Your search keyword '"potable water"' showing total 4,595 results

1. Condition Assessment of Winnipeg, Manitoba’s Regional Water Distribution Reservoirs

Author

Amorim, David R. C., Allen, Matthew N., Glover, Michael D., Dyck, Kenneth R., di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Desjardins, Serge, editor, Poitras, Gérard J., editor, and Nik-Bakht, Mazdak, editor

Published

2025

2. Need of wastewater purification for sustainability: A mini review

Author

Girigoswami, Agnishwar, Govindharaj, Poornima, Mitra Ghosh, Mahashweta, and Girigoswami, Koyeli

Published

2024

3. Estimation of Manganese Content in Potable Water by Boosting Techniques.

Author

Göçer, M., Coşkun, S. B., and Yanık, B.

Abstract

In this study, boosting machine learning techniques were employed to estimate the concentration of manganese in the potable water of Yuvacık Dam and to predict the days that surpassed and fell below the threshold value of 0.05 mg/L in Turkey. We conducted both regression and classification analyses for the same issue. We also implemented sampling methods when the data distribution in the classification task became imbalanced. We obtained daily measurements for approximately seven years, from 2004 to 2011, to build the dataset, which consisted of seven columns in total. While the XGBoost algorithm forecasted the manganese content in potable water with a mean absolute error of 0.0055, the Light GBM algorithm predicted the days with elevated manganese levels with an accuracy of 0.97. The models' high predictions allow us to adjust the frequency of frequent water sampling and lab analysis and take prompt action during water filtration processes. [ABSTRACT FROM AUTHOR]

Published

2024

4. Bacterial isolates from drinking water river sources exhibit multi-drug resistant trait.

Author

Popoola, Bukola Margaret, Ogwerel, Jemimah Pearl, and Oladipo, Oluwatosin Gbemisola

Subjects

PEARSON correlation (Statistics), DRUG resistance in bacteria, ENVIRONMENTAL health, DRUG resistance in microorganisms, BACILLUS (Bacteria)

Abstract

Freshwater habitat is a natural reservoir for antimicrobial resistance (AMR). AMR poses serious human, animal, and environmental public health threats. This study aimed to evaluate the physicochemical and microbiological quality of five selected rivers (Apitipiti 1, Apitipiti 2, Apitipiti 3, Sogidi, and Aba Apa Akinmorin) in Oyo town, Nigeria, as well as the antibiotic resistance pattern of isolated bacterial species, using conventional methods. Most physicochemical parameters were within WHO and NIS permissible limits. Pearson's correlation matrix indicated that there were significant (p < 0.05) interactions among pH, electrical conductivity, temperature, sulphate and chloride salts, and BOD and COD. A total of thirty-two (32) bacterial species were isolated and identified as: Aeromonas (9), Bacillus (2), Corynebacterium (13), Lactobacillus (1), Pseudomonas (2), Staphylococcus (4), and Streptococcus (1). Of the rivers, Sogidi had the highest microbial load (6.36 log CFU/mL) while Apititipiti 1 had the lowest (5.76 log CFU/mL). With regard to antibiotic sensitivity, 81.8% were multidrug-resistant, with Corynebacterium kutscheri and Aeromonas spp. isolated from Apitipiti 2 and Aba Apa Akinmorin rivers, respectively, exhibiting a relatively high antibiotic resistance of 90.9%. This study reveals that these rivers may be unfit for consumption as multidrug-resistant bacteria of public health risk were associated with them. [ABSTRACT FROM AUTHOR]

Published

2024

5. The Evolution of Potable Water Security: A Temporal Analysis of Key Indices and Trends.

Author

Bhargavan, Jasna and Ayikkara Kizhakkayil, Kasthurba

Subjects

DRINKING water, TECHNOLOGICAL innovations, WATER shortages, RESEARCH personnel, CLIMATE change, WATER security

Abstract

Water security is a critical global issue that has gained increasing attention from researchers, policymakers, and practitioners over the past few decades. This paper presents a comprehensive overview of the evolution of potable water security indices from the 1980s to the 2020s, focusing on the key research themes, trends, and influential factors in the field. We conducted a comprehensive search of the relevant literature and examined the development of water security indices to provide insights into the current state of research and identify future research directions. This paper will explore the historical context, key indicators, sector-specific challenges, climate change implications, governance and policy considerations, technological advancements, community engagement efforts, and future directions for research in this critical field. Researchers and policymakers will find this review valuable as it offers insights into the existing knowledge and the areas that require further exploration to address global water security challenges. [ABSTRACT FROM AUTHOR]

Published

2024

6. Comparative Evaluation of Potable Water and Laundry Wastewater on the Properties of Concrete Modified by Crushed Ceramic Waste.

Author

ADEBAYO, A. H., OJO, O. M., and AKANDE, S. P.

Abstract

The objective of this paper was to investigate a comparative evaluation of potable water and laundry wastewater on the properties of concrete modified by crushed ceramic waste using standard methods. Using various standard methods, slump, compaction factor, water absorption and compressive strength tests were carried out on the concrete samples. The slump test results indicated that potable water generally maintained consistent workability across different ceramic contents, while laundry wastewater achieved higher workability at 30% ceramic replacement. The compaction factor remained stable for potable water mixes (0.90 to 0.98), whereas laundry wastewater showed more variability (0.85 to 0.96). Water absorption tests revealed that potable water mixes have higher initial porosity but show decreased absorption with increased ceramic content, reaching a low of 1.1% at 15% replacement. Conversely, laundry wastewater mixes maintained lower absorption rates overall. Compressive strength tests indicated that potable water mixes consistently outperformed those made with laundry wastewater, although both exhibited reduced strengths at higher ceramic contents. These findings suggest that while laundry wastewater can be utilized in concrete production, careful optimization is necessary to ensure structural integrity. This research supports the sustainable use of alternative materials and water sources in concrete, aligning with contemporary efforts to enhance environmental sustainability in construction practices. [ABSTRACT FROM AUTHOR]

Published

2024

7. Spring Water Quality in a Flood-Prone Area of Kampala City, Uganda: Insights Furnished by Sanitary and Limnochemical Data.

Author

Tenywa, Ronald, Omara, Timothy, Kwikiriza, Gerald, Angiro, Christopher, and Ntambi, Emmanuel

Subjects

WATER quality, TRACE metals, WATER springs, ELECTRIC conductivity, FRESH water, DISSOLVED oxygen in water, SANITATION, DRINKING water

Abstract

For millennia, springs have provided water for drinking, domestic use, balneological treatment, liminality rites as well as tourist attractions. Amidst these uses, anthropogenic activities, especially urbanization and agriculture, continue to impair the functionality of springs. With the looming decadal climate change, freshwater springs could be a sustainable source of clean water for the realisation of Sustainable Development Goal 6. This paper presents the results of the sanitary inspection and assessment of limnochemical characteristics and quality of water samples (n = 64) from four freshwater springs (coded SPR1, SPR2, SPR3, and SPR4) in Kansanga, a flash flood-prone area in the African Great Lakes region of Uganda. Each sample was analysed for 17 parameters (temperature, pH, electrical conductivity, turbidity, fluorides, sulphates, chlorides, nitrates, orthophosphates, total dissolved solids, dissolved oxygen, total alkalinity, potassium, sodium, total, magnesium and calcium hardness) following the standard methods. Water quality index (WQI) was calculated to establish the quality of the water samples based on the physicochemical parameters measured. Based on the sanitary risk assessment results, the springs had medium- to high-risk scores, but most water parameters were within the WHO guidelines for potable water, except for nitrates (in SPR1 and SPR2), hardness levels (in SPR2), and dissolved oxygen (in all the samples). Sampling season and location had significant effects on the limnochemistry of the freshwater springs (p < 0.05). The water quality indices calculated indicated that the water from the springs was of good quality (WQI = 50–57), but there was a reduction in water quality during the wet season. The best water quality was recorded in samples from SPR4, followed by those for SPR3, SPR1, and SPR2. These results provide insights into the contribution of floods and poor sanitation facilities to the deterioration of spring water quality in Kansanga, and the need to leverage additional conservation strategies to support vulnerable communities in the area. Further studies are required to establish the risk posed by trace metals and microbes that may contaminate freshwater in the studied springs, especially following flood events. [ABSTRACT FROM AUTHOR]

