EFFECTS OF RADIATION ON WATER CHEMISTRY (SYNTHESIS)

H₂O radiation e H₂O Reactor Water Chemistry DOE-HDBK-1015/2-93 EFFECTS OF RADIATION ON WATER CHEMISTRY (SYNTHESIS) Rev. 0 CH-03 Page 1 EFFECTS OF RADIATION ON WATER CHEMISTRY (SYNTHESIS) Radiation synthesis is a process that takes place in the reactor coolant system. This phenomenon is limited to the reactor coolant system because of the high flux (radiation) levels that exist in the core region and further complicate chemistry control of the reactor plant. EO 1.1 DESCRIBE the process of radiolytic decomposition and recombination of water. EO 1.2 DESCRIBE the process of radiolytic decomposition and recombination of nitric acid and ammonia. EO 1.3 STATE the advantage of maintaining excess hydrogen in reactor water. EO 1.4 STATE the three sources of radioactivity in reactor water and each one's decay product. Interaction of Radiation As reactor coolant water passes through the core region of an operating reactor, it is exposed to intense radiation. The major components of the radiation field are neutrons, protons, gamma rays, and high energy electrons (beta particles). These types of radiation interact with the coolant water primarily by an ionization process and have a marked effect on the water itself and on the chemical reactions between substances dissolved in the water. This section discusses these effects, and in particular the effects that involve gases dissolved in reactor coolant. The interaction of radiation with matter produces ion pairs. Usually, the negative member of the ion pair is a free electron and the positive member is a polyatomic cation, the exact nature of which depends on the particular substance being irradiated. For example, the interaction of radiation with water is illustrated by the following reaction. (3-1)