Iranian Journal of

Backgrounds and Objectives:In Iran , indicated that the municipal landfill leachate has been one of the major problem for environment. In the operations, leachate treatment is a very difficult and expensive process. Although, young leachate can be treated easily by biological treatment, COD removal efficiency are usually low due to high ammonium ion content and the presence of toxic compounds such as metal ions. Treatment of leachate is necessary.The aim of this study is reduction of Chemical Oxygen Demond (COD) and Total Suspended Solids (TSS) from hamedan city sanitary landfill leachate by three coagulants: alum, PAC and ferrous sulfate.
Materials and Methods: This experimental study was conducted to investigate the effect of treatment of landfill leachate by a coagulation-flocculation process. The effects of different amounts of coagulant and different pH values on the coagulation processes were compared.
Results:Result shown the high efficiency for reduction of CODby PAC in pH=12 and concentration of 2500(mg/l (62.66%), and by alum in pH=12 and concentration of 1000 (mg/l) (60%) , by ferrous sulfate in pH=2 and concentration of 1000 (mg/l) (70.62%). Also result shown the high efficiency for TSS removal by PAC in pH=12 and 2500(mg/l) concentration of PAC was 58.37%, with alum in pH=2 and 1500 (mg/l) concentration of alum was39.14% , by ferrous sulfate in pH=7 and 2500(mg/l) concentration of ferrous sulfate was 35.58%.
Conclusion:The best coagulant for COD removal is ferrous sulfate.The physico-chemical process may be used as a useful pretreatment step, especially for fresh leachates, prior to post-treatment (polishing) step for partially stabilized leachates.

Background and Objectives: Transmission of pathogenic micro-organisms through the air is very dangerous for the society health. It is one of the most important issues that currently has faced the majority of hospitals with increasing nosocomial infections. Bio-aerosols are linked with a wide range of health effects including communicable diseases, acute toxic effects, and allergies and nosocomial infections, which can threaten health of personals, patients, and their companions admitted in hospitals. . Given that hospital infection rates has a direct relationship with the density and type of bioaerosols,, therefore, the distribution and abundance of micro-organisms, which wasthe main objective of the study becomes important. Materials and Methodes: This was a descriptive-analytic study in which seven wards of Valiasr hospital were selected randomly. The wards selected were Internal, laboratory, infants and children, CCU, Men surgery, women and labors. Operating rooms and outside the hospital environment were also studied. Air samples were taken according to the NIOSH standard instructions and Anderson procedure with a flow rate of 3.28 L per 2 minutes on mannitol salt agar, nutrient agar, EMB agar, blood agar, and sabarose dextrose agar media. Out of 240 samples taken, 200 samples showed growth. Then, the samples were transported to laboratory immediately and were incubated for 48 h at 37˚C and the experiment temperature was 22-27˚C, and afterwards each sample was counted andtested. At the end, the microorganisms density was determined in term of CFU/M3. Results: The highest average concentration of pollution occurred in Infectious Ward (238.51 CFU/ M3 in spring and 167.02 CFU/M3 in autumn) and the lowest one was related to the CCU, where showed no fungi growth during both seasons. Despite the environment sterilization, the highest percentage of fungi (Aspergillus Niger) and yeast observed in the hospital air was 42.45 percent in spring and 44.26 percent in autumn respectively. Moreover, Staphillus Epidermithis (25.93 percent)and gram-positive bacillus were the highest percentage of bacteria identified in air samples. Conclusion: From the findings of this study, it can be concluded that the concentration of bio-aerosols in different hospital wards expect in CCU was more than recommended and similar studies and in terms of species was similar to other studies. Therefore, the hospital authority is recommended to reduce the amount of the pathogenic and environmental bio-aerosols through controlling individual traffic, changing the disinfectants and their applying procedure on the wards surface, establishing standard and suitable ventilation systems.