Your search keyword '"Abdelkader T. Ahmed"' showing total 9 results

1. Innovative approach for purification of wastewater effluent via soil filtration

Author

Abdelkader T. Ahmed

Subjects

Environmental Engineering, Wastewater, law, Environmental science, Sewage treatment, Water quality, Management, Monitoring, Policy and Law, Pulp and paper industry, Pollution, Effluent, Filtration, Water Science and Technology, law.invention

Published

2020

2. Water quality index analysis for portable and bottled waters

Author

Abdelkader T. Ahmed

Subjects

Hydrology, 0303 health sciences, 03 medical and health sciences, Environmental Engineering, Index (economics), Health, Toxicology and Mutagenesis, Environmental science, Water quality, 010501 environmental sciences, 01 natural sciences, 030304 developmental biology, 0105 earth and related environmental sciences, Water Science and Technology

Abstract

This research work aimed to investigate the degree of quality of tap and bottled waters available in Al-Madinah city through an experimental program comprising chemical, physical and biological tests. The study included examining the quality of the water supply network components such as taps, underground storage tanks and feeding pipes of the network. Filtration influence on the tap water was investigated by testing different water samples before and after the filtration process at different locations. The experiments also examined various bottled water brands sold in Al-Madinah. In addition, the impact of using the dispenser on the water quality of large bottled waters was studied. The water quality of two types of waters was compared by estimating water quality index (WQI). Results of this study revealed that the overall quality of the tap water is within standard values; however, deterioration occurs for the water through its journey in the water supply system. Results revealed that hardness and fluoride concentrations in bottled waters exhibited high values close to or more than allowable values of the standards. Furthermore, results confirmed that using the filter and dispenser decreased the water quality degree in the long run. Bottled waters showed a higher grade of WQI than tap water.

Published

2020

3. Impacts of temperature alteration on the drinking water quality stored in plastic bottles

Author

Mohammed Emad, Abdelkader T. Ahmed, and Mohammed A. Bkary

Subjects

Bottled water, Plastic bottles, Water supply for domestic and industrial purposes, Temperature alteration, Heavy metals, Chloride, chemistry.chemical_compound, Human health, Water quality, chemistry, Tap water, Environmental chemistry, medicine, Drinking water, Environmental science, TD201-500, Water content, Fluoride, Water Science and Technology, medicine.drug

Abstract

Many people prefer to drink bottled water instead off the tap water. The bottled water is stored in the plastic bottles sometimes for long time. These plastic bottles might leach out some harmful materials into the water especially when exposed to temperature alteration, which may affect human health. This research work focused on investigating the effect of changing temperature on the bottled water quality. The work studied the effect of heating water in plastic bottles by sun, oven, and microwave. The study included also the impact of cooling and freezing the bottled waters. Results showed that temperature alterations caused changes in some physicochemical properties of bottled waters such as decreasing the values of pH and TDS and increasing levels of fluoride and chloride. In addition, the concentration levels of some physiochemical parameters exceeded the permissible values for drinking water. With temperature alterations, all levels of heavy metals in bottled waters were minimal except some small concentrations of copper and zinc. Results confirmed also differences in behavior between the bottled water brands exposed to the same temperature alterations. Heating bottled waters above 50 °C is alarming problem on the water quality. This is because above this degree, many alternations were observed in the water content. The outcomes of this work are useful for improving the current legislation on bottled waters and their storage.

Published

2021

4. Desalination: From Ancient to Present and Future

Author

Alper Baba, Andreas N. Angelakis, Zhiwei Wang, Abdelkader T. Ahmed, Mohammad Valipour, Gurpal S. Toor, Kwang-Ho Choo, and Rohitashw Kumar

Subjects

distillation, Brackish water, Water supply for domestic and industrial purposes, Persian Gulf, Geography, Planning and Development, Stormwater, Water extraction, Hydraulic engineering, Aquatic Science, Reuse, Biochemistry, Natural resource, Desalination, Rainwater harvesting, evaporation, reverse osmosis, Environmental protection, Environmental science, Reverse osmosis, TC1-978, TD201-500, brackish water, Water Science and Technology, seawater

Abstract

Water is life, and without water, there would be no civilizations and a vacant Earth. Water is considered an abundant natural resource on the earth. Water covers 3/4 of the surface. However, 97% of the available water on the earth is salty oceanic water, and only a tiny fraction (3%) is freshwater. This small portion of the available water supplies the needs of humans and animals. However, freshwater exists in underground, rivers, and lakes and is insufficient to cover all the world’s water demands. Thus, water saving, water reuse, rainwater harvesting, stormwater utilization, and desalination are critical for maintaining water supplies for the future of humanity. Desalination has a long history spanning centuries from ancient times to the present. In the last two decades, desalination has been rapidly expanding to meet water needs in stressed water regions of the world. Yet, there are still some problems with its implementation in several areas of the world. This review provides a comprehensive assessment of the history of desalination for wiser and smarter water extraction and uses to sustain and support the water needs of the earth’s inhabitants.