Published

2024

8. Frequency and Risk Factors Associated with Prematurity: A Cohort Study in a Neonatal Intensive Care Unit.

Author

Barreto, Maria Goretti Policarpo, Manso, Maria Conceição, Barreto, Renata Policarpo, Barreto, Roberta Policarpo, Vasconcelos, Lara Moreira Teles de, and Silva, Cláudia

Subjects

*NEONATAL intensive care units, *PRENATAL care, *INTRAPARTUM care, *PREGNANCY complications, *PREMATURE labor

Abstract

Background/Objectives: Prematurity rates remain high and represent a challenge for the public health systems of any country, with a high impact on neonatal mortality. This study aimed to evaluate the frequency and environmental and maternal–fetal risk factors for premature birth in a cohort of parturient women, with their newborns monitored in a neonatal intensive care unit at a private reference hospital. Methods: A cohort was carried out between 2013 and 2018 among parturient women living in a capital city in the Northeast of Brazil whose newborns were admitted to the neonatal intensive care unit. This study was approved by the Research Ethics Committee of the University of Fortaleza. The information collected comprised data from both medical records and hydrosanitary data from maternal homes. Results: The prevalence of prematurity among live births (n = 9778) between 2013 and 2018 at this hospital was 23%. The frequency of prematurity among those eligible (n = 480) was 76.9%, and the frequency of eligible premature babies (n = 369) in relation to the total number of births in this period was 3.8%. In the multivariate analysis, the significant risk factors for prematurity were primigravida (RR = 1.104, 95%CI: 1.004–1.213) and hypertensive syndromes during pregnancy (RR = 1.262, 95%CI: 1.161–1.371), and the significant protective factor was the highest number of prenatal consultations (RR = 0.924, 95%CI: 0.901–0.947). Conclusions: This study contributes to providing greater visibility to prenatal care and the understanding of complications during pregnancy and childbirth care. These results indicate the need to implement public policies that promote improvements in the population's living conditions and care for pregnant women to reduce premature births and, consequently, neonatal and infant mortality. [ABSTRACT FROM AUTHOR]

Published

2024

9. Economically Optimal Leak Management: Balancing Pressure Reduction, Energy Recovery, and Leak Detection and Repair.

Author

Hammond, Charles, Good, Robert, and Loge, Frank

Subjects

*LEAK detection, *WATER utilities, *PUBLIC utilities, *HYDRAULIC models, *ENERGY consumption, *REPAIRING

Abstract

Maximizing the net economic benefits of leak management programs provides the most value to water utilities and their customers. Leak management programs with alternative objectives (e.g., to "break even" or to maximize leak reduction) are not necessarily the most efficient use of resources. Combining hydraulic modeling with principles of economics and using a real distribution system to provide a case study, we present a methodology for maximizing the net economic benefits of a leak management program consisting of leak detection and repair activities and pressure management interventions. The optimization results include recommended leak detection and repair intervals for individual district metered areas, optimal siting of both pressure reducing valves and pumps-as-turbines (PATs), and modifications to the distribution system's connectivity to isolate high-pressure areas. The case study results indicate that 10% to 11% of the system's current energy use can be recovered by PATs and that the avoided leakage over the study period is equivalent to 13% to 23% of the system's current customer demand. While leak detection and repair and pressure management are more commonly considered independently, this analysis demonstrates the feasibility of including their interdependencies when optimizing a leak management program, resulting in more useful recommendations. [ABSTRACT FROM AUTHOR]

Published

2024

10. IMPACT OF GRANULAR ACTIVATED CARBON AND MAGNETIC FIELD IN SLOW SAND FILTER ON WATER PURIFICATION FOR RURAL DWELLERS.

Author

Y. A., Oloriegbe, A. O., Saad, M. R., Baiyeri, M. A., Moshood, H. O., Sanusi, and K. O., Yusuf

Subjects

*SAND filtration (Water purification), *WATER purification, *DRINKING water, *WATER hardness, *ACTIVATED carbon

Abstract

Most farmers that produce food crops in Nigeria live in rural areas where potable water is not available. The farmers in some areas have problem of water borne diseases which could affect their health and could lead to death. This study was conducted to determine the impact of incorporating Granular Activated Carbon (GAC) and Magnetic Field (MF) in Slow Sand Filter (SSF) on the purification of water for rural dwellers. The SSF was constructed using PVC pipe (152.4 mm diameter and 1100mm long) with layers of fine sand (size 0.25mm and 350mm depth), followed by GAC (10mm size and 100 mm depth), fine sand (0.25mm with 500mm depth) and gravel (grain size 10-14 mm and 100mm depth). The SSF was kept moist for 21 days for biofilm layer (schmutzdecke) to fully develop which is essential for trapping bacteria. Two SSFs fabricated consist of SSF+GAC+MF as Filter 1, SSF+GAC as Filter 2 and Control (Raw water without passing through the filter. Water samples were collected from the filter and analyzed. The discharge capacity of the filter was 25 litres/h. Total bacteria counts (TBC) for Filter 1 and Filter 2 and control were 2.4, 4.6 and 8.1 cfu/mg, respectively. Total coliform count for Filter 1 and Filter 2 and control were 1.7, 3.0 and 6.4 cfu/100mL, respectively. The filters reduced water hardness, turbidity, lead, copper, electrical conductivity and reduced TCC by 53.13-73.44% but increased pH from 5.8 to 7.1-7.3. The SSF is recommended for water purification in the rural area. [ABSTRACT FROM AUTHOR]

Published

2024

11. Incorporating ultrashort-chain compounds into the comprehensive analysis of per- and polyfluorinated substances in potable and non-potable waters by LC-MS/MS

Author

Shun-Hsin Liang, Moubani Chakraborty, and Justin A. Steimling

Subjects

Perfluorinated substances, Per- and polyfluoroalkyl substances (PFAS), Ultrashort-chain, Potable water, Non-potable water, Analytical chemistry, QD71-142

Abstract

Ultrashort-chain (USC) per- and polyfluoroalkyl substances (PFAS) are small and very polar compounds with carbon chain lengths shorter than C4. Their ubiquitous and high levels of occurrence in environmental aquatic systems are emerging as a significant concern, rivaling the well-established issues associated with long-chain PFAS contamination. Therefore, it is important to analyze both USC and long-chain PFAS together in water samples to comprehensively assess and address the full spectrum of PFAS contamination. The high polarity of USC PFAS poses a challenge for standard chromatographic practices in PFAS analysis, primarily due to insufficient chromatographic retention. In this study, a simple and reliable workflow was developed for the simultaneous analysis of C1 to C14 perfluoroalkyl carboxylic and sulfonic acids, along with other groups of PFAS, in both potable and non-potable waters. The chromatographic separation was conducted using a polar-embedded reversed-phase LC column with an inert coating on the hardware. Three different water matrices (tap water, bottled water, sewage treatment wastewater) were chosen for method evaluation to demonstrate the applicability of the developed workflow for measuring 45 PFAS compounds in diverse water samples. A dilute-and-shoot workflow was evaluated by accuracy and precision analysis at five fortification levels, ranging from 2 to 250 ng/L. Eighteen isotopically labeled PFAS, serving as extracted internal standards, were added to the samples at 100 ng/L to validate the accuracy of the entire workflow. Calibration standards were prepared in reverse osmosis water due to its cleanliness for all analytes. The calibration ranges varied among different analytes, spanning from 1 – 1000 ng/L. All analytes and extracted internal standards exhibited recovery values ranging from 70% to 130% of the nominal concentration across all fortification levels. Satisfactory method precision was demonstrated with %RSD values below 20%. Additional potable and non-potable waters collected from various source waters were tested to further demonstrate that the established workflow is suitable for the accurate quantification of targeted PFAS in a wide range of water matrices.

