Showing 16 results for Mousavi
M Farrokhi, M Kouti, Gh.r Mousavi, A Takdastan,
Volume 2, Issue 2 (16 2009)
Abstract
Backgrounds and Objectives: Leachate is one of the landfill products and also a wastewaterbearing the most advers effects on the environment. Biological methods are usually employed for treatment of young leachate (1-2 years) wich is of high concentration of organic compounds with low molecular weight. However these methods are not approprate for mature leachate (5-10years) due to having high rate of compounds with molecular weight and the presence of materials resistant to biodegradation and toxic compounds . Advanced oxidation process such as Fenton reagent used in treatment or biodegrability improvement of strong wastewater. In the present study the degrability improvement of mature leachate through oxidation fenton process in bench scale and in batch reactorhas been investigated.
Materials and Methods: The samples have been taken from Ahwaz landfill and factors such as initial COD and BOD, pH, BOD5/COD were studies as degradability, the amount of Hydrogen Peroxide, Fe(II), optimal reaction time and optimal pH.
Results:The highest amount of COD removal was observed in PH=3-3.5 and 90 minutes of reaction time. H2O2=29700mg/land Fe2+=16500 mg/l in [Fe2+]/[H2O2]=1/14.8 molarity ratio were obtained as optimal amounts BOD5/COD was equal to 0.38.
Conclusion: This study indicates that Fenton oxidation enhances the biodegradability of leachate.
B. Mortazavi, B. Ramavandi, G.r Mousavi,
Volume 3, Issue 1 (3 2010)
Abstract
Background and Objectives: Nowadays nitrate concentrations in surface water and especially in groundwater have increased in many locations in the world. Since nitrates cause many health and environmental concerns, increased nitrate concentrations in groundwater have led to rendered aquifers unusable as water sources. So, as the water demand is still increasing the throughout the world, decreasing the nitrate concentration in drinking water is imperative. Magnesium powder has been determined to be potentially useful for the removal of nitrate in the water environment. This research is aimed at subjecting the kinetics of nitrate chemical reduction by Mgo to an analysis of some factors affecting the chemical denitrification.
Materials and Methods: Nitrate concentrations determined in 220 nm using a spectrophotometer.To determine the performance of nitrate removal by Mg0 powder, double distilled water was used for preparation of reagents and simulation of contaminated water with nitrate.All experiments were triplicate and the averaged results were reported.
Results: Kinetics analysis from batch studies revealed that the denitrification reaction with Mgo powder appeared to be a first-order with respect to substrate and the observed reaction rate constant (kobs). The effects of mixing intensity on the denitrification rate suggest that the denitrification appears to be coupled with oxidative dissolution of magnesium through a largely mass transportlimited surface reaction. Also in the denitrification by Mgo determined that Mgo dose related with kobs ( R2>0/99 )S
Conclusion: In this research was determined that denitrification effectively by Mg0 powder can achieved in a wide range of concentrations under atmospheric conditions and without pH controlling within short reaction time. Denitrification rate was related to some parameters such as contact time, Mgo dosage, mixing rate and initial nitrate concentration.
K Naddafi, M.r Zare, M Younesian, M Alimohammadi, N Rastkari, N Mousavi,
Volume 4, Issue 2 (9 2011)
Abstract
Background and Objectives: This study was conducted to investigate the toxicity of Titanium Oxide (TiO2) and Zinc Oxide (ZnO) nanoparticles as two of most widely used nanoparticles. The result of this study can help to designing environmental standard and legislations for nanoparticles.
Materials and Methods: Different concentrations of nano ZnO and TiO2 nanoparticles were added to nutrient Agar culture media. Then, definite numbers of Escherichia coli and Staphylococcus aureus bacteria were added to culture media and inhibition of these bacteria growth was measured in comparison to controls. Obtained data were analyzed to determine nanoparticles' EC50 and NOEC (No Observed Effect Concentration) using SPSS ver.16 and Probit standard test.
Results: 24-hours EC50 of nano ZnO using E. coli and S. aureus determined to be 5.47 mg/L and 2.38 mg/L respectively. In addition, 24-hours EC50 of nano TiO2 using E. coli and S. aureus determined to be 5366 mg/L and 3471 mg/L respectively. In the case of ZnO nanoparticles, no observed effect concentration determined to be 1.15 and 3.28 mg/L for E. coli and S. aureus respectively and in the case of TiO2 nanoparticles no observed effect level determined to be 1937 and 1184 mg/L for E. coli and S. aureus respectively.
