, (1961). The Water Supply, Sewerage and Drainage of Sydney. Sydney: M.W.S.&D.B. p. 109. 
  8. John Lucian Savage, an ASCE Engineer, 1969
  9. "Chronology of Three Gorges Project". Embassy of The People's Republic of China in The United States. Retrieved 7 May 2012. 
  10. "October The National Archives in the regions…a monthly calendar of events open to the public". U.S. National Archives. Retrieved 14 September 2010. 

External links

This article is issued from Wikipedia. The text is available under the Creative Commons Attribution/Share Alike; additional terms may apply for the media files.