Kenton Jones from Multipure takes us on a demonstration with OTO, a swimming pool chemical that measures chlorine in water. Check out this demonstration on dry foods such as pasta, jasmine rice and pinto beans when added to chlorinated water. OTO can be purchased at any pool suppy store. Do the following tests and see what happens for yourself. For more info visit us at http://multipureusa.com/koakley
by Anayeli Ruiz
KERMIT – It’s freaking some people out in Kermit. Dark and dirty water pouring out of their faucets. It looks so nasty people are afraid to use it. Some of our viewers wanted to know what was going on. So we decided to track down the problem. As NewsWest 9 found out, the city says it’s not only normal, it’s clean.
“Dirty water. If I’m drinking that water, I don’t know what I’m drinking,” Resident, Rita Dominguez, said.
Fear is what many residents in Kermit are experiencing when they turn on their faucet. They are scared of what will come out.
“My neighbor across the way came over one morning asked me if my water was brown. When she draws out bath water or it comes out of the toilet, it’ brown and really dirty,” Resident, Anita Gloege, said.
City officials say the water is safe and clean, even though it may look dirty, it isn’t.
“Sure the water is aesthetically pleasing to look at, there is no health issues,” John Shepherd, Director of Public Works, said.
Believe it or not, the City of Kermit doesn’t have a filtration system. They only use chlorine to flush out the chemicals.
The water they have been getting lately has high levels of manganese and iron and when those are mixed with chlorine and it comes out as brown pigmented water.
“We have got iron and manganese in our water. We have always had it, it’s a common element for this area. You can’t see it until the chlorine hits the water to disinfect it. As soon as we disinfect it, they show up and precipitate and become visible,” Shepherd said.
Officials say the more water that you use, the more likely you’ll be to see the dirty looking water.
“Where the demand goes, usually more affluent neighborhoods, you pull harder on systems and pull that dirty water towards them,” Shepherd said.
The city normally flushes their systems once in April and once in October. This is to help clean and get rid of all the elements. In the meantime, residents will have to wait it out a little longer before they get the pipes flushed out.
“If I flush now, I will be flushing it again. Economics and the demand on the water system, I will be doing it again in 30 days. We’re still in a high demand, we have about 30 more days,” Shepherd said.
Some residents are not happy with the wait.
“It’s not normal. We pay for the water, they need to do something about it,” Dominguez said.
City officials say if you get dirty water, let it run for 15-20 minutes. If you continue to see the dirty water, call the city in Kermit.
Public water supplies in 42 U.S. states are contaminated with 141 unregulated chemicals for which the U.S. Environmental Protection Agency has never established safety standards, according to an investigation by the Environmental Working Group (EWG).
Tainted Tap Water Used by Millions of Americans
Another 119 regulated chemicals—a total of 260 contaminants altogether—were found by the environmental group in a two-and-a-half-year analysis of more than 22 million tap water quality tests. The tests, which are required under the federal Safe Drinking Water Act, were conducted at nearly 40,000 utilities that supply water to 231 million people. If you are feeling ill, for no apparent reason, it really could be the water in your own home! Below are listed some contaminants found in your public water supply that truly could be making you sick!
Water Disinfection Byproducts
- What are water disinfection byproducts?
The term refers not to one chemical compound but a group of chemicals that are formed as byproducts of water treatment. Up to 600 disinfection byproducts have been identified but only a fraction of them — including bromate, total trihalomethanes (chloroform, bromodichloromethane, dibromochloromethane and bromoform) and haloacetic acids (dichloroacetic acid, trichloroacetic acid, monochloroacetic acid, monobromoacetic acid and dibromoacetic acid) — are monitored by the US Environmental Protection Agency (EPA).
- How often do they occur in drinking water?
According to the Environmental Working Group’s analysis of about 20 million drinking water tests conducted by water suppliers between 2004 and 2009, disinfection byproducts, many of which are unregulated, were the most common water pollutants found in US water supplies.
- How did the water pollutants end up in water supplies?
Chemical byproducts are formed when disinfectants used to treat water, such as chlorine, react with organic pollution washed off from cities, suburbs and agricultural farms.
- What are the possible health effects of water disinfection byproducts?
