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Posted By JMV

The recommended eight glasses of water a day, at US tap rates, and filtered with a reverse osmosis system equals about $.49 per year.

That same amount of bottled water is about $1400.00

The choice is yours !!


 
Posted By JMV




green water filters

 

 

 

 

GREEN CARBON FILTERS

 

 

 

 

Eco-Friendly Filtration System
Helps Improve the Environment

 

This 5 stage RO System uses a high-performance Greenblock® filter media, manufactured with a unique eco-friendly process that significantly reduces harmful greenhouse gases.
It is specifically designed to reduce the wastewater by up to 50%. The NSF and WQA certified Greenblock filters are made using eco-friendly coconut-shell greencarbonTM. The 36 GPD RO membrane removes an average of 97% of the disolved solids from the incoming water while sending up to 50% less waste- water to the drain.
It eliminates the need for bottled water and the negative environmental impact associated with it.

 

 

STAGE ONE

Sediment Filter, 5-Micron Polyspun Cartridge, 2 1/2” dia. x 9 3/4" long

 

STAGE TWO

Greenblock® Activated Carbon Block Filter 5 Micron, 2 1/2” dia. x 9 3/4" long

 

STAGE THREE

Greenblock® Activated Carbon Block Filter 5 Micron, 2 1/2” dia. x 9 3/4" long

 

STAGE FOUR

Reverse Osmosis Membrane, Filmtec 50 GPD TFC

 

STAGE FIVE

Polishing filter

 

GO GREEN!

 
 
 
 
 
 
 
 

 

 


 
Posted By JMV

Between 1980 and 2000, America`s water use more than doubled!  We must learn how to conserve water now in order to avoid severe shortages in the future. 

ECONOMIZE: A lot of water goes down the drain needlessly because in the past it has always been plentiful and cheap.  Become conscious of the amount of water you`re using, and look for ways to use less whenever you can.  The two largest areas of consumption come from the bathroom and the yard.

 

INSTALL WATER-SAVING DEVICES: There are many devices you can either buy inexpensively or make yourself, such as aerators (to mix air with water); flow regulators (to reduce flow of water); displacement devices (to reduce amount of water stored in older toilets).  Make sure the device is installed properly.  DO NOT use a brick in your toilet tank as it may disintegrate and cause problems in your lines.

 

REPAIR LEAKS:
A leak of one drop per second wastes 2,400 gallons per year.  Most leaks are easy to detect and easy to repair with some basic know-how and a few simple tools.

Do It Yourself - Between the meter and your home:


Turn off all faucets inside and outside the house.  Locate your meter box.  In most neighborhoods, you`ll find it located in a small concrete vault near the street.  Using a screwdriver, or a similar device, lift off the concrete cover.  Check the meter dial to see what number it is registering (if you have a round-reading meter, read the "one foot" dial).  Wait 30 minutes, then recheck the dial.  Movement of the dial will indicate you have a leak.

 

Call your Water Utility - From the pipeline to the meter:
The City local water utilities may assist you in determining if you have a leak.  They will only check as far as the meter, but will help in determining if you have a leak on your side of the meter.

 

Do It Yourself - in-home check:
Check your faucets and toilets for leaks.  A leaky faucet may waste 2,400 gallons of water a year. Usually, a 100 gallon a day toilet leak is not very noticeable.  One way to check for a leaky toilet is to add food dye to the flush box.  If the water in the toilet bowl turns the color of the food dye before the next flush, you will need to have your flush box valve repaired.  Toilet and faucet repairs are usually easy to perform.

 

Call a licensed, bonded plumber:
If you are not familiar with your plumbing system or if a major problem exists, contact a professional.  A bad leak can send thousands of gallons silently down the drain.  Silently, that is, until you receive your water bill.

Irrigation Systems:


Do It Yourself  Before turning on your irrigation system this spring, cap off all your sprinkler heads and pressurize the system.  If your water meter moves, you have a leak.  Check faucets and hose connections for leaks.  Repair or replace when necessary.  Inspect pipes for pinhole leaks, leaking joints, etc.


Call your Irrigation Contractor  If you don¬ít feel comfortable checking your system yourself or if you have located a broken pipe or sprinkler in your walk through, notify the service technician.  Your contractor can always provide a more thorough check of the system and let you know if the system is causing excessive water use.

