What you need to know about water filters

When you have a boil, it’s not only your body’s body that is boiling.

It’s also the water it uses to heat the water and the water’s ability to heat your body.

A few years ago, researchers were looking into water filters to combat bacterial infections, but the results were inconclusive.

Now, researchers from the University of Colorado at Boulder and the University at Buffalo have developed a filter that uses water that is filtered to kill the bacteria before it can do anything else.

They’ve been studying the filter and found it’s extremely effective.

The researchers say that water filters are one of the most effective and cost-effective ways to prevent waterborne infections.

The study is being published in the journal Environmental Microbiology.

The new filter, which is made of silicon and can be installed at home or at a water treatment plant, is designed to kill 99 percent of bacteria before they can infect a human being.

The research is also important for reducing the risk of spreading disease, the researchers say.

They say that the filters could be used in schools and other public settings.

The device consists of a filter and a filter cartridge, and the cartridge contains a chemical to kill off the bacteria.

Water is added to the cartridge and filtered through a filter.

The filter is then poured into the water, which flows to a tank where the bacteria are killed.

Researchers say the device will not harm humans.

“Our goal was to create a new, effective filter that would reduce the risk for transmission of waterborne diseases,” said lead researcher Dr. David Fuchs, a research scientist in the Colorado School of Public Health and an assistant professor of microbiology.

“The filters use water that’s filtered to remove the bacteria that cause disease.

This is very similar to what a traditional filter would do, but we thought this was a very efficient way to do it.”

The researchers tested the new filter in humans.

They found that the filter reduced the transmission of the bacteria by 95 percent.

“This was not a small improvement,” Fuchs said.

The filters work by using a special type of silicon, called silicon dioxide, to absorb water molecules that form in the water.

The silicon dioxide molecules are not easily broken down by a bacterial cell, so they are not destroyed by the water but are filtered out.

Fuchs explained that the water from the water treatment plants that the device is placed in absorbs the silicon dioxide and turns it into a gas that makes the water more stable.

“In other words, the filter can be activated by water in the environment,” he said.

“We don’t know how it works, but it’s working pretty well.”

The filter uses a special form of silicon called an alkyl carbonyl silica gel, which acts as a protective layer between the filter cartridge and the filter.

Fuch said that the material has several benefits, including that it can be chemically inert and has an antibacterial activity, and that it is relatively inexpensive.

“It’s very easy to install,” he told Al Jazeera.

“If you’re looking for an inexpensive way to prevent transmission of disease, this is probably the best solution.”

Fuchs added that the process could be modified to make it even more effective, and he hopes to have the product ready for commercialization in the next few years.

The team is working with a number of water treatment companies in the US to try to improve the filter’s effectiveness.

“With this filter, we have a number that is being tested that could potentially be made into a filter for other types of water,” Fuch added.

“What we’re hoping is that with this filter we’ll be able to put a lot of water into it that is actually safe and effective.”

The team has also created a series of videos that highlight some of the important steps that are taken to make the filter work.

You can find out more about the research in the study.

Al Jazeera’s Aliza Jantjies reports.