1. AWWARF., Characterisation and Modeling of Chlorine Decay in Distribution Systems, AWWA, USA, 1996.
  2. J.C. Powell, N.B. Hallam, J.R. West, Performance of various kinetic models for chlorine decay, J Water Resour. Plann. Manage., 126 (2000) 13–20.
  3. N.B. Hallam, Water Quality in Distribution Systems, PhD Thesis, The University of Birmingham, United Kingdom, 1999.
  4. N.B Hallam, J.R. West, C.F. Forster, The potential for biofilm growth in water distribution systems, Water Res., 35 (2001) 4063–4071.
  5. N.B. Hallam, F. Hua, J.R. West, C.F. Forster, J. Simms, Bulk decay of chlorine in water distribution systems, J. Water Resour. Plann. Manage., 129 (2003) 78–81.
  6. J. Menaia, S.T. Coelho, A. Lopes, E. Fonte, J. Palma, Dependency of Bulk Chlorine Decay Rates on Flow Velocity in Water Distribution Networks, 7–12 April, World Water Congress, Melbourne, 2002.
  7. G.I. Mutoti, J.D. Dietz, J. Arevalo, J.S. Taylor, Combined chlorine dissipation: pipe material, water quality, and hydraulic effects, J. Am. Water Works Assn., 99 (2007) 96–106.
  8. H.J. Kim, S.H. Kim, J.Y. Koo, A general framework of chlorine decay modeling at a pilot scale water distribution system, J. Water Supply Res. Technol. AQUA, 64 (2015) 543–557.
  9. H.J. Kim, S.H. Kim, Evaluation of chlorine decay models under transient conditions in a water distribution system, J. Hydroinf., 19 (2017) 522–537.
  10. H.J. Kim, D.W. Baek, S.H. Kim, Chlorine decay in pipeline systems under sequential transients based on probability density function, Desal. Wat. Treat., 99 (2017) 196–203.
  11. C.N. Haas, S.B. Karra, Kinetics of wastewater chlorine demand exertion, J. Water Pollut. Control Fed., 56 (1984) 170–173.