Influence of Cleaning Time in Household Reservoirs on Trihalomethane Formation in Treated Water

Chlorination is an efficient and low-cost technique in disinfecting water for public water supply. However, during the process, the formation of undesirable by-products called halogen compounds, such as trihalomethanes (THMs), occurs. Some of these compounds are proven to be carcinogenic to laboratory animals. The goal of this study was to investigate the occurrence of THMs in household reservoirs and the influence of cleaning time of these reservoirs on the formation of THMs. A total of 103 households were investigated in the city of Maringá, State of Paraná, Brazil. The residences were classified according to the cleaning time of the reservoir into: up to one year, one to two years and more than two years. Samples were taken from the reservoirs and total trihalomethanes (THMt) were analyzed by gas chromatography (GC-MS), total organic carbon (TOC) by means of a Hach kit for low concentrations and free residual chlorine (CLres) by means of a kit for in loco determination. According to the results, the highest concentrations of THMt were observed in the reservoirs with cleaning time of more than 2 years. However, no amount has exceeded the maximum limit allowed by law. In general, the longer the time for cleaning the reservoir, the greater the degradation of water quality in THMt.


Introduction
The chlorination process is a very efficient way for water disinfection for public supply, providing among other benefits, the reduction of infant mortality due to enteric diseases [1] [2].However, there is the disadvantage of forming undesirable products called halogen compounds, such as trihalomethanes (THMs), haloacetic acids, halopicrins, cyanogen chloride, among many others [3] [4].
THMs are small molecules made up of atoms of carbon, hydrogen and elements of 7A (chlorine and bromine are the most common).These are compounds that correspond to the substitution of hydrogen atoms in the methane molecule by elements of 7A.The term total trihalomethanes (THMt) is the algebraic sum of four compounds: trichloromethane, bromodichloromethane, dibromochloromethane and tribromomethane [1].
The formation of THMs has a primary relationship with eutrophication of aquatic systems and their increase is related to the concentration of organic matter, precursor source of these compounds.Some studies have shown that eutrophic reservoirs have about 30% more trihalomethane precursors than noneutrophic ones [5] [6] [7] [8].
Many of the by-products from chlorination, including THMs, are potentially carcinogenic, mutagenic and capable of being bioaccumulated in trophic chains [2] [9] [10] [11].Experiments in animals have demonstrated the mutagenic and carcinogenic character of THMs, leading to the belief that it may occur in humans [12].
The maximum allowable THM in drinking water varies among different countries.In the United States it is 80 μg/L; in the Netherlands, 75 μg/L; in Germany, 25 μg/L and in France, 10 μg/L [12].In Brazil, the limit is set at 100 μg/L for the potability standard [1].
In several parts of the world, there are studies on the occurrence of THMs in treatment plant waters, distribution networks and in water reservoirs [10] [13]- [22].Nevertheless, few report the occurrence of THMs associated with the cleaning time/residence time of the water in the reservoir [23].
The investigation of THMs at the Water Treatment Station (WTS) in Maringá, State of Paraná, Brazil [24] showed that these compounds were present in all stages of treatment, with a mean concentration of 57 μg/L.Thus, the goal of this study was to analyze the occurrence and concentration of THMt and the respective influence of organic matter and free residual chlorine on the formation of these compounds in household reservoirs in the city of Maringá, Brazil.

Collection of Water Samples in the Study Region
The study was carried out in household reservoirs (Figure 1) in a region close to the Water Treatment Station.The distribution network is composed of exclusively cast-iron tubing (Figure 2).
In the studied region (Figure 2), in the residences with reservoir, was evaluated the concentration of THMt, total organic carbon and free residual chlorine in relation to the cleaning time of the reservoir.The cleaning time of the reservoir was considered up to one year, more than one year and less than two years and more than two years.
From each house investigated, 200 mL water from the distribution network were collected at the point of water inlet into the household from the distribution network and 200 mL water were collected from the household reservoir (Figure 1).
According to studies conducted by USEPA, National Risk Management Laboratory [25], cast iron pipes tend to provide higher increases in THMs compared to PVC pipes.

Water Analysis
Total trihalomethanes (THMt), total organic carbon (TOC) and free residual chlorine (CLres) were analyzed in the water samples collected at the point of water inlet into the residence (from the distribution network) and in the household reservoirs.
For determination of THMt, the samples were collected in triplicate using 40 mL glass bottles with a screw cap and silicone septum.Upon collection, care was taken to fill the vial completely so as to avoid air bubbles in the sample.In  addition, the vials contained free residual chlorine sequestrant (sodium thiosulfate p.a., Na 2 S 2 O 3 ) in order to cease the reaction of residual chlorine with the organic matter after taking the sample.After the collection, the vials were stored in thermal boxes.The THMt analyses were performed using Purge-and Trap Capillary Gas Chromatography (GC), and detection and quantification by mass spectrometry (MS) according to Method 6200-B, Standard Methods of Water and Wastewater [26].
To determine total organic carbon (TOC) the analyses were performed using the Hach kit for low concentrations (0.0 to 20.0 mg/L), with reading in a UV-VIS spectrophotometer at 600 nm, method 10.129, Manual Hach.

