@article{oai:fit.repo.nii.ac.jp:00000625,
 author = {服部, 毅範 and 篠田, 鼎 and 保坂, 昌克},
 issue = {1},
 journal = {福岡工業大学研究論集, RESEARCH BULLETIN OF FUKUOKA INSTITUTE OF TECHNOLOGY},
 month = {Sep},
 note = {application/pdf, 論文(Article), It is shown that the tap water before electrolysis has higher RC (residual chlorine) and ORP (oxidation reduction potential) than other solutions. Change of RC and ORP after electrolyzing the tap water and salt solution is described. 
RC after electrolysis: in anode tube, since RC is influenced by pH, RC with the salt solution of 2.0 and l.Og/R becomes higher than RC of the tap water. In cathode tube, RC tends to disappear.
ORP after electrolysis: in anode tube, ORP of tap water is higher than the salt solution electrolyzed for 150minutes. This shows that the tap water and chlorine react to each other and works as activated 
chlorine with strong oxidation force. In cathode tube, ORP of tap water and the salt solution decrease rapidly and change from the oxidation state to reduction state. Thus, as long as the tap water is chlo­rinated, it is crucial to set an upper limit to the amount of chlorine to be used.},
 pages = {19--26},
 title = {水環境に及ぼす残留塩素の影響について},
 volume = {37},
 year = {2004}
}