Physicsissuef said:I read that but still can't understand what does it mean to keep constant the neutrons number. Please give me any example.
The effective neutron multiplication factor, also known as k-effective or k-eff, is a measure of the number of neutrons produced in a nuclear reactor per neutron absorbed by the fuel. It is a crucial parameter in determining the stability and efficiency of a nuclear reaction.
The effective neutron multiplication factor is calculated by comparing the number of neutrons produced in a given time interval to the number of neutrons absorbed in the same time interval. This calculation takes into account factors such as the neutron flux, the cross sections of the fuel materials, and the geometry of the reactor.
The effective neutron multiplication factor is a key factor in determining the criticality of a nuclear reactor. If the value of k-effective is greater than 1, the reactor is considered to be critical and the nuclear chain reaction will sustain itself. If the value is less than 1, the reactor is subcritical and the reaction will eventually die out. Maintaining a k-effective value close to 1 is important for safe and efficient operation of a nuclear reactor.
The effective neutron multiplication factor can be used to control the power output of a nuclear reactor. By adjusting the amount of neutron-absorbing control rods in the reactor, the value of k-effective can be changed. This allows operators to increase or decrease the number of neutrons produced, which in turn affects the power output of the reactor.
The value of the effective neutron multiplication factor can vary depending on the type of reactor and the nuclear fuel being used. For example, a fast breeder reactor may have a higher value of k-effective compared to a light water reactor, due to the use of different fuel and the presence of a neutron moderator. The specific design and operation of a reactor will also affect its k-effective value.