CIMdata PLM Industry Summary Online Archive
6 August 2007
Implementation Investments
ITER Selects ANSYS Solutions for Design of Experimental Nuclear Fusion Facility
ANSYS, Inc. announced that the multinational organization ITER has adopted software from ANSYS to validate the design of its international fusion power plant development project. ITER aims to demonstrate the scientific and technical feasibility of fusion power. The partners in the project -- called the ITER Parties -- are the European Union, Japan, the People's Republic of China, the Republic of India, the Republic of Korea, the Russian Federation and the U.S.A. ITER will be constructed in Europe at Cadarache in the south of France.
Engineering simulation solutions from ANSYS will be used to accelerate research and development by optimizing key components of the experimental fusion reactor. Researchers will use the broad and linked simulation capabilities within the ANSYS Workbench platform to conduct dynamic analyses, nonlinear thermal analysis, electro-magnetic analyses, coupled field analyses and nonlinear structural analyses of the facility. Construction and commissioning of the project is expected to take about eight years, once a construction license is granted in early 2009.
"Our experience has shown that ANSYS software gives engineers the opportunity to analyze all kinds of engineering problems in an efficient and flexible manner. The analyses performed to date have provided invaluable information about the mechanical behavior of the ITER components, such as the magnet system, vacuum vessel, divertor and other components," said Cornelis Jong, mechanical engineer in the magnet division at ITER. "These tools will contribute to ITER's success, leading to large-scale nuclear power without a long-term nuclear waste stream -- which would be a monumental environmental and economic achievement in the 21st century."
The ITER fusion reactor is based on the tokamak concept, in which low-temperature superconducting coils are positioned around a toroidal vessel. These coils produce magnetic forces that confine hot plasma long enough to generate 10 times more power through fusion than required to keep it hot.
ITER intends to demonstrate that fusion could be used to generate electrical power; the aim of the project is to gain the necessary data to design and operate the first electricity-producing fusion plant.
"We at ANSYS are excited to be providing single-platform multiphysics CAE solutions to the ITER organization, and to be taking part in the quest for a clean and abundant energy source for the future," said Chris Reid, vice president, marketing at ANSYS, Inc.
For downloadable, high resolution images, visit http://www.ansys.com/newsimages
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