Journal of Applied Research in Water and Wastewater

Scientific journal

Current Issue

By Issue

By Author

By Subject

Author Index

Keyword Index

About Journal

Aims and Scope

Editorial Board

Peer Review Process

Publication Ethics

Indexing and Abstracting

Journal Metrics

FAQ

News

Related Links

Monitoring and assessment of water quality in Tehran city using physicochemical and microbial indexes

Document Type : Research Paper

Authors

Department of Food Science and Technology, Roudehen Branch, Islamic Azad University, Roudehen, Iran.

10.22126/arww.2022.7066.1229

Abstract

Drinking water is one of the main factors for health maintenance and sustainable development of communities and its quantity and quality are so important. The aim of present study is random sampling of drinking water in 30 regions of Tehran city during 2 months in summer of 2020 to determine physicochemical attributes, microbial quantity and heavy metal levels according to national standard guidelines. Tests such as pH, alkalinity, turbidity, electrical conductivity, chloride, nitrite level, total and thermotolerant coliforms, and also heavy metals (arsenic, copper, zinc and lead), were performed in three replications. The pH (6.50 to 7.81), turbidity (0.011 to 2.983 NUT), chloride level (240.42 to 321.34 mg/L) and nitrate value (7.21 to 20.04 mg/L) were in allowable ranges. The phenolphthalein alkalinity was not found and methyl orange alkalinity was detected in the range of 31.54 to 147.22 (mg/L) in samples. The electrical conductivity (1401.7 to 1972.1 μs/cm) and thermotolerant coliforms were found higher than allowable range in some samples. The range of heavy metals was represented by following trend in Tehran: arsenic (0.85 to 15.90 μg/L), cooper (0.04 to 3.38 mg/L), zinc (0.16 to 3.80 mg/L), lead (0.001 to 0.031 mg/L) and some ranges were not within the national standard guidelines. The present study illustrated that quality of drinking water was in line with World Health Organization, while microbial quantity, electrical conductivity and some impurities (Cu and Pb) were higher than standard in some regions, so more arrangements should consider for increasing of drinking water quality in Tehran.

Keywords

References
Ahmed J., Wong L.P., Chua Y.P., Channa N., Drinking water quality mapping using water quality index and geospatial analysis in primary schools of Pakistan, Water 12 (2020) 3382-3390.
Alsulaili A., Al-Harbi M., Elsayed K., The influence of household filter types on quality of drinking water, Process Safety and Environmental Protection 143 (2020) 204-211.
Amouei A., Fallah H., Asgharnia H., Yari A.R., Mahmoudi M., Corrosion and scaling potential in drinking water distribution of Babol, Northern Iran based on the scaling and corrosion indices, Archives of Hygiene Sciences 6 (2017) 1-9.
Chang H., Liu S., Chang G., Chen J., Liang Y., Ying G., Persistence of antibiotic resistance genes and bacterial community changes in drinking water treatment system: From drinking water source to tap water, Science of the Total Environment 616 (2018) 453-461.
Cosgrove W.J., and Loucks D.P., Water management: Current and future challenges and research directions, Water Resources Research 51 (2015) 4823-4839.
Cremades L.V., Cusidó J.A., Arteaga F., Recycling of sludge from drinking water treatment as ceramic material for the manufacture of tiles, Journal of Cleaner Production 201 (2018) 1071-1080.
ISIRI., Drinking water – Microbiological specifications, Iran, Institute of Standards and Industrial Research of Iran, (2007), No. 1011.
ISIRI., Drinking water-Physical and chemical specifications, Iran, Institute of Standards and Industrial Research of Iran, (2010), No. 1053.
John V., Jain P., Rahate M., Labhasetwar P., Assessment of deterioration in water quality from source to household storage in semi-urban settings of developing countries, Environmental Monitoring and Assessment 186 (2014) 725-734.
KhalidHasan M.D., Shahriar A, Ullah Jim K., Water pollution in Bangladesh and its impact on public health, Heliyon 8 (2019) 2145.
Khan S., Aziz T., Ul-Ain N., Ahmed K., Ahmed I., Nida S., Akbar S.S., Drinking water quality in 13 different districts of Sindh, Pakistan, Health Care Current Reviews 6 (2018) 235-239.
Khoshakhlagh R., Samadi S., Emadzadeh M., Hadizadeh Kheirkhah H., Estimating demand function of water consumption in city of Tehran, Journal Research on Sustainable Growth and Development (Economic Research) 4 (2002) 109-130 (In Persian).
Kumar V., Sharma A., Kumar R., Bhardwaj R., Thukral A.K., Rodrigo-Comino J., Assessment of heavy-metal pollution in three different Indian water bodies by combination of multivariate analysis and water pollution indices, Human and Ecological Risk Assessment 26 (2020) 1-6.
Liu Y., Zheng B., Fu Q., Meng W., Wang Y., Risk assessment and management of arsenic in source water in China, Journal of Hazardous Materials 170 (2009) 729-734.
Machado K.S., Al Ferreira P.A., Rizzi J., Figueira R., Froehner S., Spatial and temporal variation of heavy metals contamination in recent sediments from Barigui River Basin, South Brazil, Environment Pollution and Climate Change 1 (2017) 108.
Obiri-Danso K., Okore-Hanson A., Jones K., The microbiological quality of drinking water sold on the streets in Kumasi, Ghana. Letters in Applied Microbiology 37 (2003) 334-339.
Odiongenyi A.O., Okon J.O.J, Enengedi I., Assessment of the quality of packaged water in Uyo Metropolis: South Eastern Nigeria, International Journal of Chemical, Material and Environmental Research 2 (2015) 12-15.
Saleem M., Iqbal J., Shah M.H., Geochemical speciation, anthropogenic contamination, risk assessment and source identification of selected metals in freshwater sediments—a case study from Mangla Lake, Pakistan, Environmental Nanotechnology, Monitoring and Management 4 (2015) 27-36.
Shirazi A., Rezaei S., Jamshidi A., Fararoei M., Sadat A., Hashemi H., Investigating the microbial and chemical quality of drinking water, Health Systems Research 8 (2012) 431-437.
Vaidya K., and Gadhia M., Evaluation of drinking water quality, African Journal of Pure and Applied Chemistry 6 (2012) 6-9.
Wen X., Chen F., Lin Y., Zhu H., Yuan F., Kuang D., Jia Z., Yuan Z., Microbial indicators and their use for monitoring drinking water quality—a review, Sustainability 12 (2020) 2249.
WHO, Guidelines for drinking-water quality, fourth ed. WHO Library Cataloguing-in-Publication Data NLM classification: WA 675, Geneva, (2011).
Yazdanbakhsh A., Leili M., Rezazadeh Azari M., Masoudinejad M., Majlesi M., Chloroform concentration in drinking water of Tehran, Journal of Mazandaran University of Medical Sciences 24 (2009) 102-113.
Yousefi A., and Hojati Bonab Z., Investigation of physicochemical and microbial parameters of drinking water supply sources in villages of Saqqez, Iran, Archives of Hygiene Sciences 9 (2020) 224-233.
Yousefi Z., and Naeej O., Study on nitrate value in rural area in Amol city, Journal of Mazandaran University of Medical Sciences 17 (2007) 161-165.
Journal of Applied Research in Water and Wastewater
Volume 9, Issue 2
December 2022
Pages 121-124
Files
History
  • Receive Date: 29 June 2022
  • Revise Date: 01 November 2022
  • Accept Date: 06 November 2022
Share
How to cite
Statistics