Conclusion: This study showed that acute toxicity of nano ZnO is by far more than that of nano TiO2. Regarding the EPA acute toxicity criteria, nano ZnO is categorized as moderately toxic and nano TiO2 is categorized as practically non toxic. Hence, regarding the acute toxicity, in recommending exposure criteria and environmental disposal standards, compared to nano TiO2, nano ZnO requires more attention.
Fatemeh Mousavi, Seyed Adel Jahed, Asadolah Rajab, Amir Kamran Nikuo Sokhantabar, Giti Kashi, Rouzbeh Tabatabaee,
Volume 6, Issue 1 (5-2013)
Abstract
Background and Objectives: Air pollution and its effects on human health had become a major concern of many healthcare centers decision makers. In this study, air pollution effect on variation of Glycosylated Hemoglobin A1C (HbA1C) level in diabetic patients was evaluated, which is a unique study in Iran and Middle East region.
Materials and Methods: During November-January 2010-11, Tehran, capital of Iran, was exposed with high levels of air pollution. A retrospective cohort study was carried out on 330 patients diagnosed with diabetes mellitus for at least 12 months referring to 3 endocrinal care clinics. A questionnaire in two demographic and diabetic related sections was prepared. The patients' HbA1C level recorded on November-January 2009-10 was compared with November-January 2010-11. Descriptive analysis and paired t-test were carried out using SPSS 18 software.
Results: The patients investigated were divided into two groups. The first group was composed of 108 patients (53.7% female and 46.3% male) with diabetes mellitus type I (Insulin Dependent), age mean of 17.22, and SD of 11.57. The second group was composed of 222 patients (58.6% female and 41.4% male) with diabetes mellitus type II (Noninsulin Dependent), age mean of 53.91, and SD of 12.12. The change of HbAIC level in both groups wa not statistically significant in first group, HbA1C level increased from 7.71 to 7.75 mg / 100 ml (P =0.828) and in second group, it increased from 7.06 to 7.08 mg / 100 ml (P = 0.798).
Conclusion: According to the results obtained, it can be concluded that relation of air pollution and HbA1C mean variation in diabetic patients was insignificant.
Kh Ashrafi, M Shafie Pour Motlagh, M.s Mousavi, M.h Niksokhan, H.r Vosoughifar,
Volume 8, Issue 4 (3-2016)
Abstract
Background and Objectives: In this study, contribution of exhaust emission and CO distribution was estimated in enclosed residential complex parking.
Materials and Methods: This was a descriptive - analytical study consisted of two stages. In the first stage, the emission contribution of vehicles was determined. In order to determine the contribution of exhaust gas emissions, through gas species, only four species CO, O2, CO2, and N2 were measured. Concentration of CO, O2, and CO2 was estimated using data obtained from the vehicle emissions monitoring system. The amount of N2 was estimated from sum ratio of all species, which equals to 1. Then, using computational methods, the amount of the emission contribution from vehicles. In the second phase, to measure the distribution of CO pollutant, gas sampling and collecting was performed using sampling bags made of inert materials with a volume of 10 l at six points. Sampling was conducted in accordance with the requirements of OSHA ID 210. The Obtained data were analyzed using SPSS Ver.16 software and Pearson statistical test (P > 0.05 means there was no significant difference).
Results: Maximum contribution was estimated for Pride with amount of 44.4 g/s and minimum contribution was estimated for Tiba with amount of 0.3 g/s. The minimum and maximum distribution value of CO concentration was achieved 3.6 and 69.48 ppm respectively. It was found that no significant relationship was observed between the values of exhaust emissions and CO distribution. However, the distribution of concentration was associated with locations and the number of openings, the number and type of vehicle, time of operation of the vehicle, the vehicle performance, and environmental factors.
Conclusion: Measuring vehicles CO emission indicated that the concentration was beyond the permissible level recommended by the World Health Organization at some. Moreover, it was indicated that natural air conditioning is an effective alternative for improving the air quality in built environments and suitable quality in built environments is achievable through reasonable architectural design, without need to spend too much expense.
Sar Mousavi, M Parvaneh,
Volume 9, Issue 2 (9-2016)
Abstract
Background and Objectives: Conventional methods of leachate treatment are inefficient due to high pollution loads and characteristics of the leachate. In recent years, an integrated method has been developed considerably. The aim of this research was to evaluate the effect of powdered activated carbon on the treatment of landfill leachate of Kermanshah City by a columnar aerobic sequencing batch reactor.
