Chlorination has been the most widely used technology for the disinfection of drinking
 water around the world. The main purpose for the disinfection of drinking water is to
 protect it against microbial contamination in the distribution systems and to prevent or at
 least control re-growth of microorganisms in the pipelines.
 A major disadvantage of chlorination is the formation of a wide variety of halogenated
 compounds from natural organic matter (Rook, 1974; Christman et al., 1983). Some of
 these by-products, namely trihalomethanes, 1,2-dichloroethane, trichloro- and
 tetrachloro-ethene have diverse negative effects on human health, including toxicological,
 mutagenic and carcinogenic effects, as well as induction of congenital malformations and
 retarded fetal growth (Boorman et al., 1999). Current regulations in Europe demand a
 target of 100 μg l-1 for trihalomethanes (THMs), 3 μg l-1 for 1,2-dichloroethane, 10 μg l-1
 for the sum of trichloro- and tetrachloroethene, 1 μg l-1 for benzene and include all the
 prementioned compounds in the category of volatile organic compounds (VOCs).
 Since September 2003, the city of Thessaloniki and its suburbs are partly supplied with
 drinking water from the Thessaloniki Water Treatment Plant (TWTP), which takes raw
 water from the river Aliakmonas. This study presents the regular monitoring results at the
 TWTP during the period February 2004 – February 2005 for THMs and VOCs included in
 the European guidelines. At the same time, parameters such as pH, temperature,
 chlorine demand, total organic carbon (TOC) and contact time (tR) were monitored.