Published

2024

12. Comparative Evaluation of Potable Water and Laundry Wastewater on the Properties of Concrete Modified by Crushed Ceramic Waste

Author

A. H. Adebayo, O. M. Ojo, and S. P. Akande

Subjects

Crushed ceramic, fine aggregate, replacement, potable water, laundry wastewater, Science

Abstract

The objective of this paper was to investigate a comparative evaluation of potable water and laundry wastewater on the properties of concrete modified by crushed ceramic waste using standard methods. Using various standard methods, slump, compaction factor, water absorption and compressive strength tests were carried out on the concrete samples. The slump test results indicated that potable water generally maintained consistent workability across different ceramic contents, while laundry wastewater achieved higher workability at 30% ceramic replacement. The compaction factor remained stable for potable water mixes (0.90 to 0.98), whereas laundry wastewater showed more variability (0.85 to 0.96). Water absorption tests revealed that potable water mixes have higher initial porosity but show decreased absorption with increased ceramic content, reaching a low of 1.1% at 15% replacement. Conversely, laundry wastewater mixes maintained lower absorption rates overall. Compressive strength tests indicated that potable water mixes consistently outperformed those made with laundry wastewater, although both exhibited reduced strengths at higher ceramic contents. These findings suggest that while laundry wastewater can be utilized in concrete production, careful optimization is necessary to ensure structural integrity. This research supports the sustainable use of alternative materials and water sources in concrete, aligning with contemporary efforts to enhance environmental sustainability in construction practices.

Published

2024

13. An Experimental Study on Improving Solar-Based Distillation Productivity Through the Utilization of Split AC-Condenser Heat

Author

Patel, Rahul, Dev, Rahul, Leal Filho, Walter, Series Editor, and Sharifi, Ayyoob, editor

Published

2024

14. Modeling of Potable Water Purification System by Using III–V Multijunction Solar Cell and Cationic Polyacrylamide Alum to Improve the Efficiency

Author

Shehram, Muhammad, Wahab, Aeizaal Azman A., Rani, Uzma, Hamidi, Muhammad Najwan, Mat Desa, M. K., Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Haddar, Mohamed, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Kwon, Young W., Editorial Board Member, Tolio, Tullio A. M., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Schmitt, Robert, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Hamidon, Roshaliza, editor, Bahari, Muhammad Syahril, editor, Sah, Jamali Md, editor, and Zainal Abidin, Zailani, editor

Published

2024

15. Desalination in the Pacific

Author

Huang, Yingfei, Leslie-Keefe, Conna, Leslie, Greg, Dansie, Andrew, editor, Alleway, Heidi K., editor, and Böer, Benno, editor

Published

2024

16. A Review of the Effect of Mixing Water Quality on Concrete

Author

Cayanan, Francis, Dela Cruz, Orlean G., Bornales, Aldrine Paul P., Domalaon, Romeuel M., Marbella, Janecca B., di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, and Jeon, Han-Yong, editor

Published

2024

17. Daily Use Water Bottles as a Hub for Microbial Population: A Comparative Study of PET vs. Stainless Steel Water Bottles and Outcome of Washing Strategy Intervention

Author

Hariharan Ashvikka Vijayalakshmi

Subjects

clean water and sanitation, hygiene, microbes, potable water, sanitization, water bottles, Pharmacy and materia medica, RS1-441, Analytical chemistry, QD71-142

Abstract

Water bottles for everyday usage are a typical addition to people’s life and offer a practical way to stay hydrated. Even though safe and clean water is preferred for consumption, the water bottle or container used to drink water was never considered to be cleaned. Here, we examined the adhering microbial populations in water bottles composed of stainless steel (SS) and polyethylene terephthalate (PET). A total of 30 water bottles—15 PET and 15 SS—were gathered from different users. To identify and quantify the adhering microbial populations, microbial swabs from the inside surface of the bottles were collected and later cultivated on certain growth media. Overall the microbial load of PET is significantly higher than the SS water bottles of 68.8 + 19.1 cfu/ml and 35.4 + 8 cfu/ml respectively at initial sampling (P = 0.0027). We also evaluated the efficiency of various cleaning procedures in eliminating adherent bacteria populations. The cleaning strategy significantly reduced the microbial load (P

Published

2024

18. A ng/L Level LC-MS Method Using Membrane SPE as Sampling Technology: Determination of Nine Halobenzoquinones in Potable Water.

Author

Huang, Qin, Zhou, Hua, Wu, Xianglun, Jiang, Jiaqi, Zhan, Bingdong, and Wu, Pinggu

Subjects

*DRINKING water, *LIQUID chromatography-mass spectrometry, *SOLID phase extraction, *ANIONS, *STANDARD deviations, *METHANOL as fuel

Abstract

A promising method was established for the determination of nine halobenzoquinones (HBQs) in potable water by membrane solid-phase extraction (MSPE) pretreatment and the liquid chromatography–mass spectrometry (LC-MS) method. A 500 mL water sample was taken for enrichment by the SDB-RPS membrane, which was previously activated by methanol and ultrapure water. The sample was eluted with methanol and re-dissolved with the initial mobile phase after nitrogen blowing. Then, it was detected in negative ion mode using the working curve, and HBQs were quantified by the external standard method. The linearity was satisfactory in the concentration range of 4-1000 ng/L, with correlation coefficients of 0.9963~0.9994. The recoveries were 73.5~126.6% at three spiked levels, with relative standard deviations (RSDs) of 6.8~15.5%. The limits of detection (LOD, S/N = 3) values were 0.1~0.7 ng/L. The results demonstrate that the MSPE-LC-MS method is reliable, rapid, and sensitive for the simultaneous analysis of nine HBPs in potable water. [ABSTRACT FROM AUTHOR]

Published

2024

19. Appraisement of groundwater quality status within Enugu, Nigeria, using physicochemical evaluation and water quality indices.

Author

Ekpete, Kelvin Ifeanyi, Igbo, Patricia Ebele, Abugu, Hillary Onyeka, Onwuka, Solomon Obialo, Obasi, Nnamdi Lawrence, and Okoye, Chukwuma OB

Subjects

*GROUNDWATER quality, *WATER quality, *TRACE metals, *LEAD, *COPPER, *WATER pipelines

Abstract

Enugu state is notorious for potable water scarcity which forces residents to depend on polluted water sources. In this study, an appraisement of the quality status of groundwater from some areas within Enugu was conducted. Physicochemical characteristics of groundwater sampled from 15 boreholes that supply domestic water to Aninri, Awgu, Ezeagu, Udi and Oji River Areas of Enugu, Nigeria, were determined. A total of 45 water samples were obtained across both rainy and dry seasons. Standard methods were used to determine the physicochemical parameters and trace metals. The physicochemical results showed values within the WHO safe limits, except sulphate (1670 ± 21.5 mg L−1) in Mpu water samples, and high chloride levels in Ndeaboh and Mpu (18088 ± 29.4 and 1095 ± 23.9 mg L−1 for dry and rainy seasons, respectively). The pH values were predominantly slightly acidic, ranging from 5 to 8.2. Groundwater within Ukaete, Ndeaboh, Oduma and Amankpunato had very high levels of electrical conductivity (2897.80 ± 173.38, 31000 ± 45.9, 1672 ± 9.3 and 1222 ± 8.1) in the dry season, respectively; and 1665.06 ± 326.6, 5410 ± 2.4, 4860 ± 9.4, 1872 ± 19.3 in the rainy season, respectively. The higher chloride values observed, possibly due to a geogenic origin, could also be responsible for the higher values of the electrical conductivity. There were traces of copper and lead in the samples during the dry season; however, lead was not detected in most borehole water samples during the wet season. Fe was the only metal that recorded values above the WHO standard. Traces of copper in the samples may have resulted from corrosion in the copper pipelines, reservoirs or other metallic fittings used in the construction of the boreholes. The water quality index (WQI) of the borehole water examined was above 100 in all except Ogugu Awgu samples, indicating that borehole water was generally not potable and therefore unsuitable for domestic application or drinking. The observed results revealed that the groundwaters from the study area were contaminated with chloride and lead, causing the water parameters to be above standard limits. Lead at any concentration is deemed toxic according to USEPA. There is a need to treat borehole water supplies in the area before its application for domestic use. [ABSTRACT FROM AUTHOR]

Published

2024

20. An Evaluation of Microfiltration and Ultrafiltration Pretreatment on the Performance of Reverse Osmosis for Recycling Poultry Slaughterhouse Wastewater.

