Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Reduction of effective cost for seawater desalination using floated solar energy in south of Jordan Aqaba Port
View through CrossRef
The major issue that prevails all over the world is potable water. Only 1% of all Earth’s water exists as liquid, whereas less than 3% as freshwater, mostly glaciers, and 97% as salt water. Desalination is the process of removing salt from sea water in order to obtain fresh water. Nowadays, scientists are exploring seawater desalination for potable water. Another key concern that exists in any country is clean energy. The energy crisis is due to overconsumption of fossil fuels such as oil, gas, and coal. Engineers try various sources of renewable energy. The cost of potable water and clean energy, say, the cost pertaining to capital, operation, maintenance, performance, and fuel, has increased year after year. The technologies for generating renewable energy, like solar and wind, do not have fuel costs. Modern desalination techniques incur a high initial investment and a higher maintenance cost. The life-cycle cost per litre of potable water generated by the solar stills is lower than that of conventional methods. The most cost-effective way to power desalination plants is with solar power. Seawater desalination with the use of solar power is employed in these regions as a viable alternative solution. Jordan is a country in western Asia. Water and energy sources are scarce in Jordan, with water availability in Jordan is estimated to be less than 100 m3 per year. Jordan imports 95% of its energy needs. Jordan plans to generate 14% of the country’s electricity by utilizing wind and solar energy. The use of solar stills in Jordan can reduce the dependency on oil and gas for power generation. The use of floating solar stills for seawater desalination represents a promising tool for Jordan. Solar stills work on the evaporation and condensation processes. They distil water by using the heat of the sun. Efficiency and productivity have been measured to quantify the performance of solar stills. Solar stills have the advantages of simplicity, low cost, ease of maintenance, and low environmental impact. In this paper, an attempt is made to analyze the types, materials, components, design, performance, cost, benefits, advantages, and limitations of solar stills. The paper also discussed the reduction of the effective cost of seawater desalination using floated solar energy in Jordan's Aqaba Port.
Title: Reduction of effective cost for seawater desalination using floated solar energy in south of Jordan Aqaba Port
Description:
The major issue that prevails all over the world is potable water.
Only 1% of all Earth’s water exists as liquid, whereas less than 3% as freshwater, mostly glaciers, and 97% as salt water.
Desalination is the process of removing salt from sea water in order to obtain fresh water.
Nowadays, scientists are exploring seawater desalination for potable water.
Another key concern that exists in any country is clean energy.
The energy crisis is due to overconsumption of fossil fuels such as oil, gas, and coal.
Engineers try various sources of renewable energy.
The cost of potable water and clean energy, say, the cost pertaining to capital, operation, maintenance, performance, and fuel, has increased year after year.
The technologies for generating renewable energy, like solar and wind, do not have fuel costs.
Modern desalination techniques incur a high initial investment and a higher maintenance cost.
The life-cycle cost per litre of potable water generated by the solar stills is lower than that of conventional methods.
The most cost-effective way to power desalination plants is with solar power.
Seawater desalination with the use of solar power is employed in these regions as a viable alternative solution.
Jordan is a country in western Asia.
Water and energy sources are scarce in Jordan, with water availability in Jordan is estimated to be less than 100 m3 per year.
Jordan imports 95% of its energy needs.
Jordan plans to generate 14% of the country’s electricity by utilizing wind and solar energy.
The use of solar stills in Jordan can reduce the dependency on oil and gas for power generation.
The use of floating solar stills for seawater desalination represents a promising tool for Jordan.
Solar stills work on the evaporation and condensation processes.
They distil water by using the heat of the sun.
Efficiency and productivity have been measured to quantify the performance of solar stills.
Solar stills have the advantages of simplicity, low cost, ease of maintenance, and low environmental impact.
In this paper, an attempt is made to analyze the types, materials, components, design, performance, cost, benefits, advantages, and limitations of solar stills.
The paper also discussed the reduction of the effective cost of seawater desalination using floated solar energy in Jordan's Aqaba Port.
Related Results
A Critical Review of Alternative Desalination Technologies for Smart Waterflooding
A Critical Review of Alternative Desalination Technologies for Smart Waterflooding
Summary
The importance of tuning injection-water chemistry for upstream is moving beyond formation-damage control/water incompatibility to increasing oil recovery fr...
Solar Trackers Using Six-Bar Linkages
Solar Trackers Using Six-Bar Linkages
Abstract
A solar panel faces the sun or has the solar ray normal to its face to enhance power reaping. A fixed solar panel can only meet this condition at one moment...
Desalination and Long-Haul Water Transfer as a Water Supply for Dallas, Texas: A Case Study of the Energy-Water Nexus in Texas
Desalination and Long-Haul Water Transfer as a Water Supply for Dallas, Texas: A Case Study of the Energy-Water Nexus in Texas
As existing water supplies become increasingly strained in some locations, water planners turn to alternative options to quench cities’ thirst. Among these options for inland citie...
Use of Renewable Energy Sources for Water Desalination in Crete, Greece. A SWOT Analysis
Use of Renewable Energy Sources for Water Desalination in Crete, Greece. A SWOT Analysis
Sea water desalination is a developing technology producing potable water with many applications worldwide particularly in arid areas. It is an energy intensive process and its int...
Efficiency Enriched Seawater Intake Through Innovative Inspection and Cleaning Techniques
Efficiency Enriched Seawater Intake Through Innovative Inspection and Cleaning Techniques
Seawater is needed for chemistry, energy, and desalination. These devices collect massive amounts of seawater for desalination, cooling, and processing. These industries’ performan...
Achieving Energy-Saving, Continuous Redox Flow Desalination with Iron Chelate Redoxmers
Achieving Energy-Saving, Continuous Redox Flow Desalination with Iron Chelate Redoxmers
Desalination of saline water is becoming an increasingly critical strategy to overcome the global challenge of drinkable water shortage, but current desalination methods are often ...
Introducing Optimal Energy Hub Approach in Smart Green Ports based on Machine Learning Methodology
Introducing Optimal Energy Hub Approach in Smart Green Ports based on Machine Learning Methodology
Abstract
The integration of renewable energy systems in port facilities is essential for achieving sustainable and environmentally friendly operations. This paper presents ...
Water Desalination
Water Desalination
AbstractThis article addresses water availability and use with special emphasis on the role and current level of technology of water desalination. The major desalination processes,...