2012
DOI: 10.1080/18811248.2011.636564
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Evaluation of high temperature gas reactor for demanding cogeneration load follow

Abstract: Modular nuclear reactor systems are being developed around the world for new missions among which is cogeneration for industries and remote areas. Like existing fossil energy counterpart in these markets, a nuclear plant would need to demonstrate the feasibility of load follow including (1) the reliability to generate power and heat simultaneously and alone and (2) the flexibility to vary cogeneration rates concurrent to demand changes. This article reports the results of JAEA's evaluation on the high temperat… Show more

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Cited by 12 publications
(4 citation statements)
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“…3. Some investigators recommended this option to approach load following and buffer the fluctuations of heat cogeneration for hydrogen production or an oil refinery through accurate coordination of a group of valves that control turbine speed and inlet temperature and pressure (Yan et al, 2012). This option depends on if the turbine can accommodate a large amount of surplus heat and the power grid has a margin for the upload.…”
Section: Heat Release For Safe Start-up and Shutdown Operationsmentioning
confidence: 97%
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“…3. Some investigators recommended this option to approach load following and buffer the fluctuations of heat cogeneration for hydrogen production or an oil refinery through accurate coordination of a group of valves that control turbine speed and inlet temperature and pressure (Yan et al, 2012). This option depends on if the turbine can accommodate a large amount of surplus heat and the power grid has a margin for the upload.…”
Section: Heat Release For Safe Start-up and Shutdown Operationsmentioning
confidence: 97%
“…This option depends on if the turbine can accommodate a large amount of surplus heat and the power grid has a margin for the upload. The maximum buffer capability of surplus heat in past studies (Yan et al, 2012) was about 170 MW th , which is equivalent to about 50 ton/day of hydrogen production according to Table 3. However, the surplus heat disposal requirement for thermochemical cycles is much higher in a shutdown operation for an industrial hydrogen production scale, as shown in Table 3.…”
Section: Heat Release For Safe Start-up and Shutdown Operationsmentioning
confidence: 99%
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“…To continue the power generation over long term, reactor outlet coolant temperature is reduced to 850 °C by inserting the control rods in the core and adjusting flow control valves to increase core flow rate. The reference gives details of this load control operation. The end of the control operation enters the plant operating parameters to exactly those of the standalone power generation plant of GTHTR300.…”
Section: Characterization Of Nuclear Plant Waste Heatmentioning
confidence: 99%