Author

Fatima, Faryal, Fatima, Sana, Du, Hongbo, and Kommalapati, Raghava Rao

Subjects

*REVERSE osmosis, *WATER management, *REVERSE osmosis process (Sewage purification), *SEWAGE, *SUSTAINABILITY, *ULTRAFILTRATION, *MICROFILTRATION

Abstract

To implement sustainable water resource management, the industries that produce a huge amount of wastewater are aiming to recycle wastewater. Reverse osmosis (RO) is an advanced membrane process that can produce potable water from wastewater. However, the presence of diverse pollutants in the wastewater necessitates effective pretreatment to ensure successful RO implementation. This study evaluated the efficiency of microfiltration (MF) and ultrafiltration (UF) as two pretreatment methods prior to RO, i.e., MF-RO and UF-RO, for recycling poultry slaughterhouse wastewater (PSWW). The direct treatment of PSWW with RO (direct RO) was also considered for comparison. In this study, membrane technology serves as a post treatment for PSWW, which was conventionally treated at Sanderson Farm. The results demonstrated that all of the processes, including MF-RO, UF-RO, and direct RO treatment of PSWW, rejected 100% of total phosphorus (TP), over 91.2% of chemical oxygen demand (COD), and 87% of total solids (TSs). Total nitrogen (TN) levels were reduced to 5 mg/L for MF-RO, 4 mg/L for UF-RO, and 9 mg/L for direct RO. In addition, the pretreatment of PSWW with MF and UF increased RO flux from 46.8 L/m2 h to 51 L/m2 h, an increase of approximately 9%. The product water obtained after MF-RO, UF-RO, and direct RO meets the required potable water quality standards for recycling PSWW in the poultry industry. A cost analysis demonstrated that MF-RO was the most economical option among membrane processes, primarily due to MF operating at a lower pressure and having a high water recovery ratio. In contrast, the cost of using RO without MF and UF pretreatments was approximately 2.6 times higher because of cleaning and maintenance expenses related to fouling. This study concluded that MF-RO is a preferable option for recycling PSWW. This pretreatment method would significantly contribute to environmental sustainability by reusing well-treated PSWW for industrial poultry purposes while maintaining cost efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

21. Qualitative and quantitative water investigation of Erin-Ijesha (Olumirin) Waterfall, Erin-Ijesha, Nigeria

Author

Joseph O. Adejuwon and Faith I. George

Subjects

Waterfall, Water quality, Water analysis, Potable water, Nigeria, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

This study focused on the assessment of water quality in Erin-Ijesha (Olumirin) Waterfall, a prominent natural attraction in southwestern Nigeria. The physiochemical parameters, heavy metal concentrations, and bacteriological characteristics were examined in the upstream, midstream, and downstream sections, to ensure the resource quality and safety from harm. The results revealed notable variations in water quality. The pH, Total Dissolved Solids, Electrical Conductivity, and Temperature were highest in the midstream while Total Hardness, Alkalinity, salinity, Chloride, sulphate, Phosphate, Nitrate, Calcium, and Magnesium were highest in the downstream section. The physicochemical parameters were within the acceptable limits of World Health Organization (WHO), United States Environmental Protection Agency (USEPA), and the Standard Organization of Nigeria (SON) standards, except the pH, temperature, and Total Hardness were higher than the acceptable limits of 6.5–8.5, 50 °C and 50 mg/L in all the sections. Iron was above the WHO, USEPA, and SON permissible limits of 3.0 mg/L in all the sections of the river while there was no indication of copper, lead, and cadmium. Bacterial contamination, particularly the presence of E. coli, exceeded recommended safety thresholds. The Total Bacterial Count (TBC) exceeded safety limits by 0.1 million cfu/mL in the downstream. The mean of the parameters was higher in some instances, and sometimes lower than the values in the various sections of the river. A significant relationship existed between most physical, chemical, and bacteriological parameters at p

Published

2024

22. Assessment of current water, sanitation, and hygiene (WASH) practices in the third and ninth districts of N'Djamena, Chad

Author

Daniel Mangueina, Esi Awuah, Mathias Fru Fonteh, Prince Antwi-Agyei, and Emmanuel Tao Nadji

Subjects

chad, districts, hygiene, n'djamena, potable water, sanitation, Public aspects of medicine, RA1-1270

Abstract

Access to safe drinking water, sanitation, and hygiene in Chad's cities, especially N'Djamena, is a persistent and significant challenge. This study aimed to assess current practices in water, sanitation, and hygiene in N'Djamena's third and ninth districts. We surveyed 395 households, conducted water source identification, and analyzed seven water samples at the National Water Laboratory. Temperature, ammonium, total coliforms, and aerobic flora values exceeded World Health Organization (WHO) guidelines. Ammonium and temperature averaged 0.7 mg/L and 30.1–31.93 °C, respectively. Bacterial contamination (>100 MPN/100 mL) exceeded the WHO's 0 MPN/100 mL guidelines, rendering the water unfit for consumption. Survey results indicate that 78.7% use hand pumps, 21.1% have tap water access, and 0.2% rely on rivers for water. Regarding toilets, 92.8% have traditional models, 2.9% have modern facilities, and 4.3% practice open defecation. 95% dispose of untreated wastewater into nature, with only 5% using septic tanks. For solid waste, 72% use illegal dumpsites, 18% rely on public services, and 10% burn waste. Finally, 95.5% of households wash their hands with clean water and soap after using the toilet. It is crucial to treat drinking water and implement proper hygiene and sanitation measures to safeguard the population's health in the studied area. HIGHLIGHTS Identification of gaps for targeted interventions.; Enhancement of public health and quality of life.; Information for more effective WASH policies and programs.; Foundation for mobilizing resources and partnerships.; Strengthening resilience in the face of water-related challenges.;

Published

2024

23. Membrane distillation of synthetic urine for use in space structural habitat systems

Author

Sagar Viral, Mekalip Lauren M., and Lynam Joan G.

Subjects

moon, sustainable, potable water, cement, plasticizer, Chemistry, QD1-999

Abstract

Low-energy separation of potable water from urine is an important area of research, particularly if humans hope to transcend their earth-bound origins. The high cost of water in rocket payloads means that it must be recycled and the byproducts of the crew used productively. Direct Contact Membrane Distillation (DCMD) can use low heat sources to separate water from urea, which can then be used as a plasticizer in regolith-based cement to make it more workable. In the present study, traditional cement curing was compared to vacuum curing for regolith-based cement where artificial urine, concentrated using DCMD, was added as a plasticizer. Increases in workability were found for increasing concentrations of urea. Porosity also tended to increase with increasing urea concentration. Surprisingly, Lunar Highlands Simulant regolith-based batches with urea that were cured under vacuum showed higher compressive strengths than those cured traditionally. No literature is available for DCMD use with urine, indicating that this research is novel and could have widespread applications, such as in desert environments or public urinals.

Published

2024

24. Designing of highly efficient chitosan-based bimetallic Zr–Fe, three-dimensional bio-architecture for mitigating fluoride from water

Author

Shukla, Shraddha, Gupta, Anil R., Shaji, Swetha K., and Sharma, Saroj

Published

2024

25. Assessment of current water, sanitation, and hygiene (WASH) practices in the third and ninth districts of N'Djamena, Chad.