Published

2021

5. Physicochemical characterization of miscanthus and its application in heavy metals removal from wastewaters

Author

Ahmed I. Osman, Christopher R. Johnston, David Rooney, and Abdelkader T. Ahmed

Subjects

Environmental Engineering, Perennial plant, 020209 energy, General Chemical Engineering, Biomass, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Ornamental plant, 0202 electrical engineering, electronic engineering, information engineering, Temperate climate, Environmental Chemistry, Leaching (agriculture), Waste Management and Disposal, 0105 earth and related environmental sciences, General Environmental Science, Water Science and Technology, biology, Renewable Energy, Sustainability and the Environment, Miscanthus, biology.organism_classification, Pulp and paper industry, Agronomy, Elemental analysis, Environmental science, Sewage treatment

Abstract

Miscanthus species originated in Asia and were imported into Europe and North America as ornamental plants. They are perennial rhizomatous grasses with lignified stems and present very high growth rates, even in more temperate maritime climates. This potentially abundant biomass offers benefits to many sectors and is used to an extent in energy generation applications, however, issues with regards to its physicochemical combustion characteristics currently hinder this uptake. In this work, a novel alternative application, namely its direct use of dry miscanthus (DM) plant as an adsorbent for heavy metals removal (HMR) from wastewaters, was investigated. The physical, chemical, and leaching properties of DM were analyzed using XRD, SBET, TGA, DSC, SEM-EDX, elemental analysis, halogen, and ICP techniques. Subsequently, the HMR capacity of miscanthus was studied for lead, copper, and zinc from aqueous solutions. Results showed a high percentage removal of 66%, 83%, and 88%, respectively, with the majority being removed during the first hour of the test. Overall the results show that DM plant can be effectively utilized in wastewater treatment. © 2017 American Institute of Chemical Engineers Environ Prog, 2017

Published

2017

6. Water quality for irrigation and drinking water use of Aflaj in Oman

Author

Abdelkader T. Ahmed

Subjects

Water resources, Irrigation, Soil water, Sodium adsorption ratio, Environmental engineering, Environmental science, Water quality, Drainage, Water resource management, Groundwater, Water use, Water Science and Technology

Abstract

The Sultanate of Oman is an arid country with scarce water resources mainly consisting of groundwater. Aflaj are artificial canals constructed centuries ago to transfer horizontally the groundwater to a location at the surface. The water quality of these Aflaj is a very important factor to be considered for healthy and safe use of this water. This paper aimed to study the characteristics of the groundwater through its journey in Aflaj from source point up to its usage point. An experimental programme was adopted to investigate the water quality of Al Hammam Aflaj in Muscat, Sultanate of Oman. The results showed that some positions of the Falaj have high content of some elements, such as Ca, above the allowable values of drinking water standards. Results proved that the water of Al Hammam Falaj in general can be used with caution as a drinking water; however, some care and monitoring should be applied regularly. Results of sodium adsorption ratio (SAR) and soluble sodium percentage (SSP) equations revealed that the water Falaj can be used for irrigation for all soil types but cannot be used on soils with restricted drainage due to its relatively high salinity.

Published

2014

7. Effects of shallow water table, salinity and frequency of irrigation water on the date palm water use

Author

Rachida Bouhlila, Tarek Abichou, Abdelkader T. Ahmed, and Brahim Askri

Subjects

Hydrology, Soil salinity, Hydrology (agriculture), Water table, Farm water, Environmental science, Soil salinity control, Water use, Well drainage, Water Science and Technology, Waterlogging (agriculture)

