Application Paper Conclusion

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ApplicationPaperWasteWaterTreatmentPlants-DeAnnaFleming.docx

Running Head: APPLICATION PAPER 1

WASTEWATER TREATMENT PLANTS 2

Waste Water Treatment Plants

DeAnna Fleming

Grand Canyon University

PHY-102

Professor Shruti Shrestha

8/30/2020

Description of the Introduction Comment by Shruti Shrestha: Deanna, your application paper on “ Waste water treatment ” seems to be interesting. It seems almost complete. Make sure to cite your references correctly. For application paper task 2, please prepare according to the GCU Style Guide guidelines, located in the Student Success Center. Make sure to submit the assignment to LopesWrite. Good Luck with your paper!

Before water is supplied to a million homes, it has to pass through several purified processes. Wastewater is a collection of lots of unutilized minerals that are not advisable to use for productivity. Contamination of water sources is inevitable, which means that wastewater has to undergo the purification process, which in turn, should be cost-effective. Clean and freshwater is a scarce resource. Access to clean and safe water directly to homes helps families be capable of running their daily chores. Water access connects every aspect of life. Water holds the key to reliable growth and is crucial for socio-economic evolution, healthy ecosystems, and all living things depend on for survival. It is essential for lowering the world luggage by providing a human friendly for the growth of populations. Wastewater treatment is not just a circumstance of obtaining safe water for personal use; it is an initiative that guarantees life. It is essential to reduce “the global burden of disease and improving the health, welfare and productivity of populations” (Corcoran, 2010). Water treatment is the process of removing dissolved minerals and pathogens to help improve the quality of water and make it suitable for a specific end-use. To date, there have been several ways that have been applied for the treatment of water.

Brief Outline of the Topics

The reuse of treated wastewater has become a practical alternative to minimizing water scarcity on the globe. The world has a growing and developing population day in day out, and as things stand currently, the graph is on a downward slope in terms of water conservation. However, with brilliant ideas being brought to the table, this situation can be turned around and make much-needed solutions all around the globe to secure scarce resources.

Oxygen is an essential chemical element for the survival of human life and ignition and burning (Vesilind, Peirce, & Weiner, 2013). It can be very corrosive when introduced to heat in the water. This kind of corrosion can be drawn from the pits of waterside pipes. The corrosion gradually leads to an early failure of the water pipes, which in turn calls for replacement and incurs a vast unnecessary cost to the bodies involved in the replacement.

It is crucial to treat water for various reasons. However, one of the major ones is preventing health complications that could arise from consuming water that is not treated. Water can become hub harmful diseases and bacteria. It means that water needs to be rigorously treated before it is used for various purposes to lower the level of contamination, which then makes the water safe for drinking. Clean and safe water meant for drinking does not have to be sterile and can incorporate organic and inorganic matter, which the body can withstand (Shi et al., 2014). The contaminants may comprise sediments, pathogens, salt, and toxins, among others. Contamination may occur in the form of human or animal excrements. These carcasses end up in the water supply, such as the river causing pollution. Pollutants such as human infrastructure or farming can also affect the pure water hence contaminating it.

Clean water is essential for marine life: the animals and plants that live in water. It is vital for the fishing industries, sport fishing enthusiasts, and future generations. The main reason for wastewater treatment, called effluent, concerning the aquatic life before discharging it back to the environment, is to separate as many suspended solids as possible. The organic substance in the process of rotting may dissolve the oxygen contained in water, leading to the extinction of aquatic life (Rizzo et al., 2013). Failure of water treatment may lead to the release of contaminated water to the water sources, which leads to the death of aquatic life.

Water is one of the significant places used as a playground for all. The views and recreational use of our waters are the reason which influences most of the people on the planet who choose to settle where they do. Tourists are much more attracted to water leisure activities. Pathogens can cause pollution to beaches, which may lead to restrictions on human leisure activities along the shorelines.

Conclusion

Water waste treatment is considered a water use because it is related to other uses of water. Treatment of water waste is a crucial process that should not be underrated in any circumstance, and I believe that it can be taken a notch higher. In honor of humanity and wildlife, water indeed does matter. If wastewater fails to undergo the proper treatment stages, the human species, aquatic life, and wildlife will all be negatively impacted. If wastewater were to be treated properly, it would be a source of water for many purposes.

References

Corcoran, E. (Ed.). (2010). Sick water?: the central role of wastewater management in sustainable development: a rapid response assessment. UNEP/Earth print.

Rizzo, L., Manaia, C., Merlin, C., Schwartz, T., Dagot, C., Ploy, M. C., & Fatta-Kassinos, D. (2013). Urban wastewater treatment plants as hotspots for antibiotic-resistant bacteria and genes spread into the environment: a review. Science of the total environment, 447, 345-360.

Shi, X., Tal, G., Hankins, N. P., & Gitis, V. (2014). Fouling and cleaning of ultrafiltration membranes: A review. Journal of Water Process Engineering, 1, 121-138.

Vesilind, P. A., Peirce, J. J., & Weiner, R. F. (2013). Environmental pollution and control. Elsevier.