Author

Mangueina, Daniel, Awuah, Esi, Fonteh, Mathias Fru, Antwi-Agyei, Prince, and Nadji, Emmanuel Tao

Subjects

*WATER currents, *HYGIENE, *SANITATION, *INCINERATION, *SEPTIC tanks, *BACTERIAL contamination

Abstract

Access to safe drinking water, sanitation, and hygiene in Chad's cities, especially N'Djamena, is a persistent and significant challenge. This study aimed to assess current practices in water, sanitation, and hygiene in N'Djamena's third and ninth districts. We surveyed 395 households, conducted water source identification, and analyzed seven water samples at the National Water Laboratory. Temperature, ammonium, total coliforms, and aerobic flora values exceeded World Health Organization (WHO) guidelines. Ammonium and temperature averaged 0.7 mg/L and 30.1-31.93 °C, respectively. Bacterial contamination (>100 MPN/100 mL) exceeded the WHO's 0 MPN/100 mL guidelines, rendering the water unfit for consumption. Survey results indicate that 78.7% use hand pumps, 21.1% have tap water access, and 0.2% rely on rivers for water. Regarding toilets, 92.8% have traditional models, 2.9% have modern facilities, and 4.3% practice open defecation. 95% dispose of untreated wastewater into nature, with only 5% using septic tanks. For solid waste, 72% use illegal dumpsites, 18% rely on public services, and 10% burn waste. Finally, 95.5% of households wash their hands with clean water and soap after using the toilet. It is crucial to treat drinking water and implement proper hygiene and sanitation measures to safeguard the population's health in the studied area. [ABSTRACT FROM AUTHOR]

Published

2024

26. The energy-free purification of trace thallium(I)-contaminated potable water using a high-selective filter paper with multi-layered Prussian blue decoration.

Author

Lu, Jiangyan, Xiong, Zhu, Cheng, Yuhang, Long, Qingwu, Dong, Kaige, Zhang, Hongguo, Luo, Dinggui, Yu, Li, Zhang, Wei, and Zhang, Gaosheng

Abstract

Thallium is a highly toxic metal, and trace amount of thallium(I) (Tl+) in potable water could cause a severe water crisis, which arouses the exploitation of highly-effective technology for purification of Tl+ contaminated water. This report proposes the multi-layered Prussian blue (PB)-decorated composite membranes (PBx@PDA/PEI-FP) based on the aminated filter papers for Tl+ uptake. Extensively characterization by Fourier transform infrared spectrometer-attenuated total reflectance, scanning electron microscope, thermogravimetric analysis, X-ray photoelectron spectroscopy and X-ray diffraction were performed to confirm the in situ growth of cubic PB crystals on filter paper membrane surfaces via the aminated layers, and the successful fabrication of multi-layered PB overcoats via the increasing of aminated layers. The effect of PB layers on Tl+ removal by PBx@PDA/PEI-FP from simulated drinking water was evaluated as well as the influence of different experimental conditions. A trade-off between PB decoration layer number and PB distribution sizes is existed in Tl+ uptake by PBx@PDA/PEI-FP. The double-layered PB2@PDA/PEI-FP membrane showed the maximum sorption capacity, but its Tl+ uptake performance was weakened by the acid, coexisting ions (K+ and Na+) and powerful operation pressure, during filtrating a large volume of low-concentrated Tl+-containing water. However, the negative effect of coexisting ions on the Tl+ uptake could be effectively eliminated in weak alkaline water, and the Tl+ removal was increased up to 100% without any pressure driving for PB2@PDA/PEI-FP membrane. Most importantly, PB2@PDA/PEI-FP displayed the high-efficiency and high-selectivity in purifying the Tl+-spiked Pearl River water, in which the residual Tl+ in filtrate was less than 2 µg·L−1 to meet the drinking water standard of United States Environmental Protection Agency. This work provides a feasible avenue to safeguard the drinking water in remote and underdeveloped area via the energy-free operation. [ABSTRACT FROM AUTHOR]

Published

2024

27. Phenolic compounds occurrence and human health risk assessment in potable and treated waters in Western Cape, South Africa.

Author

Mhlongo, Nkosiyenzile Londiwe, Akharame, Michael Ovbare, Pereao, Omoniyi, Human, Izanne Susan, and Opeolu, Beatrice Olutoyin

Abstract

Phenolic pollutants from industrial and agricultural activities pose a major threat to the world's potable water supply. The persistent micro-pollutants often find their way into drinking water sources with possible adverse human health implications. In this study, bottled water, tap water, and wastewater treatment plant (WWTP) effluent samples from the Boland region of the Western Cape, South Africa were assessed to determine 4-chlorophenol (4-CP) and 2,4-dichlorophenol (2,4-DCP) levels using HPLC/DAD instrumentation. The selected area is known for its vast agricultural ventures and wineries. Evaluation of the human health risk (cancer risk) for the pollutants was conducted using the hazard quotient (HQ). The Ames mutagenicity test was also conducted using the Salmonella typhimurium T98 and T100 strains and the S9 activation enzyme. Trace levels of the phenolics were detected in the samples with a range of 9.32 × 10-7--1.15 × 10-4 mg/L obtained for 4-CP, and 8.80 × 10-7--1.72 × 10-4 mg/L recorded for 2,4-DCP. Both compounds had levels below the limit of 0.01 mg/L prescribed by South African legislation. The assessed HQ for the phenolic concentrations indicates a low level of potential ecological risk and none of the samples had a cancer risk value that exceeded the regulatory limit. The possibility of the analyzed samples causing cancer is unlikely, but non-carcinogenic adverse effects were found. Strong mutagenicity was observed for the T98 strains with a potential ability to cause mutation toward the insertion or deletion of a nucleotide. The T100 bacterial strain showed very slight mutagenicity potential, however, it is unlikely to cause any mutation. The levels of phenolics in the potable water samples may pose a significant threat to human health. Hence, screening persistent organic chemicals in potable water sources and evaluating their potential human health effects is pertinent to prevent associated health challenges. [ABSTRACT FROM AUTHOR]

Published

2024

28. Evaluación de la calidad del agua envasada para consumo humano en la ciudad de Villavicencio (Colombia.

Author

Ángel Navarro-Ramírez, Miguel, Ángel Ramírez-Niño, Miguel, Villalba-Rey, Deicy, Alejandra Barbosa-Méndez, María, and Irene Saavedra-Rodríguez, Luz

Subjects

COLIFORMS, WATER utilities, WATER supply, WATER quality, CONSUMPTION (Economics)

Abstract

Copyright of Revista U.D.C.A Actualidad & Divulgación Científica is the property of Universidad de Ciencias Aplicadas y Ambientales U.D.C.A and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

29. COMPARATIVE ANALYSIS OF MICROORGANISMS IN POTABLE WATER: A STUDY IN BIKANER ZONE, INDIA.

Author

UR REHMAN, MIRZA ZUNAID and JASUJA, NAKULESHWAR DUT

Subjects

FECAL contamination, DRINKING water, MICROORGANISMS, ENVIRONMENTAL research, PATHOGENIC bacteria, AEROMONAS hydrophila

Published

2024

30. Water Reuse in the Hill Country: Lessons from Existing Reuse Facilities in Texas and Opportunities to Advance Reuse in Comal County

Author

Rachel Hanes

Subjects

Purple pipe infrastructure, Texas Hill Country, Potable water, water reuse, Water supply for domestic and industrial purposes, TD201-500

Abstract

The Greater Edwards Aquifer Alliance outlines the opportunities present in the Texas Hill Country to use recycled water to alleviate the burdens placed on the Edwards and Trinity aquifers by focusing on the present state of recycled water use in Comal County, Texas. The impacts of population growth, prolonged drought, and wastewater disposal on water sources in Comal County are analyzed along with current sources of water reuse to show where recycled water can be utilized effectively. Reclaimed water systems in seven municipalities across Texas are analyzed as case studies to provide examples for further implementation. Water reuse is integral to protecting water supplies and ensuring counties in the Hill Country can adequately protect the health, safety, and quality of life of current and future residents. Water reuse is a vastly underutilized tool in the effort to manage water supplies in the Hill Country, and there are a variety of authorization, financing, and implementation opportunities present in the region to take better advantage of this resource.

Published

2024

31. A Software and Hardware Supported System Suggestion for Obtaining Potable Water from Air with Solar Energy

Author

İpek Altunyurt and Cüneyt Diri

Subjects

water cycle, potable water, condensation, dew point, solar energy, thermoelectric cooling, su döngüsü, içilebilir su, yoğuşma, çiğ noktası, güneş enerjisi, termoelektrik soğutma, Architecture, NA1-9428, Architectural drawing and design, NA2695-2793

Abstract

Fresh water is one of the most important resources consumed. However, droughts due to global climate change, rapid population growth increasing construction sector activities and the lack of importance to protect freshwater resources during these activities increase the problems related to water. This study aims to raise awareness among people about the protection of freshwater resources. For this purpose, a software and hardware-supported system has been developed to obtain fresh water by cooling and condensing the humidity in the air with the help of thermoelectric modules and fans. The developed system can automatically become active or passive according to the weather conditions and uses less energy than its counterparts. The system, which can also operate independently of the grid with solar energy, can also purify the water obtained by producing ozone gas with the effect of static electricity on the surface where water droplets form and make it drinkable.