Disinfection byproducts can cause gene mutation, induce birth defects, accelerate the aging process, sets off an inflammatory response in the body, and even induce cancer after long-term exposures.
- How to remove water disinfection byproducts from water?
Water filtration systems using activated carbon filters can reduce levels of disinfection byproducts (such as trihalomethanes and haloacetic acids) as can a reverse osmosis unit. Look out for certification, or confirm with the manufacturer before making your purchase.
Nitrate and Nitrite
Nitrates and nitrites are common inorganic compounds that are found contaminating drinking water.
Nitrate ranks number five in EWG’s list of frequently detected water pollutants. Nitrate and/or nitrite contamination is also not uncommon in drinking water drawn from private wells in the US.
The major sources of nitrates and nitrites in drinking water are excessive use of nitrogen-containing fertilizers (e.g. potassium nitrate and ammonium nitrate) by farmers and homeowners, leaching from septic sewer systems, discharge by chemical, petrochemical and metal-finishing industries, human and animal organic wastes, as well as erosion of natural deposits.
Infants are susceptible to ‘blue baby syndrome’, or methemoglobinemia, after drinking water containing excess nitrate. This potentially dangerous condition occurs when hemoglobins in the red blood cells are converted into methemoglobin in the presence of nitrate and/or nitrite and loses their ability to carry oxygen.
Unfortunately, nitrate and nitrite cannot be removed by carbon-only water filters. Technologies that can reduce the water pollutants effectively include reverse osmosis and atmospheric water generation.
Pharmaceutical contaminants refer to a cocktail of dissolved prescription pills, over-the-counter drugs as well as ingredients used for making drugs that are found in drinking water.
A shocking Associated Press report in 2009 revealed that at least 271 million pounds of pharmaceuticals have been poured into US waterways that often provide drinking water.
Dumping of active pharmaceutical ingredients by manufacturers into waterways, as well as improper disposal of medications by consumers into household drains and toilets. Drugs of all types also enter the water supply when they are excreted.
Currently, there is no study looking into the long-term effects of drinking water containing low doses of multiple drugs for extended period of time. However, considering that a number of medications are formulated to work at relatively low dosage, their long-term unintended effects cannot be ruled out completely.
Water filters that use only basic carbon blocker are unlikely to remove pharmaceutical contaminants. Reverse osmosis system, however, is able to remove dissolved drugs, so is atmospheric water generator which skips contaminated water altogether and generates water from air.
Arsenic is a natural occurring element found in soil, rocks, air, food and water. It’s also used for producing electronic parts, automotive batteries, wood preservatives, glass, pesticides and more.
Arsenic contamination of water is a global problem. According to the Wikipedia, over 137 million people in more than 70 countries, including America, are probably affected by arsenic poisoning of drinking water.
Arsenic leaches into water when water flows pass arsenic-rich soils and rocks. Mining activities, discharges from industries that use arsenic compounds, and runoffs from farms and homes that use arsenic-containing pesticides also add to the amount of the pollutant in water supplies.
Arsenic is a highly toxic substance and is classified as a carcinogen which can cause cancers of the skin, lung, and bladder as well as heart disease.
Reverse osmosis is currently the most effective way to remove arsenic. Generating water through air is also another way to avoid arsenic. But take note of the cons highlighted earlier for each of them before purchasing to make sure you can live with the drawbacks.
Hexavalent chromium, or chromium-6, is a common industrial chemical used for the production of textile dyes, pigments, stainless steel, wood preservation, leather tanning, anti-corrosion coatings and other niche uses.
A 2010 study commissioned by the Environmental Working Group found that water from 31 out of 35 US cities was polluted with hexavalent chromium. Of those, 25 had levels that exceeded the safety limits proposed by California regulators.
Discharge by irresponsible industries that produce or use hexavalent chromium, such as metal-plating and leather-tanning facilities as well as steel and pulp mills.
Hexavalent chromium has long been known to cause lung cancer when inhaled. There are also increasing scientific evidence linking the pollutant to liver and kidney damage as well as leukemia, stomach cancer and other cancers in lab animals.
Use a water filter that is certified to remove hexavalent chromium (chromium-6). MultiPure’s Reverse Osmosis water filter unit is NSF certified to remove all or most of these contaminants.