Method for calculating nuclear island variable working condition heat storage increment of pressurized water reactor nuclear power station
A technology of pressurized water reactor nuclear power plant and calculation method, which is applied in the field of calculation of heat storage increment of nuclear island of pressurized water reactor nuclear power plant under variable working conditions, and can solve problems such as research on the ability of primary frequency regulation of nuclear power units without
Active Publication Date: 2019-05-21
ELECTRIC POWER RESEARCH INSTITUTE OF STATE GRID NINGXIA ELECTRIC POWER COMPANY +4
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Problems solved by technology
However, there is no special research on the primary frequency modulation capability of nuclear power units in China.
From a thermodynamic point of view, there is no research on the influence of nuclear power unit nuclear island heat storage variation on primary frequency regulation, and related theoretical calculations and analysis
Method used
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Embodiment 1
[0083] Such as figure 1 As shown, first, using the principle of energy conservation, the primary and secondary loops of the unit and the overall energy balance equation of the nuclear reactor are established, and the key variables that affect heat storage are obtained by analyzing the energy balance equation. Secondly, carry out mathematical modeling on the key variables, and use the obtained mathematical model to calculate the influence of the main variables on the heat storage under variable working conditions; finally, sum the calculated values of all the key variable mathematical models to obtain the nuclear power unit nuclear island variable work Increment of stored heat.
[0084] The specific implementation process is as follows:
[0085] 1. Establish the primary and secondary circuits of the M310 pressurized water reactor nuclear power unit and the overall dynamic heat balance equation of the nuclear island
[0086] (G 1 +G w +dG 1 )·dt+h w0 (D 0 +dD 0 )·dt=h ...
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The invention relates to a method for calculating a nuclear island variable working condition heat storage increment of a pressurized water reactor nuclear power station. The method is characterized by comprising the following steps: (1) establishing an overall energy balance equation of a pressurized water reactor nuclear power unit primary coolant loop, a steam generator secondary side loop anda nuclear reactor by utilizing an energy conservation principle, and analyzing the energy balance equation to obtain a key variable influencing the nuclear island variable working condition heat storage increment of the pressurized water reactor nuclear power unit; (2) mathematical modeling is carried out on the obtained key variables, and the influence quantity of the key variables on the heat storage capacity under the variable working conditions is calculated through the obtained mathematical model; and (3) summing the calculated values of all the key variable mathematical models to obtainthe increment of the heat storage capacity of the nuclear power unit under the variable working condition of the nuclear island, thereby completing the calculation. By means of the calculation method,the problem that the nuclear power unit does not have a real machine test is effectively solved, and the calculation method capable of obtaining the nuclear island variable working condition heat storage increment of the nuclear power unit is provided.
Description
technical field [0001] The invention relates to a method for calculating heat storage increment of a nuclear island of a pressurized water reactor nuclear power plant under variable operating conditions. Background technique [0002] As the installed capacity of nuclear power continues to increase, the proportion of nuclear power in the Yanhai power grid is increasing. In some provinces, nuclear power installed capacity has accounted for more than 50% of the total installed capacity in the province. The existing nuclear power units all have the function of primary frequency regulation, but due to the particularity of the nuclear power unit itself, the dead zone of the primary frequency regulation of nuclear power units operating in China is very large. Therefore, for power grids with a high proportion of nuclear power, the security and stability of the power grid has become very prominent. For safety considerations during the operation of nuclear power units, it is propose...
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IPC IPC(8): G06F17/50G06Q10/06G06Q50/06
CPCY02E30/00
Inventor 丁振宇苏毅于大海徐振华陶向宇何凤军陈巍宋少群徐文余秀月黄兴夏潮马晓光田永兴李学智刘建华黄道姗杜磊王鹏丁海丽李文娜陈清乔炜哈志坚蒯长文陈建科王超黄霆张健江伟林因
Owner ELECTRIC POWER RESEARCH INSTITUTE OF STATE GRID NINGXIA ELECTRIC POWER COMPANY
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