Abstract

In southern Tunisia oases, waterlogging, salinity, and water shortage represent serious threats to the sustainability of irrigated agriculture. Understanding the interaction between these problems and their effects on root water uptake is fundamental for suggesting possible options of improving land and water productivity. In this study, HYDRUS-1D model was used in a plot of farmland located in the Fatnassa oasis to investigate the effects of waterlogging, salinity, and water shortage on the date palm water use. The model was calibrated and validated using experimental data of sap flow density of a date palm, soil hydraulic properties, water table depth, and amount of irrigation water. The comparison between predicted and observed data for date palm transpiration rates was acceptable indicating that the model could well estimate water consumption of this tree crop. Scenario simulations were performed with different water table depths, and salinities and frequencies of irrigation water. The results show that the impacts of water table depth and irrigation frequency vary according to the season. In summer, high irrigation frequency and shallow groundwater are needed to maintain high water content and low salinity of the root-zone and therefore to increase the date palm transpiration rates. However, these factors have no significant effect in winter. The results also reveal that irrigation water salinity has no significant effect under shallow saline groundwater.

Published

2014

8. Chemical and microstructural analyses for heavy metals removal from water media by ceramic membrane filtration

Author

Abdelkader T. Ahmed, Ali A. M. Gad, and Asmaa Ali

Subjects

Ceramics, Environmental Engineering, Materials science, Metal ions in aqueous solution, Mineralogy, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, law.invention, Water Purification, Metal, Adsorption, law, Metals, Heavy, Ceramic, Filtration, 0105 earth and related environmental sciences, Water Science and Technology, Aqueous solution, Water, Membranes, Artificial, 021001 nanoscience & nanotechnology, Membrane, Ceramic membrane, Chemical engineering, visual_art, visual_art.visual_art_medium, 0210 nano-technology, Water Pollutants, Chemical

Abstract

This study aims to investigate the ability of low cost ceramic membrane filtration in removing three common heavy metals namely; Pb2+, Cu2+, and Cd2+ from water media. The work includes manufacturing ceramic membranes with dimensions of 15 by 15 cm and 2 cm thickness. The membranes were made from low cost materials of local clay mixed with different sawdust percentages of 0.5%, 2.0%, and 5.0%. The used clay was characterized by X-ray diffraction (XRD) and X-ray fluorescence analysis. Aqueous solutions of heavy metals were prepared in the laboratory and filtered through the ceramic membranes. The influence of the main parameters such as pH, initial driving pressure head, and concentration of heavy metals on their removal efficiency by ceramic membranes was investigated. Water samples were collected before and after the filtration process and their heavy metal concentrations were determined by chemical analysis. Moreover, a microstructural analysis using scanning electronic microscope (SEM) was performed on ceramic membranes before and after the filtration process. The chemical analysis results showed high removal efficiency up to 99% for the concerned heavy metals. SEM images approved these results by showing adsorbed metal ions on sides of the internal pores of the ceramic membranes.

Published

2017

9. Seawater Intrusion Impacts on the Water Quality of the Groundwater on theNorthwest Coast of Oman

Author

Abdelkader T. Ahmed and Brahim Askri

Subjects

Irrigation, Salinity, Oman, Aquifer, 010501 environmental sciences, 010502 geochemistry & geophysics, 01 natural sciences, Water Quality, Environmental Chemistry, Animals, Humans, Seawater, Waste Management and Disposal, Groundwater, 0105 earth and related environmental sciences, Water Science and Technology, Hydrology, geography, geography.geographical_feature_category, Ecological Modeling, Drinking Water, Groundwater recharge, Pollution, Period (geology), Water quality, Geology

Abstract

The groundwater aquifer in the coastal region of the northwest of Oman has been used extensively since the early 1980s for agricultural, industrial and municipal purposes. The over pumping of this reservoir has led to the intrusion of seawater and therefore to the deterioration of the groundwater quality. In this study, an investigation was carried out in the southern part of this region to identify the quality of groundwater, to understand the main sources of groundwater mineralisation, and to check the suitability of groundwater for drinking and irrigation. The spatial distributions and temporal variations of groundwater level and electrical conductivity were studied for the period from 1982 to 2005 using data collected from 225 wells. In addition, groundwater samples were collected recently in 2012 from eight wells and analysed for pH, EC, and major ions to understand the sources of dissolved ions and assess the chemical quality of the groundwater. The study area was divided into two strips parallel to the coastline, A and B, located in the discharge and recharge parts of the aquifer, respectively. Results showed a significant increase in the degree of water mineralisation in the direction of south to north following the regional flow direction. Results showed also that the groundwater in the last area could be used for irrigation with little danger of exchangeable sodium while this aquifer is unsuitable for irrigation in the discharge area because it presents a very high salinity hazard.

Published

2016