Research Ideas from the topic of Water Reuse

Water Reuse is a topic which is gaining attention day by day.The reason behind the interest is the climate change, urbanization and its impact on available water. As source and amount of water that can be treated is constant the growing demand from the ever-growing population has raised the stress on available water resources of any region manifold.

Due to change in climate, amount of rainfall is now either over or under the level of requirement.This abnormality in the rainfall pattern and also the uncontrolled use of natural resources by the population for their earthly gains, has reduced both quality and quantity of water available for consumption.In these regard, the reuse of water is found to be a suitable and acceptable option to somehow mitigate the uncertainty.

As the concept of reusing water is not new, but its real importance has recently been understood,doing research in this concept can be beneficial for both mankind and the researcher himself.

In my another blog I have selected two of the most important aspect of research related to Water Reuse. Give a visit and if you wish discuss with me regarding the same.

Five most significant findings of the week related to water resources

"Sediment cores taken from the Southern Ocean dating back 23 million years are providing insight into how ancient methane escaping from the seafloor could have led to regional or global climate and environmental changes, according to a new study." Click here "Scientists analyzing one of the largest genomic datasets of plants have discovered how the first plants on Earth evolved the mechanisms used to control water and 'breathe' on land hundreds of millions of years ago. The study has important implications in understanding how to plant water transport systems have evolved and how these might adapt in the future in response to climate change." Click here "A new analysis of the River Ganges in West Bengal, India, highlights how wastewater flowing into the river impacts its water quality, and how that influences shifts with seasons and tides." Click here "MIT researchers have developed a solar-powered desalination system that is more efficient an

Five free statistics software that you can use in Water Resource Research

Statistics is an essential part of water resource research. But presently all the popular statistical software is expensive and for a student or individual researcher, it is nearly impossible to procure such software. For example, the cost of the most popular statistical software is as given below : Statista ($59 per month,billed annually) Sigma XL : $299.00 USD(Single Licence) IBM SPSS Statistics ($99 per user per month) JMP : $1200 Minitab : $1610.00 USD(Single User Annual Subscription) There are many other paid software programs that offer various statistical analyses, such as Origin Pro and Stata, but their prices vary depending on location, number of users, and other factors. That is why they ask you to request a quote, and upon receipt of your request, they will provide you with a quotation based on your specific requirement. An individual researcher, on the other hand, cannot afford such a high price. As a result, we must rely on grants or institutes to obtain this software.

Lecture Series on Flood Routing : Part III

Level Pool Routing Hydrologic Routing for Reservoir or Level Pool Routing Hydrologic routing predicts the flow of water through a river system, whereas level pool routing focuses on the changes in water levels in reservoirs or lakes. However, Level Pool Routing is referred to as Hydrologic Routing of the Reservoirs as the water level of the reservoir is assumed to be horizontal or level at the time of prediction of the outflow hydrograph. Understanding and managing water resources in a variety of settings, from metropolitan regions to natural landscapes, requires the use of both approaches. Taking into account several elements that can affect water flow, such as precipitation, evaporation, and runoff, is a crucial part of hydrologic routing. Hydrologists can develop models that mimic how water flows through a river system in various scenarios by examining these variables. Predicting floods, controlling water supply, and safeguarding ecosystems that depend on a constant flow of water al

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