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Web-Based Computational Model Builder for Nuclear Energy Advanced Modeling and Simulation

Award Information
Agency: Department of Energy
Branch: N/A
Contract: DE-SC0012037
Agency Tracking Number: 0000219257
Amount: $999,998.00
Phase: Phase II
Program: SBIR
Solicitation Topic Code: 19d
Solicitation Number: DE-FOA-0001258
Timeline
Solicitation Year: 2015
Award Year: 2015
Award Start Date (Proposal Award Date): 2015-07-27
Award End Date (Contract End Date): 2017-07-26
Small Business Information
28 Corporate Drive
Clifton Park, NY 12065-8688
United States
DUNS: 109262070
HUBZone Owned: No
Woman Owned: No
Socially and Economically Disadvantaged: No
Principal Investigator
 Sebastien Jourdain
 Dr.
 (518) 371-3971
 sebastien.jourdain@kitware.com
Business Contact
 Vicki Rafferty
Title: Dr.
Phone: (518) 371-3971
Email: contracts@kitware.com
Research Institution
N/A
Abstract

According to the World Nuclear Association, the U.S. is the largest producer of nuclear power worldwide. In fact, the U.S. provides over 30 percent of the worlds nuclear generation of electricity. Although few new reactors have been built in the past 30 years, the association anticipates that four to six reactors may be built by 2020. The first of the reactors will be built in response to 16 license applications, which have been completed since 2007, to build 24 additional nuclear reactors. Currently, both government and industry are working to accelerate approval for the construction and design of new nuclear energy plants. The U.S. nuclear industry has already achieved significant developments in the implementation of nuclear power plants due to advancements in refueling, maintenance, and safety systems at current power plants. Meanwhile, changes in government policy, which have occurred since the late 1990s, have provided for noteworthy expansion in nuclear capacity. For example, the Energy Policy Act of 2005 evoked investment in electricity infrastructure such as nuclear power. Today, the importance of nuclear power in the U.S. is a geopolitical matter as much as it is an economic one. This is due to the notion that increasing the use of nuclear power reduces the U.S.s reliance on imported oil and gas. In order to design future systems and continue operational improvements at existing U.S. plants, advanced modeling, and simulation of nuclear power reactors is crucial. In this proposal, we will develop a full-featured open-source Cloud/Web-based simulation environment for nuclear energy advanced modeling and simulation. Our approach simplifies the workflow, elevates the need for in-house computational science and engineering experts, and lowers the capital investments required for advanced modeling and simulation. The Cloud/Web-based simulation environment simply guides end-users and developers through the advanced modeling and simulation lifecycle. In addition to providing significantly improved, intuitive software, the environment offers reproducible workflows where the full path of data from input to final analyzed results can be saved, shared, and even published as supporting information. The work proposed here addresses current deficiencies for utilizing advanced modeling and simulation by building a flexible, open-source Cloud/Web-based simulation environment or framework that stresses interoperability and ease-of-use. In particular, we are targeting nuclear energy, engineering, and manufacturing firms that can clearly benefit from this technology, given that we will make these tools easier to use, reduce the need for in house expertise, and reduce the overall capital costs of using advanced modeling and simulation.

* Information listed above is at the time of submission. *

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