Moderator, neutron

Beryllium is added to copper to produce an alloy with greatly increased wear resistance it is used for current-carrying springs and non-sparking safety tools. It is also used as a neutron moderator and reflector in nuclear reactors. Much magnesium is used to prepare light nieial allo>s. other uses include the extraction of titanium (p. 370) and in the removal of oxygen and sulphur from steels calcium finds a similar use. 

The overwhelming majority of carbon utilized in nuclear reactors is in the form of graphite for the neutron moderator and reflector. However, several other applications of carbon are noteworthy, and are briefly discussed here. 

Disposal BS and ASTM methods Range of methods including Microwave attenuation Capacitance Resistivity Infra-red absorption Neutron moderation... 

Heavy water (p. 39) is now manufactured on the multikilotonne scale for use both as a coolant and neutron-moderator in nuclear reactors its absorption cross-section for neutrons is much less than for normal water [Pg.623]

Although protons are veiy efficient neutron moderators, they also efficiently capture neutrons to form hound proton-neutron pairs called detiterons. Reactors using ordinary water for the moderator compensate for neutron capture by using fuel enriched to about 3 percent U. 

S. Helf, Measurement of Low Concentrations of Moisture by Fast Neutron Moderation ,. Internation Journal of Applied Radiation isotopes 20, 229—39 (1969) 43) S.M. Brock-... 

Neutron irradiation of silicon, 22 487 of vitreous silica, 22 435 Neutron moderators, deuterium application, 8 460... 

Nuclear reactors are classified by their neutron energy level (thermal or fast reactors), by their coolant (water, gas, liquid metal) and by their neutron moderator (light water, heavy water, graphite). Most existing plants are thermal reactors using pressurised (PWR) or boiling water (BWR) as a coolant and moderator PWR and BWR together represent more than 80% of the commercial nuclear reactors today, of which PWR accounts for 60% alone (Olah et al., 2006). 

In fast (neutron) reactors, the fission chain reaction is sustained by fast neutrons, unlike in thermal reactors. Thus, fast reactors require fuel that is relatively rich in fissile material highly enriched uranium (> 20%) or plutonium. As fast neutrons are desired, there is also the need to eliminate neutron moderators hence, certain liquid metals, such as sodium, are used for cooling instead of water. Fast reactors more deliberately use the 238U as well as the fissile 235U isotope used in most reactors. If designed to produce more plutonium than they consume, they are called fast-breeder reactors if they are net consumers of plutonium, they are called burners . 

The extraction of deuterium from natural water feed forms an excellent case study of the application of large scale distillation and exchange distillation to isotope separation. The principal historical demand for deuterium has been as heavy water, D20, for use in certain nuclear reactors. Deuterium is an excellent neutron moderator, and more importantly, it has a low absorption cross section for slow neutrons. Therefore a reactor moderated and cooled with D20 can be fueled with natural uranium thus avoiding the problems of uranium isotope enrichment. This was the... 

It was detected by Urey, Brickwedde and Murphy in 1932. It occurs in all natural compounds of hydrogen including water, as well as in free hydrogen molecules at the ratio of about one part per 6,000 parts hydrogen. The principal application of deuterium is in tracer studies for measuring rates and kinetics of chemical reactions. It also is used in thermonuclear reactions and as a projectile in cyclotrons for bombardment of atomic nuclei to synthesize isotopes of several transuranium elements. Deuterium oxide, D2O, or heavy water is used as a neutron moderator in nuclear reactors. 

Cerium and yttrium hydrides were successfully tried as neutron moderators because of their temperature stability. 

The paper of 1939 [1 ], On the Chain Decay of the Main Uranium Isotope, studies the effects of elastic and non-elastic neutron moderation and concludes that chain fission reactions by fast neutrons in pure metallic natural uranium are impossible. The 1940 paper, On the Chain Decay of Uranium under the Influence of Slow Neutrons [2 ], is classic in the best sense of this word its value is difficult to overestimate. The theoretical study performed showed clearly that the effect of resonance absorption of neutrons by nuclei of 238U is a governing factor in the calculation of the coefficient of neutron breeding in an unbounded medium it was concluded that a self-sustained chain reaction in a homogeneous natural uranium-light water system is impossible. 

Ya.B. s unpublished 1943 paper, The Age Theory of Neutron Moderation, is closely related to his studies of the war period. The age theory, developed independently of E. Fermi, forms the basis for calculation of a reactor by slow neutrons. It was in this paper that the famous age equation was obtained. 

Using this fast neutron moderation technique, relative count rates vs % H20 are shown in Fig 15 for four different powdered solids with sand included as a basis for comparison. The lowest exptl point on each curve represents the lowest water content at which an increase in count rate of at least 500 counts/min was obtained over the completely dry solid... 

Fast neutron moderation measurements were made with the gauge described above (Ref 13). 

A sketch of a thermal neutron transmission gauge is shown in Fig 16. It contains the same basic components as a fast neutron moderation gauge... 

In fast neutron moderation, the count rate should increase with a hydrogenous sample between source and detector, whereas the reverse is expected for thermal neutron transmission. These measurements show that thermal neutron... 

Fast Neutron Moderation and Thermal Neutron Transmission for Charge Weight Measurement... 

Charge 3 Hydrogen Content, % Bulk Density Hydrogen Density Increase in Count Rate by Fast Neutron Moderation, % Decrease in Count Rate by Thermal Neutron Transmission, %... 

Attention should be given to a reduction in the neutron moderators located close to the package being processed because of the high probability for producing radioactivities by slow neutron absorption. 

Further applications teaching agent, neutron moderator and reactor coolant, solvent, working ... 

Boiling Water Reactor A type of nuclear power reactor that uses ordinary water for both the coolant and the neutron moderator. The steam is used to directly produce electricity through generators. 

---