1 |
C. Forsberg, P. McDaniel, Variable Nuclear Electricity with Base-Load Reactor, Closed Brayton Power Cycle and Firebrick Resistance-Heated Energy Storage (Fires), Transactions of the American Nuclear Society, June 2016.
|
2 |
C. Forsberg, Hybrid systems to address seasonal mismatches between electricity production and demand in a nuclear renewable electricity grid, Energy Pol. 62 (November 2013).
|
3 |
C. Forsberg, et al., Fluoride-Salt-Cooled High-Temperature reactor (FHR) Comercial Basis and Commercialization Strategy, Center for Advanced Nuclear Energy Systems (CANES), December 2014.
|
4 |
C. Forsberg, Achieving salt-cooled reactor goals: Economics, variable electricity, no major fuel failures, in: Proceedings of the International Congress on Advances in Nuclear Power Plants (ICAPP), May 2015.
|
5 |
D. Curtis, C. Forsberg, Revenue opportunities through ancillary services for nuclear power plants with integrated firebrick resistance-heated energy storage (fires), in: American Nuclear Society (Annual meeting), 114, Transactions of the American Nuclear Society, 2016, pp. 104-106.
|
6 |
C. McDonald, C. Boland, The nuclear closed-cycle gas turbine (htgr gt) - dry cooled commercial power plant studies, J Eng Gas Turbines Power 103 (January 1981) 89-100.
|
7 |
D. Curtis, N. Sepulveda, C. Forsberg, Optimizing short-term operation of a fires-like industrial heat supply thermal energy storage system, in: Transactions of the American Nuclear Society 2016 Annual Meeting, 2016.
|
8 |
C. McDonald, Helium turbomachinery operating experience from gas turbine power plants and test facilities, Appl. Therm. Eng. 44 (2012) 108-142.
DOI
|
9 |
B. Barre, P. Anzieu, R. Lenain, Nuclear reactor systems: a technical, historical and dynamic approach, EDP Sci. (2016).
|
10 |
A. Koster, H. Matzner, D. Nicholsi, {PBMR} design for the future," nuclear engineering and design, in: HTR-2002 1st International Topical Meeting on High Temperature Reactor Technology, vol. 222, 2003, pp. 231-245 no. 23.
|
11 |
A. Vasile, The Astrid Project: Advanced Sodium Technological Reactor for Industrial Demonstration, Commissariat a l'energie atomique et aux energies alternatives (CEA-DEN), May 2015.
|
12 |
P. Liska, G. Cognet, The Allegro Project - European Project of Fast Breeder Reactor, VUJE - CEA, May 2011.
|
13 |
MISO Energy, "Market Reports,", 2015. https://www.misoenergy.org.
|
14 |
R. Greyvenstein, Techno-Economic Comparison of Power Conversion Units for the Next Generation Nuclear Plant, 2005.
|
15 |
G. Haratyk, Nuclear Retirement Decisions Under Uncertainty, Ph.D. thesis, Massachusetts Institute of Technology, July 2017.
|
16 |
Reseau de transport d'electricite (RTE), Consommation francaise d'electricite: caracteristiques et methode de prevision (French) [French electricity consumption: characteristics and forecasting methodology]," Tech. Rep, November 2014.
|
17 |
J. Leisch, J. Cochran, Forecasting Wind and Solar Generation: Improving System Operations, January 2016.
|
18 |
European Power Exchange EPEX SPOT SE, "Market Data,", 2016. http://www.epexspot.com.
|
19 |
C. Andreades, P. Peterson, Nuclear air brayton combined cycle and mark 1 pebble bed fluoride-salt-cooled high-temperature reactor economic performance in a regulated electricity market, Nucl. Eng. Des. (2016).
|