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Water Filtration vs Purification: A Basic How-To / BePrepared

June 18, 2014

Water Filtration vs Purification: A Basic How-To / BePrepared.

By Scott Pedersen, Vicki Tate, and Barry Crockett

Next to air, water is what man needs most. In a challenging situation, it is critical to be able to find, store or treat water. Our bodies are about 80% liquids. We lose water in three ways: perspiration, breathing and urination. Dehydration of 6 to 8% of the body’s weight results in decreased body efficiency. In the summer heat, we lose about one gallon of water per day. Within three days of water depletion or loss, the body and organs can experience severe damage. Blood loses its density; heart attack and stroke possibilities increase; the kidneys begin to fail; the brain begins to hallucinate.

Bubbles breaking the surface of water

Not only is drinkable water essential to maintaining health, it is also important for cooking, personal hygiene, sanitation, cleaning wounds, sprouting seeds and reconstituting dehydrated foods including baby formula. Because water is so essential for survival, it is wise to have both a stored supply of drinking water and a way to acquire water for your continuing needs.

In order to understand how to make water potable (suitable for drinking), we must first understand what things make water unsuitable for drinking. Most surface water (rivers, lakes, streams, reservoirs) contains some types of microorganisms (protozoa, bacteria, viruses) and/or pollutants (chemicals, foul odors, sewage, spilt fuel).

Microorganisms are living microscopic cells that, when consumed, can cause diseases such as dysentery, cholera, typhoid and hepatitis. Some microorganisms can even cause death for those with weak immune systems (children, elderly, sick).

Protozoa (the largest of all microorganisms) include such parasites as Giaridia Lamblia and cryptosporidium. Bacteria (medium-size microorganisms) include E. coli, Vibrio Cholerae, campylobacter, and salmonella, all of which are found in human and animal waste. The most common occurrences are in preparing and processing food at home and in the food industry (especially associated with not washing hands after using the bathroom). Viruses are the smallest of all the microorganisms. They include hepatitis A and E, Norwalk virus, rotavirus, poliovirus and echovirus.

Pollutants generally fall into two categories: man-made and natural. They include water contaminants such as minerals (salts) and heavy metals. Man-made pollutants are introduced into water sources by manufacturing plants, poor waste and disposal management, air pollution, and so on. Most often these pollutants are chemicals, fuels, sewage, or their by-products. These pollutants can cause water to taste foul, and they can cause physical ailments or death.

For a long-term emergency plan you need to have a method to make questionable water “potable” and safe. You should also have a method of replenishing your drinking water. There are three primary methods to convert “raw” undrinkable water into safe “potable” drinking water: purification, filtration, and stilling (solar). Each method has its advantages and disadvantages. NOTE: Start with the cleanest, salt-free, and least polluted water in your surrounding living area. Cold river water that is running is preferred over warm stationary water. Realize that no method is perfect and sometimes combining methods is the best solution.

There are three general ways to make surface water free from disease-causing microorganisms: A) add extreme heat to the water (boiling and distilling), B) add disinfectant ( purification, chemical or silver), and C) add light (ultraviolet).

Historically, boiling water has been the main way to disinfect water from microorganisms because it kills them all if done correctly. Recommendations are to boil water for at least three minutes to kill all viruses. Bacteria and protozoa are dead at the first bubbles. But there are drawbacks to boiling water. First, boiling can require a lot of fuel and cooking equipment. Second, you must consider the long cool-down period. Third, some of the water will evaporate before it is ready to drink. Fourth, the water will still have particulate substances in it, so you should use a clean handkerchief to filter it before drinking. Last, boiling water does not eliminate pollutants, poor taste or foul odors. In fact, boiling can give water a stale taste. A helpful hint to improve the taste is to transfer water from one container to another several times while boiling.

Two primary chemicals are used for purifying water: iodine and chlorine. These two chemicals are lightweight, low-cost and relatively easy to use.

