Advanced Power Ultra-Uprates of Existing Plants (APPU) Final Scientific/Technical Report | |
Rubiolo, Pablo R. ; Conway, Lawarence E. ; Oriani, Luca ; Lahoda, Edward J. ; DeSilva, Greg (Westinghouse Science and Technology Department) ; Hu, Min H. ; Hartz, Josh ; Bachrach, Uriel ; Smith, Larry ; Dudek, Daniel F. (Westinghouse Nuclear Services Division) ; Toman, Gary J, (Electric Power Research Institute) ; Feng, Dandong ; Hejzlar, Pavel ; Kazimi, Mujid S. (Massachusetts Institute of Technology) | |
Westinghouse Electric Company LLC, Science and Technology Department, 1344 Beulah Road, Room 401-2A18, Pittsburgh, PA 15235-5083 | |
关键词: Nuclear Power Plant; Uranium Nitride; Manufacturing; Focusing; Corrosion; | |
DOI : 10.2172/878245 RP-ID : STD-TFNE-06-10 RP-ID : FC07-03ID14535 RP-ID : 878245 |
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美国|英语 | |
来源: UNT Digital Library | |
【 摘 要 】
This project assessed the feasibility of a Power Ultra-Uprate on an existing nuclear plant. The study determined the technical and design limitations of the current components, both inside and outside the containment. Based on the identified plant bottlenecks, the design changes for major pieces of equipment required to meet the Power Ultra-Uprate throughput were determined. Costs for modified pieces of equipment and for change-out and disposal of the replaced equipment were evaluated. These costs were then used to develop capital, fuel and operating and maintenance cost estimates for the Power Ultra-Uprate plant. The cost evaluation indicates that the largest cost components are the replacement of power (during the outage required for the uprate) and the new fuel loading. Based on these results, the study concluded that, for a ?standard? 4-loop plant, the proposed Power Ultra-Uprate is technically feasible. However, the power uprate is likely to be more expensive than the cost (per Kw electric installed) of a new plant when large capacity uprates are considered (>25%). Nevertheless, the concept of the Power Ultra-Uprate may be an attractive option for specific nuclear power plants where a large margin exists in the steam and power conversion system or where medium power increases (~600 MWe) are needed. The results of the study suggest that development efforts on fuel technologies for current nuclear power plants should be oriented towards improving the fuel performance (fretting-wear, corrosion, uranium load, manufacturing, safety) required to achieve higher burnup rather focusing on potential increases in the fuel thermal output.
【 预 览 】
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878245.pdf | 1614KB | download |