URANIUM 238 DECAY CHAIN

 
Courtesy: WANO

What is CANDU?



CANDU stands for "CANada Deuterium Uranium". 

It's a Canadian-designed power reactor of PHWR type (Pressurized Heavy Water Reactor) that uses heavy water (deuterium oxide) for moderator and coolant, and natural uranium for fuel.
CANDU-features and advantages
  • CANDU is the most efficient of all reactors in using uranium: it uses about 15% less uranium than a pressurized water reactor for each megawatt of electricity produced
  • Use of natural uranium widens the source of supply and makes fuel fabrication easier. Most countries can manufacture the relatively inexpensive fuel
  • There is no need for uranium enrichment facility
  • Fuel reprocessing is not needed, so costs, facilities and waste disposal associated with reprocessing are avoided
  • CANDU reactors can be fuelled with a number of other low-fissile content fuels, including spent fuel from light water reactors. This reduces dependency on uranium in the event of future supply shortages and price increase.
  • Heavy water (deuterium oxide) is highly efficient because of its low neutron absorption and affords the highest neutron economy of all commercial reactor systems. As a result chain reaction in the reactor is possible with natural uranium fuel
  • Heavy water used in CANDU reactors is readily available. It can be produced locally, using proven technology. Heavy water lasts beyond the life of the plant and can be re-used.
  • Reactor core comprising small diameter fuel channels rather that one large pressure vessel
  • Allows on-power refueling - extremely high capability factors are possible
  • The moveable fuel bundles in the pressure tubes allow maximum burn-up of all the fuel in the reactor core
  • Extends life expectancy of the reactor because major core components like fuel channels are accessible for repairs when needed.  
Courtesy: https://canteach.candu.org/

What is Luminescence?



What is Luminescence?
The property of emission of light when a energetic particle impinges on  material (semiconductors)  leading to creation of electron hole pairs and excitation of carriers. When these carriers come to their equilibrium states they emit light.

Mechanism of Recombination

Radiative Recombination

When the excited excess carriers reach equilibrium positions by emission of photons it is said to be Radiative recombination  



Non-Radiative Recombination
When the excited excess carriers reach equilibrium positions by emission of phonons due to surface / bulk defects / other defects it is said to be non-radiative recombination.
 

What Is Activator?

Impurity atom occurring in relatively small concentrations in host material or a small stoichometric excess of one of constituents of material which exhibits the property of Luminescence. 

What Is Killer?

Presence of certain type of impurity may also inhibit Luminescence of other centers, in which case they are referred as killers.

After a particular level of concentration, the efficiency decreases as excess carrier returns to the ground state only if there is no other activator with in a sphere of
radius ‘R’ around central activator atom

Dependence of luminescence efficiency on Activator concentration




CHARACTERISTICS OF A PHOSPHOR

  1. High concentration of carrier traps.
  2. High emission efficiency.
  3. Large trap depth.
  4. Traps, Luminescence & lattice are not to be damaged by repeated irradiation & heating process.