CategoriesGeneral Awareness Industrial Water Treatment

Top 5 Latest Water Treatment in the World right now!

Water is very crucial in our every day’s activity. We need water for survival and that’s why it’s important for us to make sure that the water we consume is safe and clean. There are new methods which can be used in water purification. They are effective and affordable as well. These filtration techniques can easily help get clean water within no time.

1. The Use Of Nanotechnology

This term sounds scientific to most common people although it’s a very easy process. This technology uses titanium dioxide nanotechnology. Sounds technical, right? This process eliminates bacteria and other toxins in water. It also helps break down unrefined compounds with the help of ultra violet rays. The nanotechnology method does not however use the polymer-based water treatment membrane. This method is very affordable and easy to apply. It is also environmentally friendly because it helps reduce the buildup of microorganisms known to grow rapidly on drenched surfaces.

2. The RO Purification

RO purification which is commonly known as reverse osmosis is one of the most used method of water treatment. This process involves the use of membrane technology which allows it remove dissolved salts and other impurities in water. This membrane has extremely fine pores which allow only water to pass through. The water leaves behind all the poisonous substances in the water. You however have to purchase the right RO to help it maintain the vital minerals in water.

3. UV Purification

This is also known as the e-boiling method. This water purification method uses ultra-violet light to help kill bacteria and other harmful substances in the water. This is a very easy process. The purifier contains a minute mercury lamp which manufactures diminutive wave UV radiations. The radiations function by irradiating the water and piercing through the cells of the microorganisms and viruses. This in turn destroys their capability to reproduce. This method however requires other filtration processes because the dead germs remain in the water until a separate filter is introduced to help remove the dead germs physically.

4. Acoustic Nanotube Technology

This technology was developed by NASA’s Johnson Space Centre to help in water purification. The Acoustic Nanotube Technology gets rid of the contaminants in the water by using a sieve which is normally surrounded by tiny diameter nanotubes. They help push the water away from the contaminants hence allowing you collect purified water separately.

5. SunSpring System

This is a water purification system that helps distil up to 5,000 gallons of drinking water in a single day. It uses a battery that solely runs on renewable energy. It is environmentally friendly and also a cost efficient method.

Final Thoughts

These 5 modern technologies will help you treat water easily and more efficiently at the comfort of your own home. Furthermore, you don’t have to worry about using chemicals in the purification methods. The Acoustic Nanotube Technology can be however tricky to use at home.

CategoriesGeneral Awareness Industrial Water Treatment

How can your Industrial Facility reduce Wastewater Discharge Volume?

We all can see populations rise and continue to tax waterways alongside the effects of climate change. So, increasing water-access fees and ever-tightening effluent regulations can all seem to create a losing battle for industrial facilities that are looking to keep ahead of the water-shortage curve. However, your facility, with a few preparations now to reduce wastewater volume and mitigate these future burdens, chances are your business will be able to better adapt to a water-stressed world.

Even though wastewater reduction solutions and industrial water conservation methods largely vary from industry to industry, there are some things all industrial facilities can do to ensure conserving water and reducing discharge waste is part of their short- and long-term strategies.

In this article, we’ll be looking at how industrial facilities are curbing wastewater discharge costs by reducing the volume of wastewater they have to discard—and, in turn, saving on sewer connection and transport fees, which can be steep depending on the level of contaminants present in your waste.

Many of the solutions below are similar to some information we’ve shared in a previous industrial water conservation post. This article, however, will focus on what facilities can do to reduce the volume of wastewater specifically, not just water usage overall. Many of the methods are throughout the entire production and manufacturing process. Here are the ways your industrial facility can reduce its wastewater discharge volume.

Identify problematic runoff and connection issues

One of the many ways industrial facilities can reduce their wastewater volume is by identifying any point of the process were groundwater, rainwater, or fractured pipes might be leaking freshwater or untreated process waster into your effluent streams. What might seem an unlikely place to find and reduce excess wastewater, it’s fairly common for extra water from these sources to seep directly into your effluent stream.

It’s also common for facilities to find that process piping has been routed inefficiently or that valves and connections are fractured or poorly sealed, which can all pose an issue when a facility is looking to tighten up its wastewater volume. Complete a thorough water usage audit that takes into consideration how much water is used at various parts of your production process and continue to set goals to tighten them. Also, keep in mind that some of your processes and wastewater will evaporate. Each small fix can add up to big savings over time.

Modify equipment and install water-saving devices like meters

It’s important to understand your facility will be using water in more places than just in its production processes. In addition to these other water uses (think high-efficiency toilets, drinking water units, and sinks), ask yourself if it is possible to lessen the water flow, replace water-intensive equipment with other technologies, or use water from one part of the process in another. Sometimes there are portions of a production process that can use a lesser quality of water.

Also, metering devices can help to reduce wastewater volume by ensuring levels are continually audited. Some can be used as automated shutoff mechanisms or overuse alarms, and they can go a long way in helping assess needed makeup water for cooling towers and boilers. Track the usage and adjust based on the device’s findings.

Reuse and recycle water at various parts of your operation

Implementing water recycling and reuse as part of your process can greatly reduce the volume of effluent your plant will have to discard. This approach can come with a high investment up front, but the long-term savings are often worth the cost. This is becoming especially true, too, with the growing call for facilities to be more responsible with their water usage, which is, as mentioned earlier in the article, taking the form of costly fees and stringent regulations. For this reason, many facilities are setting goals to make sure they’re not taking more water than they can (cleanly) replace. A thorough analysis can help determine which recycling measures will pay off for you.

Shift to waterless processes when able

Countless technological advancements are replacing water-intensive processes with those that have little water or even no water at all. Look into some of these solutions for your facility.

When it comes to treating your process water and wastewater for specific instances where you can’t discharge water at all, your facility might benefit from zero liquid discharge, a range of technologies that work to recover all fluid waste, leaving the facility with a solid cake of waste that is easier to discard.

Incorporate biological wastewater treatment technology

If your industrial or municipal facility generates organic-laden wastes, biological wastewater treatment might be an appropriate choice for your facility. These systems can be efficient and economical technologies for breaking down and removing organic contaminants from wastes such as those produced in the food and beverage, chemical manufacturing, oil and gas, and municipal industries. Bonus for facilities able to use this method: it’s a natural process that produces useful biogas that can be used as energy for other parts of the facility’s process.