Materials and Methods: This study was carried out in three reactors having a total volume of 2000 mL and each having an effective volume of 600 mL in the bench scale. To the reactors 2 and 3 that were similar from environmental conditions and operation point of view with reactor 1 (with no carbon powder), 5 and 10 g/L of PAC were added, respectively. The effects of different doses of PAC (0, 5, 10 g/L) and hydraulic detention times (HRT = 48, 96, 144 h) were investigated in order to remove the Chemical Oxygen Demand (COD) and ammonia nitrogen (NH3-N) from the leachate. The efficiency was investigated using two -way ANOVA test in SPSS software (Ver. 16).
Results: The results of two-way ANOVA showed that there was a significant difference (P-value=0.001) between the removal efficiency of COD and NH3–N at different HRTs with different doses of PAC. The highest removal efficiency achieved at HRT=144 h for COD and NH3-N was in Reactor 1 were 50.11 ± 4.42 and 19.85 ± 1.49%; in reactor 2: 55.67 ± 1.6 and 25.7 ± 0.89%; and in reactor 3: 58.02 ± 3.99and 25.48 ± 1.7%, respectively.
Conclusion: It can be concluded that the combination of biological - activated carbon compared with the biological process, can remove COD and NH3–N of strong sewages such as landfill leachate, although achieving standard treatments using this method is not possible.
Sl Mousavi, A Shakeri, M Nakhaei,
Volume 10, Issue 2 (9-2017)
Abstract
Background and Objective: Polycyclic aromatic hydrocarbons (PAHs) constitute a large class of organic compounds that are composed of two or more fused aromatic rings. Due to their potential mutagenic, carcinogenic and teratogenic effects on human health, PAHs have attracted particular concern. Therefore, in this study it was attempted to measure the PAHs concentration in the study area to evaluate the health risk.
Materials and Methods: 36 samples were taken from the central district in Bandar Abbas county to investigate the degree of contamination, sources and health risk of polycyclic aromatic hydrocarbons (PAHs). Analysis of the samples was performed using gas chromatography. خطای ترجمهAlso, PMF Model was used to determine the possible sources.
Results: The total PAHs concentration had a mean value of 1.48 mg/kg in the soil samples. The total incremental life time cancer risk (ILCR) due to exposure to PAHs in soil is 1.06 × 10−6 for an adult and 4.95 × 10−6 for children. The results estimated for ILCR indicated that residents live in the central district of Bandar Abbas county are potentially exposed to cancer risk via both dust ingestion and dermal contact.
Conclusion: The ecological risk assessment of PAHs showed that the levels of all types of PAHs were lower than the lower value of effects range, except for dibenzo(a,h) antheracene and acenaphthene. The estimated results of ILCR indicated that Bandar Abbas county central district residents are potentially exposed to cancer risk via both ingestion and dermal contact. The PMF analysis identified four sources that were included fossil fuel combustion (14%), biomass combustion (13%), vehicular emissions (36%) and fossil fuel combustion/unburned petroleum (37%).
T Naseri, N Bahaloo Horeh, Sm Mousavi,
Volume 11, Issue 1 (6-2018)
Abstract
Background and Objective: Batteries can be hazardous to the environment and human health due to their toxic compounds. In this study, for detoxification and recovery of metals from spent coin batteries, a two-step bioleaching using Acidithiobacillus ferrooxidans was investigated.
Materials and Methods: A number of spent coin batteries were powdered. The powder was added to the bacterial culture medium and after 12 days the concentration of leached metals was determined. For investigating the effect of how to add the powder on metals recovery, the gradual addition of powder to the medium was carried out. For this purpose, the powder was added to the medium every 48 h at a rate of 20 g/L until the pulp density of 100 g/L. All experiments were run in triplicate and the standard deviation was shown as an error bar in the graphs.
Results: With an increase in pulp density, the metals recovery rate reduced. The highest recovery rates for lithium, cobalt and manganese was 100%, 88% and 20%, in pulp density of 40 g/L after 12 days. Leaching of lithium, cobalt and manganese was 66%, 8% and 0%, if the powder was added gradually until pulp density of 100 g/L.
Conclusion: The two-step bioleaching using Acidithiobacillus ferrooxidans was an appropriate method for recovery of metals from spent coin batteries. Also, gradual powder addition to the medium did not have a positive effect on the metals recovery and on improvement of bacterial growth characteristics. The metals recovery in high pulp densities was mainly due to chemical leaching.