Published

2023

32. Seasonal distribution, source apportionment and risk assessment of polycyclic aromatic hydrocarbons in groundwaters in Owo, Southwestern Nigeria

Author

Odunayo T. Ore, Ajibola A. Bayode, Hamza Badamasi, Johnson Adedeji Olusola, Solomon S. Durodola, Olaniran K. Akeremale, and Morenike O. Adesina

Subjects

environment, polycyclic aromatic hydrocarbons, potable water, risk assessment, sustainability, Environmental technology. Sanitary engineering, TD1-1066

Abstract

The study focused on evaluating the seasonal distribution, source apportionment, and probabilistic risk assessment of polycyclic aromatic hydrocarbons (PAHs) in groundwater. Groundwater samples were obtained from Owo, southwestern Nigeria and subjected to liquid–liquid extraction and quantified using gas chromatography–mass spectrometry. Total PAH concentrations varied from about 180 to 23,600 ng/L during the dry season. The wet season, on the other hand, exhibited a wider range, from about 1,550 to 150,000 ng/L. Seasonal variations were also found in PAH types and concentrations, with relatively higher concentrations recorded during the wet season. Diagnostic ratios and positive matrix factorization indicated that coal/biomass combustion and traffic-related vehicular emissions were the prevalent sources of PAHs in groundwater. Health risk assessment indicated potential carcinogenic risks (incremental lifetime cancer risk (ILCR) > 1E − 04), while ecological assessment suggested medium (RQNC < 800 and RQMPC ≥ 1) and high ecological risks (RQNC ≥ 800 and RQMPC ≥ 1). The study reflected the need for effective mitigation strategies. HIGHLIGHTS The study examined the risk assessment of PAHs in groundwater.; PAH concentrations were relatively higher in the wet season.; Coal/biomass combustion and vehicular emissions were the sources of PAHs.; Carcinogenic risks and medium to high ecological risks were associated with the water quality.;

Published

2023

33. Surveillance of Naegleria fowleri in Louisiana's public water systems

Author

Lauren Ward and Samendra P. Sherchan

Subjects

brain-eating amoeba, monitoring, potable water, Public aspects of medicine, RA1-1270

Abstract

The free-living amoeba Naegleria fowleri (Nf) inhabits soil and natural waters worldwide: it is thermophilic and thrives at temperatures up to 45 °C and in a multitude of environments. Three deaths in Louisiana were attributed to primary amoebic meningoencephalitis (PAM) caused by Nf infection in 2011 and 2013. Following these incidents, public water systems are now monitored for the presence of Nf in Louisiana. From 2014 to 2018, 29% (27/93) of samples collected showed positive for Nf and 68% (63/93) showed all thermophilic amoeba culture. Ten raw water sources and 17 distribution water systems tested positive. The year 2017 showed the highest number of samples with Nf (n = 10) followed by nine samples in 2015. As climate change increases surface water temperatures, continued testing for Nf prevalence will be an important facet of water monitoring and will need to extend into locations farther north than the current most common range. HIGHLIGHTS The occurrence of Naegleria fowleri in public water systems was studied.; About 29% (27/93) of samples collected showed positive for Nf.; More research is warranted to determine the survival of this emerging pathogen in water systems.;

Published

2023

34. Water Access and Adherence Intention Among HIV-Positive Pregnant Women and New Mothers Receiving Antiretroviral Therapy in Zambia

Author

Nutor, Jerry John, Marquez, Shannon, Slaughter-Acey, Jaime C, Hoffmann, Thomas J, DiMaria-Ghalili, Rose Ann, Momplaisir, Florence, Opong, Emmanuel, and Jemmott, Loretta Sweet

Subjects

Health Services and Systems, Public Health, Health Sciences, Clinical Research, Prevention, HIV/AIDS, Behavioral and Social Science, Infectious Diseases, Reproductive health and childbirth, Infection, Anti-HIV Agents, Anti-Retroviral Agents, Drinking Water, Female, HIV Infections, Humans, Infant, Intention, Male, Medication Adherence, Mothers, Pregnancy, Pregnancy Complications, Infectious, Pregnant Women, Water Supply, Zambia, ARV, Sub-Saharan Africa, potable water, women, rural, borehole, well water, Theory of Planned Behavior, Public Health and Health Services, Health services and systems, Public health

Abstract

BackgroundMother-to-infant transmission of HIV is a major problem in Sub-Saharan Africa despite free or subsidized antiretroviral treatment (ART), but is significantly reduced when mothers adhere to ART. Because potable water access is limited in low-resource countries, we investigated water access and ART adherence intention among HIV-positive pregnant women and new mothers in Zambia.MethodsOur convenience sample consisted of 150 pregnant or postpartum women receiving ART. Descriptive statistics compared type of water access by low and high levels of ART adherence intention.ResultsMost (71%) had access to piped water, but 36% of the low-adherence intention group obtained water from a well, borehole, lake or stream, compared to only 22% of the high-adherence intention group. The low-adherence intention group was more rural (62%) than urban (38%) women but not statistically significant [unadjusted Prevalence Ratio (PR) 0.73, 95% CI: 0.52-1.02; adjusted PR 1.06, 95% CI: 0.78-1.45].ConclusionProviding potable water may improve ART adherence. Assessing available water sources in both rural and urban locations is critical when educating women initiating ART.

Published

2022

35. Spring Water Quality in a Flood-Prone Area of Kampala City, Uganda: Insights Furnished by Sanitary and Limnochemical Data

Author

Ronald Tenywa, Timothy Omara, Gerald Kwikiriza, Christopher Angiro, and Emmanuel Ntambi

Subjects

potable water, physico-chemical quality, water quality index, Science

Abstract

For millennia, springs have provided water for drinking, domestic use, balneological treatment, liminality rites as well as tourist attractions. Amidst these uses, anthropogenic activities, especially urbanization and agriculture, continue to impair the functionality of springs. With the looming decadal climate change, freshwater springs could be a sustainable source of clean water for the realisation of Sustainable Development Goal 6. This paper presents the results of the sanitary inspection and assessment of limnochemical characteristics and quality of water samples (n = 64) from four freshwater springs (coded SPR1, SPR2, SPR3, and SPR4) in Kansanga, a flash flood-prone area in the African Great Lakes region of Uganda. Each sample was analysed for 17 parameters (temperature, pH, electrical conductivity, turbidity, fluorides, sulphates, chlorides, nitrates, orthophosphates, total dissolved solids, dissolved oxygen, total alkalinity, potassium, sodium, total, magnesium and calcium hardness) following the standard methods. Water quality index (WQI) was calculated to establish the quality of the water samples based on the physicochemical parameters measured. Based on the sanitary risk assessment results, the springs had medium- to high-risk scores, but most water parameters were within the WHO guidelines for potable water, except for nitrates (in SPR1 and SPR2), hardness levels (in SPR2), and dissolved oxygen (in all the samples). Sampling season and location had significant effects on the limnochemistry of the freshwater springs (p < 0.05). The water quality indices calculated indicated that the water from the springs was of good quality (WQI = 50–57), but there was a reduction in water quality during the wet season. The best water quality was recorded in samples from SPR4, followed by those for SPR3, SPR1, and SPR2. These results provide insights into the contribution of floods and poor sanitation facilities to the deterioration of spring water quality in Kansanga, and the need to leverage additional conservation strategies to support vulnerable communities in the area. Further studies are required to establish the risk posed by trace metals and microbes that may contaminate freshwater in the studied springs, especially following flood events.

