Organic Dyes Degradation For Water Purification

manufacture of a nanocomposite that is highly efficient in purifying water from pollutants, and effective in terms of time and cost as well.

The problem that I want to solve is water pollution and limiting the spread of diseases caused by polluted water resulting from its mixing with organic pollutants, to provide clean and safe water for everyone in the world. This is closely related to the UN Sustainable Development Goal 6, which is to ensure access to clean water and sanitation for all. I would like to solve this problem Due to the lack of water and the increase in the percentage of diseases spread due to polluted water in my countries and continents, and in general, according to the World Health Organization, half of the world's population will suffer by 2025 from water scarcity, which prompted me to think about trying to save the world from this great danger for providing access to clean water, And with that, we can reduce the spread of water-borne diseases, improve hygiene and sanitation, and help people lead healthier lives. Additionally, by providing access to clean water, we can reduce poverty and inequality by allowing people in developing countries to have access to basic human rights. Finally, by providing access to clean water, we can help protect the environment by reducing pollution from wastewater runoff.

manufacture of a nanocomposite It acts as an effective photocatalyst that requires only visible sunlight to purify water from pollutants.that is highly efficient in purifying water from pollutants, and effective in terms of time and cost as well.Using pulsed laser ablation technique.

For its manufacture, we used method the pulsed laser ablation in liquid.

by

1- Sonicate the mixture of ZnO and MoS2 to disperse it in deionized water for 30 min, to a homogeneous liquid mix from ZnO and MoS2
                    
2- The second harmonic Nd-YAG laser (Quantel brilliant B) operating at 532 nm wavelength 350 mJ energy/pulse with a pulse repetition rate of 10 Hz. Irritated on mixture for 1 hour to obtain the nanocomposite.

The target population for this project is people living in areas with limited access to clean water. This includes people living in rural and remote areas, as well as those living in developing countries. These populations are currently underserved because they lack access to safe drinking water, which can lead to a variety of health issues. The solution provided by this project will address their needs by providing them with a reliable source of clean drinking water. The purification system will remove contaminants from the water, making it safe for consumption. Additionally, the system will be designed to be low-time and cost , allowing it to be used in even the most remote locations.

Volunteering at Resala Charitable Association made me realize that there are many people in dire need of water and we waste it daily and that there is a lot of water wasted daily in the world and out of my love and passion in the field of chemistry I worked on solving a serious problem related to water pollution by creating an effective compound It is time and relatively cheap to treat this water at high rates for humans

I searched for the need of the world’s population for water in the current period and the lack of water in the world, and I volunteered in the Al-Resala Charitable Association, and I saw the number of people who need every drop of water, so I worked hard to provide water and treat it to provide it to them and to humanity, so I made this project to treat toxic and harmful water and use it in all uses from For the sake of humanity.

My solution of water purification provides a new and significantly improved approach to the problem because it is a cost-effective, efficient, and sustainable method that can be used to purify water on a large scale.  This process is more effective than traditional methods such as boiling or chemical treatment because it can remove a wider range of contaminants. Additionally, this solution does not require any additional energy or resources for its operation.

I expect this solution to have a catalytic effect on the market by providing an affordable and reliable way to purify water on a large scale. This could enable broader positive impacts from others in this space by providing access to clean drinking water for those who lack access due to financial or geographical constraints. Furthermore, this solution could help reduce the environmental impact of traditional methods of water purification by eliminating the need for additional energy or resources. Finally, this solution could also help reduce the spread of waterborne diseases by providing clean drinking water in areas where access is limited.

Our project aims to provide clean, safe drinking water to communities in need. Our goal is to reduce the prevalence of water-borne illnesses and improve public health outcomes in these communities. We plan to achieve this by providing access to affordable, effective water purification systems that are easy to use and maintain. Through this approach, we hope to empower communities with the knowledge and tools they need to ensure their access to safe drinking water.

The photocatalyst manufactured using pulsed laser ablation technology in liquid is a key component of the water purification project. This technology works by using a high-energy laser pulse to create tiny particles of a photocatalyst material suspended in liquid. These particles are then used to absorb contaminants from water, such as bacteria, viruses, and other organic pollutants. The photocatalyst particles react with the contaminants, breaking them down into harmless byproducts. This process is highly efficient and can be used to purify large volumes of water quickly and effectively. The technology also allows for precise control over the size and shape of the photocatalyst particles, which can be tailored to optimize their performance for specific applications.

Based on the scope of the project, it is difficult to estimate the exact number of people that will be served in the next year. However, we can estimate that our water purification project from organic pollutants will directly and meaningfully affect at least one million people in the next year.

1. Cost: Developing and producing a photocatalyst that is effective in purifying water in all respects is likely to be expensive.

2. Regulatory approval: In order for the photocatalyst to be used for water purification, it must first receive regulatory approval from the relevant authorities. This process can take time and may require additional resources.
3. Access to resources: Accessing the necessary resources (e.g., raw materials, equipment, etc.) may be difficult or expensive depending on the location of the project.

There are no organizations participating in my project

We provide our customers and beneficiaries with a photocatalyst water purification system that is designed to remove harmful contaminants from their water, while also providing them with clean, safe drinking water. Our system is designed to be cost-effective and efficient, so that our customers can enjoy the benefits of clean water without breaking the bank. Additionally, our system helps to reduce the environmental impact of water contamination by reducing the amount of pollutants entering our waterways. 

I see that the financial challenge facing my project is to provide capital to
manufacture large quantities of the photocatalyst to purify the huge amount
of polluted water, and I strive to meet this challenge by communicating my
idea to the world by presenting it to many investors and participating in the
project idea in scientific competitions to inform the world about its
importance In addition, I plan to establish my own profitable company, in
which I will direct the majority of my profits to the development of my
project