Modelling spur chemistry for alkaline and acidic water at high temperatures

The effect of pH and associated ionic strength on the primary yields in the radiolysis of pressurised water has been assessed by diffusion-kinetic calculations for temperatures in the range 100-300A degrees C. Account has been taken for ionic strength I up to 0.1 mol kg(-1), assuming that the counter ions of H+ in acid solutions and of OH- in base solutions have unit charge. In acid solutions, the H+ ions react with e(-) (aq). The decrease in G(e(-) (aq)) and the increase in G(H) with decreasing pH becomes substantial for [H+] a parts per thousand yen 1 x 10(-4) m, but the primary yields of oxidising species are almost constant. In alkaline solutions, the OH- anions affect the spur chemistry of radiation-generated protons and hydroxyl radicals for [OH-] a parts per thousand yen 1 x 10(-4) m. The scavenging of H atoms and hydrogen peroxide becomes significant for [OH-] a parts per thousand yen 1 x 10(-2) m. The total yields G(OH) + G(O-) and G(H2O2) + G(HO2 (-)) are independent of base concentration below 0.01 m. In more alkaline solutions, G(OH) + G(O-) increases, whereas G(H2O2) + G(HO2 (-)) decreases with increasing [OH-]. Calculations showed the substantial yield of the reaction O- + e(-) (aq) in 0.1 m base solution. Spur chemistry in alkaline hydrogenated water is not affected by the presence of H-2 if less than 0.001 m of hydrogen is added.