Published

2024

36. Evaluating Potable Rainwater Harvesting System Design and Regulations

Author

Sojka, Sarah, Gee, Kathy DeBusk, Sojka, Benjamin, de Boer, Jacob, Editorial Board Member, Barceló, Damià, Series Editor, Garrigues, Philippe, Editorial Board Member, Kostianoy, Andrey G., Series Editor, Gu, Ji-Dong, Editorial Board Member, Hutzinger, Otto, Founding Editor, Jones, Kevin C., Editorial Board Member, Negm, Abdelazim M., Editorial Board Member, Newton, Alice, Editorial Board Member, Nghiem, Duc Long, Editorial Board Member, Garcia-Segura, Sergi, Editorial Board Member, Verlicchi, Paola, Editorial Board Member, Wagner, Stephan, Editorial Board Member, Rocha-Santos, Teresa, Editorial Board Member, Picó, Yolanda, Editorial Board Member, Younos, Tamim, editor, Lee, Juneseok, editor, and Parece, Tammy E., editor

Published

2023

37. Rainwater Harvesting for Potable Water Supply: Opportunities and Challenges

Author

Akter, Aysha, de Boer, Jacob, Editorial Board Member, Barceló, Damià, Series Editor, Garrigues, Philippe, Editorial Board Member, Kostianoy, Andrey G., Series Editor, Gu, Ji-Dong, Editorial Board Member, Hutzinger, Otto, Founding Editor, Jones, Kevin C., Editorial Board Member, Negm, Abdelazim M., Editorial Board Member, Newton, Alice, Editorial Board Member, Nghiem, Duc Long, Editorial Board Member, Garcia-Segura, Sergi, Editorial Board Member, Verlicchi, Paola, Editorial Board Member, Wagner, Stephan, Editorial Board Member, Rocha-Santos, Teresa, Editorial Board Member, Picó, Yolanda, Editorial Board Member, Younos, Tamim, editor, Lee, Juneseok, editor, and Parece, Tammy E., editor

Published

2023

38. Introduction: Paradigm Shift in Producing Potable Water

Author

Younos, Tamim, Lee, Juneseok, Parece, Tammy E., de Boer, Jacob, Editorial Board Member, Barceló, Damià, Series Editor, Garrigues, Philippe, Editorial Board Member, Kostianoy, Andrey G., Series Editor, Gu, Ji-Dong, Editorial Board Member, Hutzinger, Otto, Founding Editor, Jones, Kevin C., Editorial Board Member, Negm, Abdelazim M., Editorial Board Member, Newton, Alice, Editorial Board Member, Nghiem, Duc Long, Editorial Board Member, Garcia-Segura, Sergi, Editorial Board Member, Verlicchi, Paola, Editorial Board Member, Wagner, Stephan, Editorial Board Member, Rocha-Santos, Teresa, Editorial Board Member, Picó, Yolanda, Editorial Board Member, Younos, Tamim, editor, Lee, Juneseok, editor, and Parece, Tammy E., editor

Published

2023

39. Physiological Adequacy Assessment of Potable Water in Lovozero District (Murmansk Region, Russia)

Author

Mazukhina, Svetlana I., Sandimirov, Sergey S., Drogobuzhskaya, Svetlana V., Bezaeva, Natalia S., Series Editor, Gomes Coe, Heloisa Helena, Series Editor, Nawaz, Muhammad Farrakh, Series Editor, Frank-Kamenetskaya, Olga V., editor, Vlasov, Dmitry Yu., editor, Panova, Elena G., editor, and Alekseeva, Tatiana V., editor

Published

2023

40. Economic Aspects of the Kenya Rift Lakes and Their Deposits

Author

Renaut, Robin W., Owen, Richard Bernhart, Schwalb, Antje, Series Editor, Valero-Garcés, Blas L., Series Editor, Renaut, Robin W., and Owen, Richard Bernhart

Published

2023

41. Sustainable Water Technology: Diversion of Transpiration Mechanism to Meet Global Water Supply Naturally

Author

Hossain, Md. Faruque and Hossain, Md. Faruque

Published

2023

42. Nanofiltration Applications for Potable Water, Treatment, and Reuse

Author

Johnson, Vandana, Kurian, Caroline Biju, Menon, Diya, Wagh, Nilesh S., Lakkakula, Jaya, and Shah, Maulin P., editor

Published

2023

43. UV Irradiation-Based Potable Water Disinfection System Using Solar Power

Author

Kumar, Ayush, Rathore, Shivam Singh, Singh, Manander, Ratna, Sanatan, Singh, Rajeev Kumar, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Haddar, Mohamed, Editorial Board Member, Kwon, Young W., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Shukla, Anoop Kumar, editor, Sharma, Bhupendra Prakash, editor, Arabkoohsar, Ahmad, editor, and Kumar, Pradeep, editor

Published

2023

44. Recent advances in heavy metal/metalloid ion treatment from wastewater using nanocomposites and bionanocomposites

Author

Namita Singh, Annu Yadav, Sumistha Das, and Nitai Debnath

Subjects

water pollution, sustainable development, potable water, biosorption, fungal hyphae, heavy metal, Chemical technology, TP1-1185

Abstract

Wastewater remediation is of paramount importance for the water-stressed modern civilization from the perspective of sustainable development and the management of limited freshwater resources. Contaminants such as heavy metal and metalloid ions, toxic dyes, and pathogenic microbes present in the aquatic ecosystem have adverse effects not only on the environment but also on human health. Traditional wastewater remediation processes are costly, energy-consuming, and have less efficiency in removing pollutants from wastewater. Multi-phasic nanomaterials or nanocomposites have enormous potential for removing contaminants from water bodies. These materials have an enormous tunable surface area for interacting with the target toxicants and are extremely stable in the aquatic system, but they readily agglomerate. Many research groups have exploited biosorption, bioleaching, and bioprecipitation capacities of fungal hyphae for wastewater remediation. Recently, researchers have attempted to explore the synergistic effect of the bionanocomposite of fungal hyphae and nanomaterials for removing pollutants from wastewater. This bionanocomposite has already shown promise as a superior material for wastewater treatment and can easily be separated from the polluted water for reuse over several cycles. The bionanocomposite-mediated decontamination of water can lead to a total paradigm shift in wastewater management strategies.

Published

2024

45. Phenolic compounds occurrence and human health risk assessment in potable and treated waters in Western Cape, South Africa

Author

Nkosiyenzile Londiwe Mhlongo, Michael Ovbare Akharame, Omoniyi Pereao, Izanne Susan Human, and Beatrice Olutoyin Opeolu

Subjects

potable water, wastewater, 4-chlorophenol, 2,4-dichlorophenol, mutagenicity, risk assessment, Toxicology. Poisons, RA1190-1270

Abstract

Phenolic pollutants from industrial and agricultural activities pose a major threat to the world’s potable water supply. The persistent micro-pollutants often find their way into drinking water sources with possible adverse human health implications. In this study, bottled water, tap water, and wastewater treatment plant (WWTP) effluent samples from the Boland region of the Western Cape, South Africa were assessed to determine 4-chlorophenol (4-CP) and 2,4-dichlorophenol (2,4-DCP) levels using HPLC/DAD instrumentation. The selected area is known for its vast agricultural ventures and wineries. Evaluation of the human health risk (cancer risk) for the pollutants was conducted using the hazard quotient (HQ). The Ames mutagenicity test was also conducted using the Salmonella typhimurium T98 and T100 strains and the S9 activation enzyme. Trace levels of the phenolics were detected in the samples with a range of 9.32 × 10−7—1.15 × 10−4 mg/L obtained for 4-CP, and 8.80 × 10−7—1.72 × 10−4 mg/L recorded for 2,4-DCP. Both compounds had levels below the limit of 0.01 mg/L prescribed by South African legislation. The assessed HQ for the phenolic concentrations indicates a low level of potential ecological risk and none of the samples had a cancer risk value that exceeded the regulatory limit. The possibility of the analyzed samples causing cancer is unlikely, but non-carcinogenic adverse effects were found. Strong mutagenicity was observed for the T98 strains with a potential ability to cause mutation toward the insertion or deletion of a nucleotide. The T100 bacterial strain showed very slight mutagenicity potential, however, it is unlikely to cause any mutation. The levels of phenolics in the potable water samples may pose a significant threat to human health. Hence, screening persistent organic chemicals in potable water sources and evaluating their potential human health effects is pertinent to prevent associated health challenges.