 

By saving water you can also SAVE MONEY on water and utility bills, sewer and septic costs, state and local taxes.  SAVE ENERGY by reducing the amount of hot water you use and by saving electricity used to pump water.  SAVE THE ENVIRONMENT by helping ease the burden on water storage, purification, distribution and treatment facilities.


 
Posted By JMV

The Associated Press (AP), after a five-month investigation, recently published its findings1 about the prevalence of pharmaceuticals (sidebar) in drinking water and drinking water sources. Sources for the investigation included scientific reports, federal databases, environmental study sites, treatment plants and more than 230 interviews.

The news agency’s reporters also surveyed the nation’s 50 largest cities and a dozen other major water providers, as well as smaller community water providers in all 50 states.

Before this year, the pharmaceuticals-in-drinking-water issue was only dimly in the public consciousness. Water and wastewater treatment plants in the United States typically do not remove pharmaceuticals, and the AP further points out that even now the levels being found are usually measured in parts per trillion, below the prescription dosage. Also, The US Environmental Protection Agency (EPA) does not have pharmaceuticals listed in its drinking water standards. So until now there has been little cause for municipal water agencies to be testing for them or to be aware if they are present.

But as a result of the AP’s report (disseminated by its hundreds of subscriber news organization), consumers and public officials now have plenty of questions (last month, a Senate subcommittee held hearings on the matter). To help water treatment professionals be in a position to provide some answers, Water Technology® recently took its own look at the issue.

How they enter water
Many people flush pharmaceuticals, over-the-counter medicines, livestock and pet medicines, and personal care products down the toilet or toss them into the trashcan. Other contributors are pharmaceutical industries, hospitals and other healthcare facilities.

Since about 90 percent of oral drugs can pass though our bodies unchanged, many of these drugs enter the environment through human and livestock waste. These eventually make their way into private and municipal water supplies.

With the increasing popularity of groundwater recharge (adding water to an area where it will supplement natural runoff or rainwater) in the United States, scientists2 have concurred that groundwater may become contaminated with pharmaceuticals. One of them adds that the risk that pharmaceuticals will be found in groundwater is “relatively high” for locations where surface water intrudes into groundwater.

Molecular sizes and membranes
Because 2 percent or less of all water entering a household is ingested by humans3, point-of-use/point-of-entry (POU/POE) water treatment for trace occurrences of substances like pharmaceuticals would seem to be a very cost-effective approach.

The Colorado School of Mines, a public engineering research university in Golden, CO, studied the effectiveness of nanofiltration (NF) and reverse osmosis (RO), among other technologies, to remove certain pharmaceuticals from wastewater. Full-scale municipal facilities were used in the study.

None of the investigated drugs were detected in tertiary treated effluents after NF or RO. From this we can presume that at least some of the pharmaceuticals can be removed by existing membrane technology.

An RO membrane removes species as small as about 0.000099 micron (µm). A look at the sizes of a few random (non-pharmaceutical) organic molecules4, ranging from 0.00086 µm to 0.0015 µm, suggests that RO technology would generally be fine enough to remove them. But are all pharmaceuticals in this size range?

UF and ozone
Given the thousands of drugs and personal care items on the market, it’s possible that some species would pass through the smallest-pore membranes.

On the other extreme, many drugs incorporate larger reacting molecules like enzymes. Most enzymes are in the range of ultrafiltration (UF) membranes, 0.002 µm to 0.02 µm5. Proteins can have both positive and negative charges6, so it’s possible they would be attracted to ion exchange resins. And adsorbing anion resins might have a role in removing the larger organic molecules.

In a German study7, granular activated carbon (GAC) and ozonation used in a lab and in a water treatment plant, often in series, were very effective at removing carbamazepine, diclofenac and bezafibrate. The lab also showed that 3.0 milligrams per liter (mg/L) of ozone cut primidone levels by nearly 90 percent. Although neither GAC nor ozonation at any concentration was fully successful with clofibric acid separately, the two in combination cut levels of the drug to below the limits of detection during plant testing.

Activated carbon, ozone, UV
GAC is effective because carbon can pick up a broad category of compounds, and many pharmaceuticals have components like benzene rings or amine groups that enhance their ability to be taken up by the activated carbon7.

