Abokifa, A. A., Yang, Y. J., Lo, C. S. & Biswas, P. 2016. Investigating the role of biofilms in trihalomethane formation in water distribution systems with a multicomponent model. Water Research, 104, 208-219.
Ahn, J., Lee, S., Choi, K. & Koo, J. 2012. Application of epanet for the determination of chlorine dose and prediction of thms in a water distribution system. Sustainable Environment Research, 22, 31-38.
Al-Jasser, A. O. 2011. Pipe service age effect on chlorine decay in drinking-water transmission and distribution systems. Clean - Soil, Air, Water, 39, 827-832.
Beddo, V. C. & Kreuter, F. 2015. A handbook of statistical analyses using spss, Chapman & Hall/CRC Press Llc., USA.
Bensoltane, M. A., Zeghadnia, L., Djemili, L., Gheid, A. & Djebbar, Y. 2018. Enhancement of the free residual chlorine concentration at the ends of the water supply network: case study of Souk Ahras city – Algeria. Journal of Water and Land Development, 38, 3-9.
Boccelli, D. L., Tryby, M. E., Uber, J. G. & Summers, R. S. 2003. A reactive species model for chlorine decay and thm formation under rechlorination conditions. Water Research, 37, 2654-2666.
Boulos, P. F., Vasconcelos, J. J., Rossman, L. A., Clark, R. M. & Grayman, W. M. 1997. Kinetics of chlorine decay. Journal of American Water Works Association, 89, 54-65.
Castro, P. & Neves, M. 2010. Chlorine decay in water distribution systems case study. Lousada network. Electronic. Journal of Environmental, Agricultural and Food Chemistry, 2, 261-266.
Gheybi, M. & Danesh, S. 2007. Indicating the bulk decay reaction order using the non-linear multi-variable regression methods and calculating the reaction constant through an integration of simulink simulation environment and the genetic algorithm (GA). 4th International Conf. of Environmental Planning and Management, Fersowsi Unveristy of Mashhad, Iran. (In Persian)
Fisher, I., Kastl, G. & Sathasivan, A. 2017. A comprehensive bulk chlorine decay model for simulating residuals in water distribution systems. Urban Water Journal, 14, 361-368.
Fisher, I., Kastl, G., Sathasivan, A., Cook, D. & Seneverathne, L. 2015. General model of chlorine decay in blends of surface waters, desalinated water, and groundwaters. Journal of Environmental Engineering, 141, 1-10.
Fisher, I., Kastl, G. & Sathasivan, A. 2011. Evaluation of suitable chlorine bulk-decay models for water distribution systems. Water Research, 45, 4896-4908.
Georgescu, A. M. & Georgescu, S. C. 2012. Chlorine concentration decay in the water distribution system of a town with 50000 inhabitants. Upb Scientific Bulletin, Series D: Mechanical Engineering, 74, 103-114.
Goyal, R. V. & Patelb, H. M. 2017. Optimal location and scheduling of booster chlorination stations for drinking water distribution system. Journal of Applied Water Engineering and Research, 5, 51-60.
Haas, C. N. & Karra, S. B. 1984. Kinetics of wastewater chlorine demand exertion. Journal of The Water Pollution Control Federation, 56, 170-173.
Hallam, N. B., West, J. R., Forster, C. F. & Simms, J. 2001. The potential for biofilm growth in water distribution systems. Water Research, 35, 4063-4071.
Kohpaei, A. J., Sathasivan, A. & Aboutalebi, H. 2011. Evaluation of second order and parallel second order approaches to model temperature variation in chlorine decay modelling. Desalination and Water Treatment, 32, 100-106.
Monteiro, L., Figueiredo, D., Dias, S., Freitas, R., Covas, D. Menaia, J. et al. 2014. Modeling of chlorine decay in drinking water supply systems using Epanet MSX. Procedia Engineering, 70, 1192-1200.
Mostafa, N. G., Matta, M. E., Halim, H. A. & Monteiro, L. 2013. Simulation of chlorine decay in water distribution networks using EPANET – case study. Civil and Environmental Research, 3, 100-116.
Powell, J. C., Hallam, N. B., West, J. R., Forster, C. F. & Simms, J. 2000. Factors which control bulk chlorine decay rates. Water Research, 34, 117-126.
Tiruneh, A. T., Debessai, T. Y., Bwembya, G. C., Nkambule, S. J. & Zwane, L. 2019. Variable chlorine decay rate modeling of the matsapha town water network using EPANET program. Journal of Water Resource and Protection, 11, 37-52.
Vieira, P., Coelho, S. T. & Loureiro, D. 2004. Accounting for the influence of initial chlorine concentration, TOC, iron and temperature when modelling chlorine decay in water supply. Journal of Water Supply: Research and Technology, 53, 453-467.