Mazaher Moeinaddini, Seyed Hassan Mousavi, Zohreh Isakhanbeygi, Somayeh Heidari,
Volume 13, Issue 3 (11-2020)
Abstract
Background and Objective: One of the most important goals for urban environmental management system is the monitoring of air quality. Allocating optimum air quality monitoring stations (AQMS), is a key factor in establishing effective and accurate air quality monitoring program. The objective of this study was to determine optimal allocation for AQMS in Karaj.
Materials and Methods: Based on two stages approach, at first, the suitability map was obtained by WLC method. For AQMS implementation, municipal districts were ranked. The extracted alternatives were graded using TOPSIS. In the next stage, the position of preferred sites were investigated by site visiting and detailed criteria. Finally, the AQMS locations were introduced.
Results: Ten suitable stations were suggested based on population and number of municipal districts. During the first stage important criteria such as distance from roads and street cross-section were weighted and standardized. The distance from roads and green space were the lowest and highest important criteria, respectively. The lowest and highest ranks for AQMS implementation were Nos. 9 and 3 districts, respectively. During the first phase 30 alternatives were obtained. At the second stage, 10 best alternatives were selected following field observation and considering implementation criteria (eg. distance from trees, cross section and pollutants emission sources).
Conclusion: In this study, at the first stage the preferred alternatives were determined. In the next stage the best alternatives for AQMS implementation were selected considering reasonable time and effort. The suggested approach could be used to implement AQMS for other areas.
Mohamad Amin Daneshfar, Mehdi Ardjmand, Seyed Aboutaleb Mousavi Parsa,
Volume 13, Issue 4 (2-2021)
Abstract
Background and Objective: Improper treatment of PAHs in oily drilling cuttings cause adverse effects on the environment. The present study aimed to investigate the efficiency of two bioremediation and fixation methods for PAHs removal from oily drilling cuttings. The efficiency of the two mentioned methods were analyzed and subsequentelythe more effective one was selected using environmental protection approach.
Materials and Methods: The sampling of oily drilling cuttings at the beginning and end of the treating process was performed for the studied methods, according to standard protocols. The amounts of PAHs, are determined by Soxhlet apparatus and gas chromatography-mass spectrometery.
Results: The results showed that the removal efficiency of PAHs from oily drilling cuttings was 97% (440.3 mg/kg) for bioremediation and 78% (354.7 mg/kg) for the fixation method, respectively. The findings showed that the bioremediation method provides the standard requirements for the discharge of PAHs to the environment.
Conclusion: Bioremediation is more effective than the fixation method for removing PAHs compounds and exhibits higher environmental protection performance.
Zeinab Mousania, Seyed Hassan Mousavi, Farzane Mirza Bayati, Reza Rafiee,
Volume 14, Issue 3 (12-2021)
Abstract
Background and Objective: Various aspects including the environmental burdens, social and economic consequences of the waste management(WM) scenarios must be considered to come up with a comprehensive WM plan. Life Cycle Assessment (LCA) approach is a systematic method to quantify the environmental burdens of each WM scenario.
Materials and Methods: This study used an LCA approach to develop a decision support system to analyze different scenarios of WM. Local and global databases were used to develop a comprehensive life cycle inventory database. The model comes with a graphical user interface in Persian to make it easier to use by a wide range of customers. Finally, to evaluate the model, three scenarios were assessed in Karaj city, Iran.
Results: To the best of our knowledge, this model is the first attempt to automate the process of waste management scenarios evaluation in Iran. The model enables users to easily and quickly simulate a wide range of scenarios. All calculations will be carried out by the software in the background and the user only needs to determine his/her scenario of concern which is very easy owing to the user-friend GUI of the software. The model was evaluated by analyzing the current WM in Karaj. The results showed that the waste collection system is the main source of environmental pollution of the WM in Karaj city due to the inefficient system of the waste collection and poor fleet fuel efficiency.
Conclusion: This tool allows users to gather detailed information about the waste management systems. In this way, the user can make informed decisions about the most suitable waste management scenario in a city.
Alireza Pakdel, Mohsen Shams, Soheila Rezaei, Ali Mousavizadeh, Narges Roustaei, Mohammad Mehdi Baneshi,
Volume 15, Issue 2 (8-2022)
Abstract
Background and Objective: Increasing the level of health awareness of food preparation and distribution staff can have a direct impact on improving the level of public health in the community. Education can change people's knowledge, attitudes, and practices. Health education courses that provide integrated education as well as to other education systems, include educational inputs, processes, and outputs. The objective of this research is to evaluate these elements of the educational system of health education courses in Shiraz.
