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Please use this identifier to cite or link to this item: http://hdl.handle.net/11375/13982
Title: Simulating SCWR thermal-hydraulics with the modified COBRA-TF subchannel code
Authors: Lokuliyana, Wikumpiya Dinusha
Advisor: Novog, Dave R.
Department: Engineering Physics
Keywords: Thermalhydraulics;Code Development;Subchannel;SCWR;Gen. IV;COBRA;Energy Systems;Heat Transfer, Combustion;Nuclear Engineering;Energy Systems
Publication Date: Apr-2014
Abstract: <p>Among the six GEN-IV reactor concepts recommended by the Gen-IV International Forum, supercritical water-cooled reactors (SCWR) have gained significant interests due to its economic advantage, technology and experience continuity. In the last few years, extensive R&D activities have been launched covering the various aspects of SCWR development, especially in thermal-hydraulic analysis. In Canada, most R&D projects are led by AECL or NRCan.</p> <p>SCWR design and development require the modification of simulation codes used for design and safety demonstration of subcritical water-cooled reactors. This study modifies the subchannel code COBRA-TF, applicable to only subcritical water-cooled reactors, to a new version COBRA-TF-SC, applicable to both supercritical and subcritical water-cooled reactors. Supercritical water property data tables and supercritical water property formulations are implemented. Supercritical water heat transfer and pressure drop correlations are also added. The saturation curve in the subcritical model is extended by introducing a pseudo two-phase region at supercritical pressures to avoid any numerical instabilities consistent with other studies.</p> <p>Some simple fuel bundle experimental data on the flow and temperature distribution are used to evaluate the code. The fuel bundle experiment is simulated with both COBRA-TF-SC and AECL's ASSERT-PV-SC. The COBRA-TF-SC predicted results show good agreement with the experimental data and results obtained from ASSERT-PV-SC, demonstrating good feasibility and accuracy of this code. COBRA-TF-SC is then used to predict the detailed thermalhydraulics behaviour of the 62-element Canadian SCWR fuel bundle design. The advantage of COBRA-TF-SC is that it can accommodate transcritical flow conditions whereas the existing subchannel codes for SCWRs cannot.</p>
URI: http://hdl.handle.net/11375/13982
Identifier: opendissertations/8816
9889
5230250
Appears in Collections:Open Access Dissertations and Theses

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