Journal of School of Public Health and

---

Bromide which is present in many water resources has the potential to create adverse health effects after water disinfection by oxidizing agents, and it is considered to be the most important mineral in this respect. Bromide removal is not feasible in conventional water treatment plants. This survey with the aim of removing Br" from water has been accomplished by performing pilot tests in which a GAC fixed - bed contactor and two different resins have been employed. Synthetic water samples of known concentrations of Br" (1-10 mgL -&apos) and TDS (250 - 1000 mg/L-1) have been treated, at the first phase of this study.
Results showed that the best efficiency of GAC treatment was for samples having more than 1 mgL"1 Br" and less than 1000 mgL-1 TDS.
At the second phase of the study, a strong anionic-cathionic resin had been used for Br" removal. Either low or high concentrations of Br", in the influent a considerable reduction in Br" content was always observed at the first 5 minutes of contact.
At the third phase of the study a weak anionic resin (WBA) has been employed. Using this resin in the treatment of synthetic samples proved that WBA is also very effective for Br" removal during 10 min contact while , Br- was reached less than 0.4 mgL"1 . Simultaneous removing of TDS was also showed well efficiency. However, TDS has never decreased to near zero as it was possible for the strong resins.
Finally in the 4th phase of this research, natural samples from four water resources supplying potable water for the city of Qom have been chosen to continue the process of Br" removal by above-mentioned pilots. Despite of high levels of TDS of the samples, there was no important problem in the process of Br" treatment. The acceptable removal efficiencies of bromide were minimum 50% and maximum around 100% .

---

Background and Aim: Discharge of Wastewater of Cleaning Industries to environment with special physicochemical characteristics has negative effects and in the other hand is not easily biodegradable because in these wastewaters ratio BOD5/COD is low and therefore biological treatment of them is difficult. Nowadays best method for degradation of Wastewater is advance oxidation processes .In this study investigated efficiency of Fenton process in remove anionic detergent and COD and improved from ratio of BOD5/COD.

Materials and Methods: This investigating is descriptive- empirical study that paksan factory was local sampling of wastewater. 30 wastewater composite sample24hr were taken during study period and then chemical characterization was performed by determining the following parameters: (COD, BOD, MBAS, PH, T) Then Sample of row wastewater were prepared and used in the experiments for determining the efficiency of Fenton process in treatment. Treatment experiments performed by use of various concentrations of H2O2 and ferrous iron at constant pH of 3and temperature of 25 in a jar test apparatus adjusted at 200 rpm and for contact time 60 min. Fe+2 on removal (COD, MBAS & BOD ) applied ANOVA. and after that for analysis of effect H2O2

Results: The results of analyze showed that the concentrations of COD, ranging from 6254-13040 mg/l and concentration of BOD was 2590-3200mg/l and concentrations of MBAS were 245-1120 mg/l and results showed that the BOD5/COD ratio was 0.34±0.09. At constant pH of 3 and temperature of 25 for contact time 60 min, about 40% of MBAS with first concentration 470 mg/l removed by H2o2 with concentration1800and fe+2 with concentration 340 mg/l .concentration of COD reduced from 8750 to 5998 mg/l, and the ratio of BOD5/COD improved from 0.334 to 0.340.

Conclusion: Wastewater from this industry has quality characteristics with deferent ranging and high organic load and because of high concentration of foaming that prohibit of oxygen infiltration in wastewater and nonbiodgredable material. These wastewaters are not easily subjected to conversation system of biological treatment therefore suitable method for treatment of this wastewater should reduce organic load foaming and improve ratio of BOD5/COD advance oxidation process is one method with good efficiency for treatment of this wastewater.

---

Background and Aim: Domestic violence against women is a major health problem, as well as a violation of human rights. It adversely affects the physical, mental, and social well being of women, families and communities. This phenomenon exists in all countries around the world. Although its prevalence, strength, types, effects, and risk factors are different, it is not limited to any geographical zone or distinct social class. This article presents the views of Tehrani couples and experts on underlying factors causing domestic violence against women in Iran and action to be taken for prevention.
Materials and Methods: This qualitative study was carried out through eight FGD meetings, in 2 days, with the participation of 50 couples. The couples were divided into 8 groups based on sex, education, and history of violence. Results of the FDGs were categorized and analyzed. Data were discussed in group meetings of 50 experts in different fields, such as health, medicine, law, education, and Islamic studies, from academic, policy making, governmental executive, and women's affairs organizations, divided into three groups of community general education and information dissemination, health system, and judiciary system. Results were discussed and finalized in a general meeting.
Results: The couples and experts identified underlying factors in 4 categories socio-cultural, economic, legal, and medical. Actions to be taken for prevention and control were believed to be educational, legal, and supporting services.
Conclusion: On the basis of the findings of this study, it was suggested that strategies/actions/services to solve the problem and reduce harm should include providing appropriate information and education for couples and the community emphasizing the health system responsibility empowering physicians and other health personnel to help women who are victims or susceptible to domestic violence legal transparency and reforms meeting legal needs law reinforcement and implementation providing safe shelters for victims and establishment of a national center for research and planning on violence.

---

Background and Aim: Natural organic matter (NOMs), measured on the basis of organic carbon, produces disinfection by-products precursors (DBPs) during the chlorination process. Some DBPs are carcinogenic. NOMs are not completely removed by conventional water treatment. As a result, in addition to forming DBPs, they support bacterial regrowth in the water distribution systems and cause unpleasant odor and taste and other problems. The objective of this study was to determine organic carbon concentration and DBPs formation potential in drinking water of the water distribution system in Tehran, Iran.

Methods and Materials: Water sampling was done by standard methods, monthly between August 2006 and Feb 2007, at four points of the drinking water distribution system in Tehran. Quantitative parameters, including pH, EC, UV254 (UV absorbance at a wavelength of 254nm), dissolved organic carbon (DOC), and specific UV absorbance (SUVA) were determined. DOC and UV-254 of the samples were determined using a Total Organic Carbon (TOC) analyzer and a Lambda 25 UV/Vis spectrophotometer, respectively. SUVA (L/mg.m) was calculated as thea ratio of the UV absorbance at 254 nm (1/m) to DOC (mg/ L).

Results: The water content of DOC at the four points of the distribution system was less than 0.7 mg /L. The mean DOC concentration was 0.3±0.14mg/L, ranging between 0.12 and 0.687mg/L, with no monthly variation. The mean SUVA was 1.3±0.7.

Conclusion: It can be concluded that the Tehran water treatment systems cannot eliminate completely natural organic matter. SUVA values show, however, that the system can eliminate the majority of hydrophobic compounds. Therefore, formation of haloacetic acids is more probable than that of trihalomathanes.