Shane Snyder, research and development project manager for the Southern Nevada Water Authority, testified in mid-April to a US Senate subcommittee about the pharmaceuticals issue on behalf of the American Water Works Association (AWWA), the water utility trade group. In an interview with Water Technology®, he said the powdered form of activated carbon can be even more effective if used properly.

He said ozone’s effectiveness is tied to its ability to chemically attack the pharmaceutical molecules. For example, it can oxidize different kinds of functional aromatic bonds (forces binding certain carbon-based atomic structures within molecules) in pharmaceuticals.

In the German study, Ternes states that his research has shown ozone capable of easily oxidizing 90 percent of 51 different pharmaceuticals. It is particularly effective with compounds with amine groups and phenolic hydroxyl groups.

Advanced oxidation processes using a combination of ozone and UV or ozone and hydrogen peroxide8 have likewise shown promise in removing some of these contaminants. The Water Quality Association (WQA) has also included distillation products on its list of promising pharmaceutical-removal technologies.

Solutions, and cautions
Drugs contain organic chemicals, volatile organic chemicals, inorganic chemicals, plant products, proteins and amino acids, and more. There are drugs that are hydrophobic (water-repelling) and hydrophilic (water-attracting). How will hydrophobic drugs react in a water environment? Given this, it’s possible that some pharmaceuticals will require one type of treatment and some another.

Looking at bottled water and home drinking water systems, the AP said that some bottlers simply repackage tap water and that neither bottlers nor manufacturers of treatment equipment test for pharmaceuticals. Strictly speaking, this is true, but AP should have also noted that there are bottlers that use, among others, RO, NF and GAC, three of the promising treatments. And it’s likely that the POE/POU industry has the necessary technology to remove pharmaceuticals with other products. Product testing will be required to prove it.

Given the very large number of pharmaceuticals and the wide variety of chemical compounds found in them, it’s clear that one particular treatment is probably not going to remove them all. Most studies have looked at only two to six drugs, so it would be difficult to promote any single POU/POE technology or product as a panacea for pharmaceutical removal.

Studies on this subject to date include many qualifiers. In the example above, for instance, both activated carbon and ozonation failed to remove one drug, but they were successful when used together. Testing so far has included RO, NF, GAC, and ozonation, but testing will also be needed for UF, microfiltration (MF), distillation, sub-micron cartridge filters, and carbon blocks.

A favored approach
Removal of pharmaceuticals today could be likened to the issue of removal of volatile organic chemicals (VOCs) 20 years ago. At that time, very little was known about VOC removal and there was no product testing. Now we know that we can be relatively successful at removing VOCs, but some treatments work better on some VOCs than on others.

POU/POE will likely be a favored treatment approach for pharmaceuticals due to the economy of treating only the water used for drinking as opposed to entire municipal supplies.

There is now little reason for panic due to the low concentrations of pharmaceuticals found. However, future research may well show the cumulative effects of drugs in the body; it will certainly show more about the relative health risks and prevalences of specific ones. When that happens, there will undoubtedly be tested products at the ready, at least for the most prevalent and potentially harmful


 
Posted By JMV

Lots of pure water  Minerals are essential for the basic functions of the human body to take place. They help to control bone growth, regulate fluids, normalize nerve and muscle functions, keep up metabolism, grow connective tissues, and so much more.

 

However, a big misconception is that we obtain minerals from our drinking water. This is actually not true because, in reality, the main source of minerals is always from our food in diets, not from our drinking water. Because in order to receive enough minerals for our body, we would need to drink a bathtub amount of water everyday ! Not very feasible, Iam sure that a doctor would not prescribe a "bathtub of water" if the patient was deficient in minerals.

 

Therefore you need to watch out for the hundreds of companies out there that are selling products which claim that they can take out ALL the bad contaminants and leave you only the good stuff (healthy minerals) in the water. The truth is that there is no real purification method that can be selective and leave you only the "good" stuff. When filters leave you the good stuff, they actually leave you "most" of the stuff in the water. "Most of the suff" meaning besides calcium and magnesium, they also leave you pesticides and most chemicals.

 

In this era of  pollution when water contains much more disease-causing contaminants than beneficial minerals, it make sense that the water we use in the house and drink shoud be as pure and clean as possible.

 

So please eat healthy and drink plenty glasses of pure water every day!

 

Jean Michel Vives.   CFSS water filters North hollywood

 

        http://www.cfsswaterfilters.com