Results and Discussion
Water from 103 households was analyzed according to the cleaning time of the reservoir as up to one year, between one and two years and more than two years (Table 1).
In Figure 3, MC represents the mean THMt of the samples for the point of water inlet into the house and MR is the mean THMt for the reservoirs.In the time axis, 1, 2 and +2 represent the cleaning time of the reservoir in up to one year, one to two years and more than two years, respectively.Higher mean values of THMt were obtained in all studied reservoirs compared to the values in the respective entries of the residences.The largest difference was found for the cleaning time of the reservoir in more than two years.Possibly this value was higher due to the longer time provided for the reaction inside the reservoirs.However, no value found for this class exceeded the maximum allowed by   Brazilian legislation, 100 μg•L −1 , according to Consolidation Ordinance 5 of Ministry of Health [1].
A study [28] found that tap water from different parts of the city had mean THMt values ranging from 48 to 123 μg•L −1 .In general, European countries do not use household reservoirs, but rather use underground reservoirs of large capacity distributed across the city.The household reservoirs are mainly used in Latin America.
Another study [23] reported an increase from 27 to 46 μg•L −1 in THMt (increase of 19 μg•L −1 ) in water samples that had a residence time of about 50 h in storage reservoirs in a building (one underground and one upper).This increase of 19 μg•L −1 is high when compared to the increases of THMt at the water inlet of the residence to the reservoir, obtained herein.
Analyses of total organic carbon (Figure 4) show a reduction in TOC concentration from the inlet of water into the residence to the reservoir, in all cases.For all cleaning times of the studied reservoirs, lower TOC concentrations were obtained in the reservoirs when compared to the respective water inlets.This fact possibly indicates that this reduction is related to the reaction of organic matter with the free residual chlorine in the formation of THMs.
Behavior similar to that of TOC was obtained for free residual chlorine analysis (Figure 5).By means of the results of Figure 5 in all reservoirs, lower free residual chlorine values were obtained when compared to the respective water   inlets.For reservoirs with a cleaning time of more than two years, a mean value of 0.1 mg•L −1 was obtained, which was the lowest mean obtained.This value can be associated with the reaction with organic matter and losses by volatilization in the reservoir.
The legislation in force in Brazil [1] regulates a minimum value of 0.2 mg•L −1 at any point in the distribution network that provides water for entry into the residence.Note that the values at the point of water inlet into the residences are well above 0.2 mg•L −1 (water from the distribution network).If on the one hand, a higher concentration of chlorine results in a better disinfection, on the other, it provides a higher production of THMs.
When analyzed together, the behavior observed in the decrease in TOC values and free residual chlorine from the water inlet into the residence to the reservoir, indicates (considering the losses) that there was an expressive increase in THMt

Conclusions
In all THMt analyses, the mean concentration increases from the water inlet into the house to the reservoir.This shows that the reservoir contributes to increasing the concentration of THMt in the water consumed by the user (not only orally but also by contact during bathing).It is observed, therefore, that the household reservoir acts as a reaction medium for the formation of THMs, providing the reaction time sufficient for the concentration to almost double the value found at the point of water inlet into the residence.
The reductions in TOC from the point of water inlet into the house to the reservoir indicate that there is possibly consumption of organic matter in reaction with free residual chlorine, forming THMs.This indicates that, the longer the contact time of organic matter with free residual chlorine is, the higher the concentration of THMs formed will be.
In general, the longer the time elapsed for cleaning the reservoir is, the greater the degradation of water quality considering THMs is.

Figure 1 .
Figure 1.Schematic representation of the household reservoir and point of water inlet into the house.

Figure 3 .
Figure 3. THMt concentration at the point of water inlet into the residence and at the household reservoir.

Figure 4 .
Figure 4. Total organic carbon at the water inlet into the residence and at the household reservoir.

Figure 5 .
Figure 5. Free residual chlorine at the point of water inlet into the house and at the household reservoir.
et al.DOI: 10.4236/jwarp.2019.11110801395 Journal of Water Resource and Protection production in the reservoirs possibly because of such reductions.This shows that the household reservoir contributes to the degradation of water quality in relation to the formation of THMs.This fact is intrinsically related to the cleaning time of the reservoir.The longer the interval cleaning time is, the greater the water quality degradation is.

Table 1 .
Houses in the study area.