Materials and Methods: The current study evaluated the educational input, process, and output of 7 current health education institutions in Shiraz. Factors that influence the input of educational courses were evaluated using an inspection checklist of health education courses, the educational process was measured employing a satisfaction survey, and the educational output was assessed through a checklist of inspection of Article 13 of the Regulations. The health performance of 160 guild health certified units and 160 uncertified education units was analyzed as a criterion for effectiveness. Data were analyzed using the IBM SPSS21 software. Data related to the assessment of the input and educational process were analyzed using the Spearman correlation coefficient. Mann-Whitney and Kruskal-Wallis non-parametric statistical tests were also used for cross-group comparisons of output evaluation data.
Results: The findings of the educational input evaluation showed a strong correlation and a significant relationship between the overall evaluation score of the educational courses and the "observation" (0.96) "educational course principal" (0.94). Also, in the process evaluation, the "educational environment" and "general educational programs" with correlation coefficients of 0.99 and 0.84 had the most correlation with the overall process evaluation score. In all the health fields studied, there was a significant difference (p = 0.001) between the average score obtained for educational courses with and without certificates. There was a significant difference (p <0.0001) between the mean score obtained by public health with and without health certification. The average score obtained by the certified public and non-public places was 91.81 and 70.71, respectively.
Conclusion: Health education can have a major impact on people's health performance. Some of the elements that make up the educational output have a greater impact on achieving the desired educational output. For example, the revision and updating of the educational content and the development of the educational program according to all groups of learners can improve the performance of the learning process and the satisfaction of learners.
Arezoo Mahmoudi, Seyyed Alireza Mousavi, Danial Nayeri, Parastoo Darvishi,
Volume 15, Issue 3 (12-2022)
Abstract
Background and Objective: The consequence of using coagulant materials such as aluminum sulfate and ferric chloride in the coagulation unit of conventional water treatment plants can generate plenty of sludge that contains large amounts of coagulant, which in addition to environmental risks, will also possess disposal costs. Today, intending to preserve the environment and reduce treatment costs, researchers emphasize the recovery and reuse of coagulants from sludge. In this regard, the present study was proposed and implemented to recover and reuse water treatment plant sludge as a low-cost coagulant in wastewater treatment.
Materials and Methods: This research is an experimental-laboratory study. In order to recover the coagulant from the collected sludge, acid hydrolysis method was used. The physicochemical characteristics of the recovered sludge were also determined using FTIR, FE-SEM, and BET analysis. Moreover, the efficiency of recovered sludge in different doses (50 to 300 mg/L) on wastewater treatability in terms of COD, TSS, VSS, turbidity, phosphorus, and coliform indices was compared with aluminum sulfate, ferric chloride coagulants, also the results of the study were analyzed and presented using Excel software (version, 2016).
Results: According to the results, the prepared sludge had no crystalline structure with amorphous morphology. In addition, recovered coagulant from water treatment sludge has demonstrated high efficiency for wastewater treatment, so 66.6%, 82.49%, 79.66%, 80%, 65 %, 99.18% of COD, turbidity, TSS, VSS, phosphorus, total coliform were removed at the highest dosage of recovered coagulant (300 mg/L), respectively. Furthermore, the recovered coagulant dosage had a significant effect on the performance of the coagulation and flocculation process in wastewater treatment.
Conclusion: The results showed that recovered coagulant from the sludge of the water treatment plant can be considered an acceptable option with appropriate effectiveness in the wastewater treatment processes.
Samira Bagheri, Farhad Nejadkoorki, Seyed Alireza Afshani, Vahid Mousavi,
Volume 15, Issue 4 (3-2023)
Abstract
Background and Objective: One of the important environmental problems is the mass production of urban waste, which has increased per capita household waste production with the ever-increasing population growth; Therefore, nowadays, the use of intelligent systems has been expanded as a new solution in the analysis of environmental issues. Estimation of household waste through modeling, including the use of the fuzzy-neural network, leads to its better management. Therefore, the current research was conducted to investigate the socioeconomic factors on household waste production using the Adaptive Neural Fuzzy Inference System (ANFIS) in Tabriz city.
