Shippingport Atomic Power Station






Essential History of the Shippingport Atomic Power Station - 1957 First Large-Scale Nuclear Power Plant in America, Work of Admiral Rickover, Pressurized Water Reactor, Historic American Engineering

Author : Department of Energy (DOE)

Publisher :

Page : 81 pages

File Size : 21,25 MB

Release : 2017-04-09

Category :

ISBN : 9781521027462

Get eBook

Book Description

This excellent report has been professionally converted for accurate flowing-text e-book format reproduction. It provides an authoritative history of the Shippingport Atomic Power Station, which became operational in December 1957. This historic facility was the first large-scale central station nuclear power plant in the United States and the first plant of such size in the world operated solely to produce electric power; it was the first to have training classes for operators and supervisors; it was the first to use a water-cooled breeder core for a power plant. At 4:30 a.m. on December 2, 1957, the Shippingport Atomic Power Station reached criticality, becoming the Nation's first large-scale central station nuclear power plant to attain a chain reaction. In Chicago, fifteen years earlier to the day, the Italian-born Nobel laureate Enrico Fermi had achieved the world's first self-sustained chain reaction, an event which is often accepted as the beginning of the nuclear age. Fermi and his associates had reached their goal by using a simple assembly of graphite, uranium metal, uranium oxide, and wood. The Chicago Pile was an experiment designed to prove the correctness of theoretical physics. Fermi and his team knew it would produce no useful power. In contrast, the Shippingport reactor was a complicated piece of machinery, generating large amounts of heat, requiring an elaborate cooling system, depending upon materials which only fifteen years earlier had been laboratory curiosities, and relying upon sophisticated components and instruments which did not exist when Fermi conducted his experiment. The purpose of this plant was to demonstrate the feasibility of producing useful energy from the atom for civilian application and to advance civilian power reactor technology. From conception through almost all of its operating life, Shippingport was the responsibility of Admiral H. G. Rickover, The Bettis Atomic Power Laboratory, often supported by the Knolls Atomic Power Laboratory, made technical recommendations but he and his organization made the key decisions. He carried his responsibilities, however, far beyond the realm of technology. To him the purpose of Shippingport was much more than the demonstration of the engineering feasibility of using atomic power for commercial application: the station was to establish standards for training personnel and to apply procedures for safe operation. These were to set an example for industry.





Nuclear Power Goes On-Line

Author : William Beaver

Publisher : Praeger

Page : 224 pages

File Size : 19,8 MB

Release : 1990-05-23

Category : Business & Economics

ISBN :

Get eBook

Book Description

On May 26, 1958, the Shippingport, Pennsylvania, nuclear power station ushered in the age of the peaceful atom when it became the first nuclear power plant to go on-line. Throughout its more than three decades of operation, Shippingport encountered many of the crucial problems and issues that still confront nuclear power: policy formation, the role of government in technological innovation, technological management, environmental issues, breeder reactors, and the decommissioning of a nuclear plant. In an objective and nonprejudiced way, this book provides an accurate account of the important events in Shippingport's history and the role that they played in the future course of nuclear power. Unlike other general treatments of nuclear power, this volume presents a specific case history of one plant, with the major issues that influenced nuclear power analyzed in the context of both Shippingport and the nuclear industry as a whole. It draws on technical reports filed with the government, Congressional testimony by project head Hyman Rickover, interviews with participants in the Shippingport project, and relevant secondary sources to detail the history of one of the few successful government attempts to innovate energy technologies following World War II. The chapters trace the story of Shippingport from its beginnings, through construction, training, and management, to its final decommissioning. Other issues and influences, such as the AEC's reactor development policy and the plant's role in the adoption of the light water reactor, are also addressed. The book concludes with a general bibliography. This important new work will be a valuable resource for courses in the history of technology, public policy, technology and society, and technological management. It will also be an important addition to college, university, and public libraries.