Table | Card | RUSMARC | |
Allowed Actions: –
Action 'Read' will be available if you login or access site from another network
Action 'Download' will be available if you login or access site from another network
Group: Anonymous Network: Internet |
Annotation
Выполнено проектирование атомной электростанции мощностью 3200 МВт с реакторами типа BWR-800. Произведен выбор основного и вспомогательного оборудования энергоблока. Осуществлен расчет тепловой схемы энергоблока АЭС на номинальном режиме работы и при работе на 50% от номинальной мощности. Проведены геометрический, нейтронно-физический и теплогидравлический расчеты реактора. Осуществлено определение технико-экономических показателей проектируемой атомной электростанции. Осуществлена компоновка и выбор электрооборудования АЭС. Рассмотрены вопросы охраны труда. Выполнена графическая часть дипломного проекта.
Subject of diploma project is a design of NPP with a capacity of 3200 MW and with nuclear reactors BWR-800. It is necessary to choose main and auxiliary equipment and make geometrical, neutron-physical, thermal-hydraulic and economic calculations. The ABWR was chosen as a prototype. Neutron-physical parameters were calculated by four-group approximation method, cell calculation and homogenization technique, «first collision» method, Amuayal-Benua-Gorovets technique, Honeck technique. As a comparison of the results, also the calculations were made in the programming package “SAPPHIRE”.The distribution of the energy release, the temperature changes of the coolant, fuel element cladding, in the center of fuel pellet were determined by the thermal-hydraulic calculation. Technical and economic parameters calculation allowed to estimate the cost of the NPP construction and other economic figures. Subject of special task is sealed storage of spent fuel assembly in the cooling pool of Leningrad NPP. The storage scheme for spent fuel assemblies in the cooling pools of the Leningrad plant is studied in detail. The calculations resultsof the infinite multiplication factoron the burnup of fuel for cooling pools with sealed storage of SFA. Designed BWR-800 reactor is safe from the point of view of neutron-physical and thermo-hydraulic calculation results. On the basis of technical and economical resultsit can be approved that the cost of electricity is quite low, the projected NPP has reasonable pay-back period. It can be expected that the creation of the reactor facility based on ABWR is advisable.
Document access rights
Network | User group | Action | ||||
---|---|---|---|---|---|---|
ILC SPbPU Local Network | All | |||||
Internet | Authorized users SPbPU | |||||
Internet | Anonymous |
Usage statistics
Access count: 191
Last 30 days: 0 Detailed usage statistics |