Materials and Method: In this research, by using the adaptive neuro-fuzzy inference system (AFNIS) with the Fuzzy C-Means (FCM) method, domestic waste generation in Tabriz city has been predicted. According to the nature of the subject and the investigated indicators, the information collected in descriptive research was collected from the students of schools in Tabriz using a questionnaire. Also, socio-economic factors were statistically analyzed using SPSS version 26 software, and parameters affecting domestic waste production in Tabriz city were used for modeling in MATLAB software.
Results: The results of the study showed that the adaptive neuro-fuzzy inference system with the Fuzzy C-Means method has acceptable performance for domestic waste production in Tabriz city.
Conclusion: According to the results obtained based on the statistical index, the forecasted model in domestic waste production in the Fuzzy C-Means method with the highest R (0.75) and the lowest error has an acceptable performance model in predicting the production of dry domestic waste in the studied area.
Zabihollah Yousefi, Adel Naderi, Seyed Noureddin Mousavi Nasab, Samaneh Dehghan,
Volume 16, Issue 3 (12-2023)
Abstract
Background and Objective: The high risk of Sars-CoV-2 infection in dental centers is a serious problem for doctors and patients. The main purpose of this study was to investigate the environmental health measures related to corona disease in the dental offices of Sari city during the COVID-19 epidemic in 2021.
Materials and Methods: The present study is descriptive and cross-sectional, and the tool used in it is a researcher-made questionnaire collected with the cooperation of the personnel working in 100 active dental service centers in Sari. to determine content validity, two qualitative and quantitative -qualitative methods were used. The qualitative content validity of this questionnaire was confirmed by 8 environmental health experts. Cronbach's alpha was used to determine the reliability of the questionnaire. Data analysis was done using SPSS software V. 25.
Results: Based on the results of this study, personal protective equipment was used continuously in 100% of the centers. In 93% of the centers, sodium hypochlorite and formaldehyde were used to disinfect the equipment, and in 94% of the cases, the frequency of disinfection of the equipment was after each patient. Disinfection of toilets was done daily in 62% of the centers and every two days in the rest. In 72% of the examined dental centers, had no local hood installed or turned on above the units, but in 92% of the offices, there was proper ventilation of public spaces. In addition, according to the results, in 99% of clinics, waste management was carried out in accordance with national laws and regulations and based on the rules and methods of the executive management of medical waste and related waste and related instructions, and also in 100% of clinics, water consumption was healthy and desirable.
Conclusion: Overall, environmental health measures in dental offices were at an optimal level in most cases and in accordance with the instructions of the Ministry of Health. Not installing a hood or not turning it on above the units and improper ventilation of the dentist's office were the most critical problems of the centers, which need to be given more attention and corrective measures should be taken according to the instructions of the Ministry of Health.
Maryam Ghani, Masoomeh Askari, Babak Mahmoudi, Nejat Mousavipour, Reza Barati Rashvanlou, Shahrokh Nazmara,
Volume 18, Issue 1 (5-2025)
Abstract
Background and Objective: Sewage sludge, a byproduct of wastewater treatment plants, is rich in organic matter and nutrients. With appropriate treatment, sludge can be utilized as a fertilizer for agriculture and soil amendment. This study aimed to evaluate the microbial quality of wastewater treatment plants in Tehran.
Materials and Methods: This study was conducted during the winter of 2018. A total of 25 samples were collected from the dewatering tank and sludge storage areas. Fecal coliform counts were determined using EPA Method 1681, while Salmonella and parasite egg counts were assessed using EPA Methods 1682 and 1992, respectively.
Results: In the dewatered sludge, fecal coliform levels ranged from a minimum of 67 MPN/g.TS on the first day to a maximum of 18,518 MPN/g.TS on the third day. Salmonella levels measured on the fifth, eighth, and tenth days were 0.55, 0.32, and 0.66 MPN/4g.TS, respectively. Parasite egg counts recorded on the second, ninth, and tenth days were 4 OVA/4g.TS. In the stored sludge, regardless of depth or geographic location of the disposal land, fecal coliform counts during retention times of 2, 3, 4, 5, 6, 7, 8, and 9 years were 10, 186, 480, 30, 27, 29032, 2, and 11 MPN/g.TS, respectively. Salmonella and parasite eggs were not detected in the stored sludge.
Conclusion: The findings indicate that, in the sludge storage unit compared to the sludge dewatering unit, achieving Class A standards for sludge is feasible through continuous quality monitoring.
