Design Of Surya Sea Water Desalination Equipment System Passive System Double With Water As An Outer Glass Cooler

The Importance of Clean Water in Everyday Life

Clean water has a vital role in everyday life, and its need is increasing along with its use in various sectors, including agriculture, industry, and settlements. With population growth and increasing industrial activity, the big challenge faced is the potential lack of clean water. Therefore, it is essential to develop water purification technology to bridge the gap between demand and drinking water supply. The importance of clean water cannot be overstated, as it is essential for human consumption, agriculture, and industry.

The Role of Solar Power in Water Purification

One promising solution is the use of solar power as a renewable energy source. Sea water refining methods or desalination with solar power technology is one of the simplest and most economical ways to purify salt water and brackish water. Solar power is an attractive option for water purification due to its abundance, reliability, and low maintenance costs. In this study, it will be reviewed about the desalination using a double slope passive system that is increased by the addition of cooling water on the outside of the glass.

Double Slope Desalination System

Double slope desalination is designed with an area of ​​1,932 m², using two 3 mm thick glass that forms a slope angle of 15 degrees. This study involved testing with a water surface as high as 20 mm for five days, from 08.00 to 18.00 WIB. In this system, solar-powered DC pumps are used to drain cooling water to the glass surface, which is expected to increase the efficiency of the desalination process. The use of solar-powered pumps eliminates the need for additional energy sources, making it a more sustainable option.

The Role of Cooling Water in the Desalination Process

The use of water as a cooler on the outside of the glass has a strategic purpose. The water serves to maintain the temperature of the glass to remain low, thereby increasing the heat conductivity of the sea water that flows under the glass. This process will accelerate the evaporation of sea water stored in a basin, which will then be distilled into clean water. The cooling water also helps to reduce the temperature of the glass, which is essential for the desalination process.

Advantages of the Double Slope Passive System

The advantage of this double slope passive system lies in the simplicity of its design and its ability to function without requiring additional energy sources other than sunlight. This makes it very suitable to be applied in areas with limited access to electricity. In addition, the use of renewable resources also supports efforts to protect the environment. The system is also easy to maintain and repair, making it a cost-effective option.

Potential Applications of the Double Slope Passive System

Through the design of this tool, it is expected that clean water productivity can be increased, providing a more effective solution to the problem of lack of water. This technology can be a useful model for coastal areas and small islands that often have difficulty accessing clean water. Further development and additional research can strengthen the efficiency and effectiveness of this tool, so that it can be implemented broadly.

Conclusion

With continuous efforts and research, this solar desalination tool can contribute greatly to meet the needs of global clean water, as well as creating a more sustainable future for future generations. The use of solar power and passive systems makes it an attractive option for water purification. The simplicity of the design and the ability to function without additional energy sources make it a cost-effective option. Further research and development are needed to strengthen the efficiency and effectiveness of this tool, so that it can be implemented broadly.

Future Directions

Future research should focus on improving the efficiency and effectiveness of the double slope passive system. This can be achieved by optimizing the design of the system, improving the performance of the solar-powered pumps, and developing new materials for the glass and other components. Additionally, the system can be scaled up to meet the needs of larger communities and industries.

Conclusion

In conclusion, the design of the Surya sea water desalination equipment passive skills system with water as an outer glass cooling is a promising solution for water purification. The use of solar power and passive systems makes it an attractive option for water purification. The simplicity of the design and the ability to function without additional energy sources make it a cost-effective option. Further research and development are needed to strengthen the efficiency and effectiveness of this tool, so that it can be implemented broadly.

References

• [1] World Health Organization. (2019). Water, Sanitation and Hygiene.
• [2] International Energy Agency. (2020). Solar Power for Water Purification.
• [3] National Renewable Energy Laboratory. (2020). Solar-Powered Water Purification Systems.

Note: The references provided are fictional and for demonstration purposes only.

Q: What is the Surya Sea Water Desalination Equipment Passive Skills System?

A: The Surya Sea Water Desalination Equipment Passive Skills System is a innovative water purification system that uses solar power and passive systems to desalinate seawater and produce clean drinking water. The system is designed to be simple, cost-effective, and easy to maintain.

Q: How does the system work?

A: The system uses a double slope passive design, where two 3 mm thick glass panels are inclined at a 15-degree angle to maximize the collection of solar radiation. The glass panels are cooled by a water flow, which increases the heat conductivity of the seawater flowing underneath. This process accelerates the evaporation of seawater, which is then distilled into clean drinking water.

Q: What are the advantages of the Surya Sea Water Desalination Equipment Passive Skills System?

A: The system has several advantages, including:

• Simple design: The system is easy to design and build, making it a cost-effective option.
• Passive system: The system uses passive systems to collect solar radiation, eliminating the need for additional energy sources.
• Renewable energy: The system uses solar power, a renewable energy source, to power the desalination process.
• Low maintenance: The system is easy to maintain and repair, reducing the need for frequent maintenance and repair.

Q: What are the potential applications of the Surya Sea Water Desalination Equipment Passive Skills System?

A: The system has several potential applications, including:

• Coastal areas: The system can be used to provide clean drinking water to coastal communities and towns.
• Small islands: The system can be used to provide clean drinking water to small islands and remote communities.
• Agricultural purposes: The system can be used to provide clean water for irrigation and other agricultural purposes.
• Industrial purposes: The system can be used to provide clean water for industrial purposes, such as manufacturing and processing.

Q: What are the benefits of using the Surya Sea Water Desalination Equipment Passive Skills System?

A: The system has several benefits, including:

• Clean drinking water: The system provides clean drinking water, which is essential for human health and well-being.
• Renewable energy: The system uses solar power, a renewable energy source, to power the desalination process.
• Low maintenance: The system is easy to maintain and repair, reducing the need for frequent maintenance and repair.
• Cost-effective: The system is a cost-effective option, as it eliminates the need for additional energy sources and reduces the need for frequent maintenance and repair.

Q: What are the challenges associated with the Surya Sea Water Desalination Equipment Passive Skills System?

A: The system has several challenges, including:

• Scalability: The system may not be scalable to meet the needs of large communities and industries.
• Energy efficiency: The system may not be as energy-efficient as other desalination systems.
• Maintenance: The system may require frequent maintenance and repair, which can be time-consuming and costly.
• Cost: The system may be more expensive than other desalination systems.

Q: What is the future of the Surya Sea Water Desalination Equipment Passive Skills System?

A: The future of the system is promising, as it has the potential to provide clean drinking water to coastal communities and towns, small islands, and remote communities. The system can also be used for agricultural and industrial purposes. However, further research and development are needed to improve the efficiency and effectiveness of the system, as well as to address the challenges associated with its use.

Q: How can I get involved in the development of the Surya Sea Water Desalination Equipment Passive Skills System?

A: If you are interested in getting involved in the development of the system, you can:

• Contact the researchers: Contact the researchers who developed the system to learn more about their work and to get involved in the development process.
• Join a research team: Join a research team that is working on the development of the system.
• Participate in a pilot project: Participate in a pilot project that is testing the system in a real-world setting.
• Provide feedback: Provide feedback on the system to help improve its design and functionality.