Published

2024

46. A detailed review on various aspects of inverted solar still desalination systems proposed for clean water production.

Author

Hilarydoss, Sharon

Subjects

SOLAR stills, SALINE water conversion, GREEN business, DRINKING water, REVERSE osmosis, BRACKISH waters

Abstract

Rapid degradation of quality and quantity of the available limited fresh water reserves has forced nations around the globe to search for alternate fresh water sources. This has led to the development of various desalination technologies to generate potable water from abundantly available sea and brackish water. Desalination sector has undergone various upgradations to meet the rising fresh water demand in a sustainable way. One such upgradation is the utilization of solar energy as an energy source. High cost and associated environmental impacts with large-scale desalination systems have shifted the focus of researchers towards research and development of various small-scale efficient solar stills for cheap potable water production in rural, remote, arid, and coastal locations. In this review article, various configurations of a non-conventional solar still, namely inverted solar still, have been reviewed extensively by highlighting its classifications, design aspects, working principle, features, and economics. Moreover, the role of inverted solar still's evaporating and condensing surface characteristics and thermal properties on its distillate productivity has also been discussed. Inverted absorber multi-basin solar still and inverted multi-effect diffusion solar still configurations are highly productive. Economics of inverted solar still is better than other conventional solar still configurations and conventional reverse osmosis plant of few m3/day capacity. This review article will facilitate researchers to select appropriate inverted solar still configuration for further performance improvement and commercialization. The scope for future research works on inverted solar still has also been listed. [ABSTRACT FROM AUTHOR]

Published

2023

47. Assessment of Potential Potable Water Reserves in Islamabad, Pakistan Using Vertical Electrical Sounding Technique.

Author

Rashid, Mehboob ur, Kamran, Muhammad, Zeb, Muhammad Jawad, Islam, Ihtisham, Janjuhah, Hammad Tariq, and Kontakiotis, George

Subjects

DRINKING water, WATER management, INFORMATION resources management, SHEAR zones, DISTRIBUTION (Probability theory), GROUNDWATER recharge

Abstract

This study aimed to investigate the potential reserves of potable water in Islamabad, Pakistan, considering the alarming depletion of water resources. A detailed vertical electrical sounding (VES) survey was conducted in two main localities: Bara Kahu (Area 1) and Aabpara to G-13 (Area 2), based on accessibility, time, and budget constraints. A total of 23 VES measurements were performed, with 13 in Area 1 and 10 in Area 2, reaching a maximum depth of 500 m. Geologs and pseudosections were generated to assess lithological variations, aquifer conditions, and resistivity trends with depth. Statistical distribution of resistivity (SDR), hydraulic parameters, true resistivity, macroanisotropy, aquifer depth and thickness, and linear regression (R2) curves were calculated for both areas, providing insights into the aquifer conditions. The results revealed that the study areas predominantly consisted of sandy lithology as the aquifer horizon, encompassing sandstone, sandy clay, and clayey sand formations. Area 2 exhibited a higher presence of clayey horizons, and aquifers were generally deeper compared to Area 1. The aquifer thickness ranged from 10 m to 200 m, with shallow depths ranging from 10 m to 60 m and deeper aquifers exceeding 200 m. Aquifers in Area 1 were mostly semi-confined, while those in Area 2 were predominantly unconfined and susceptible to recharge and potential contamination. The northwest–southeast side of Area 1 exhibited the highest probability for ground resource estimation, while in Area 2, the northeast–southwest side displayed a dominant probability. The study identified a probable shear zone in Area 2, indicating lithological differences between the northeast and southwest sides with a reverse sequence. Based on the findings, it is recommended that the shallow aquifers in Area 1 be considered the best potential reservoir for water supply. In contrast, deeper drilling is advised in Area 2 to ensure a long-lasting, high-quality water supply. These results provide valuable information for water resource management and facilitate sustainable water supply planning and decision making in Islamabad, Pakistan. [ABSTRACT FROM AUTHOR]

Published

2023

48. Surveillance of Naegleria fowleri in Louisiana’s public water systems.

Author

Ward1., Lauren and Sherchan, Samendra P.

Subjects

*NAEGLERIA fowleri, *WATER temperature, *WATER distribution, *WATER testing, *POSITIVE systems

Abstract

The free-living amoeba Naegleria fowleri (Nf) inhabits soil and natural waters worldwide: it is thermophilic and thrives at temperatures up to 45 °C and in a multitude of environments. Three deaths in Louisiana were attributed to primary amoebic meningoencephalitis (PAM) caused by Nf infection in 2011 and 2013. Following these incidents, public water systems are now monitored for the presence of Nf in Louisiana. From 2014 to 2018, 29% (27/93) of samples collected showed positive for Nf and 68% (63/93) showed all thermophilic amoeba culture. Ten raw water sources and 17 distribution water systems tested positive. The year 2017 showed the highest number of samples with Nf (n ¼ 10) followed by nine samples in 2015. As climate change increases surface water temperatures, continued testing for Nf prevalence will be an important facet of water monitoring and will need to extend into locations farther north than the current most common range [ABSTRACT FROM AUTHOR]

Published

2023

49. Use of a local Saharan plant (Cladium mariscus) in the solar still under southeast Algeria climate.

Author

Aoun, Yacine, Chemsa, Ali, Khechekhouche, Abderrahmane, Bellila, Abderlkader, Kemerchou, Imad, Mostefaoui, Omar, and Abderrahim, Allal

Subjects

SOLAR stills, WATER shortages, THERMAL efficiency, PLANT drying, DRINKING water

Abstract

This study presents an experimental comparison of three solar stills operating under identical weather conditions. The first still, designated as the control conventional solar still (CSS), was compared to two modified versions: one featuring plant Cladium mariscus in its green state modified solar still (MSS1) and the other with the same quantity of plant in its dry state. The primary objective was to assess how the presence of plant Cladium mariscus, available abundantly and free of cost in the region, influences the performance of the solar still. The underlying hypothesis was that such integration could enhance water production. The results of the experiments revealed notable improvement rates; with MSS1 achieving a 17.33% enhancement and MSS2 was demonstrating a remarkable 33.27% improvement. In terms of thermal efficiency, MSS1 achieved 28.25%, MSS2 reached 32.65%, while CSS recorded 25.37%. These findings offer valuable insights for the development of more effective strategies to address the challenges associated with drinking water scarcity. [ABSTRACT FROM AUTHOR]

Published

2023

50. Ancient Maya reservoirs, constructed wetlands, and future water needs.

Author

Lucero, Lisa J.

Subjects

*MAYAS, *WETLANDS, *ALGAL growth, *ENDEMIC diseases, *WATER shortages, *PETROLEUM production

Abstract

The Classic Maya (c. 250 to 900 CE) in the tropical southern lowlands of Central America dealt with water scarcity during annual dry seasons and periods of climate instability via sophisticated urban reservoir systems they relied on for over a thousand years. Surface water is limited because typically rain percolates through the karstic terrain. I posit that Maya reservoirs functioned as do constructed wetlands (CWs) at present. Still-water systems like CWs and Maya reservoirs can become stagnant and nonpotable due to the build-up of nutrients that promote algal growth. Stagnant waters also serve as breeding grounds for mosquitoes that spread endemic diseases. CWs keep water clean via certain aquatic plants since all plants uptake nutrients (e.g., nitrogen, phosphorus) and decomposing plant matter supports microbial biofilms that break down nutrients. CWs also support diverse zooplankton that prey on pathogens and bacteria that assist to denitrify water. CWs do not require the use of chemicals or fossil fuels and after the initial labor-intensive output become self-cleaning and self-sufficient with some maintenance. I posit that the Maya used a diverse array of aquatic plants and other biota to keep water clean in the same manner as do CWs, which I demonstrate using evidence from excavations and settlement maps, sediment cores and current wetlands, and the iconographic and hieroglyphic records. The next step is to combine what we know about ancient Maya reservoirs in conjunction with what is currently known about CWs to better address future water needs. [ABSTRACT FROM AUTHOR]

Published

2023