Iodine has been found to be very effective against viruses, bacteria, and protozoa with the exception of cryptosporidium. Using iodine has some drawbacks. The colder the water you wish to disinfect, the more required time is needed for disinfecting. Because iodine is absorbed into dirt and debris, which is found in water, its purification dosage varies. Pregnant women and people with thyroid conditions should not drink water purified with iodine. Additionally, iodine is a short-term water-purification solution and should not be used regularly for more than three months. Iodine does not change the clarity of water but it does change its taste. Iodine is not necessarily a flavor that people enjoy. This taste can be improved by adding a sugar-based drink/juice mix. A good product is Potable Aqua™ Iodine Purification Tablets—Just add two tablets per liter of water.


Chlorine bleach can also be used to purify water. The Federal Emergency Management Agency (FEMA), the Clorox® Company and the Red Cross have recommended using Clorox Bleach to purify raw water. Their pamphlet states, “…use regular household bleach that contains 5.25% sodium hypochlorite. Do not use scented bleaches, color safe bleaches or bleaches with added cleaners.” When using bleach to purify, “add 8 drops of bleach per gallon of water, stir and let stand for 30 minutes. If the water does not have a slight bleach odor, repeat the dosage and let stand another 15 minutes.” The process of chlorination will cause dirt and debris to settle to the bottom of the water container and make the water visually clearer. There are some drawbacks to the chlorination method. If the household bleach is over six months old, it may not have enough potency to disinfect. You must be very careful if you attempt to use household bleach as a purifier. Chlorine is very poisonous and adding too much can cause illness, internal organ damage or even death. If you decide to use bleach, be sure to add it at the time you intend to use your water, NOT when you store it.

Because ultraviolet light requires electricity, it is mainly used as a home filtration method for water; it is not typically practical otherwise. Water enters an ultraviolet-lighted chamber and swirls around a high output, low-pressure mercury vapor lamp, which emits powerful ultraviolet light. The energy components of microorganisms absorb the light energy, which disrupts their DNA preventing them from reproducing. UV lighting literally sterilizes the microorganisms rendering them ineffective in making one sick. UV lighting adds no chemicals to change water’s taste. Beyond requiring electricity, UV methods demand some form of filtration to remove dirt, debris, chemicals, tastes and odors. UV purification is considered a good “stage” of the purification process, but it is not complete by itself.


Water filtration simply means to strain out the impurities from a water source. The larger the impurity particulate the easier it is to filter. The opposite is true also, the smaller the impurity particulate, the harder it is to remove. Thus, the size of the filter pore and the durability of the filtering element are important to the filter’s longevity and ability to perform. Most filtering elements are made of ceramic, glass fiber, hard-block carbon, or materials that resemble compressed surgical paper.

Ceramic elements (most expensive, most durable, and maintainable) have the smallest pore size (0.1-0.5 microns) and are used by some of the leading portable water filtering companies in the world. Portable ceramic filters boast an impressive list of long-term users, such as: International Red Cross, World Health Organization, Armed Forces (USA, Germany, Portugal, Switzerland, and US Navy Seals), United Nations, and the FBI. Ceramic elements can filter only free floating particulates and microorganisms. They do not remove chemicals, poor tastes, odors, or pollutants.

Glass fiber elements and compressed surgical paper (mildly expensive, medium durability, and usually not cleanable) also have small pores (0.2-1.0 microns). Like the ceramic filter, they remove only particulates and microorganisms, but they do not help much with pollutants. These are good low-cost filtering elements for home, backpacking and scouting needs, but they are not good for long-term storage because they can develop mold and mildew and they are hard to clean.

Hard-block carbon elements (less expensive, brittle, and not cleanable) have a small, but still effective pore size (0.4-2.0 microns). They are also used as an absorption filter. The best contribution that carbon makes to filtering is its ability to reduce chemical quantities, poor taste, odors and many pollutants. Because carbon is only mildly effective in filtering out particulates and microorganisms, it is mostly used as a second or third stage filter in home and portable water use. It is seldom used as a stand-alone filtering unit.

Solar stills operate upon the “greenhouse effect.” A clear plastic barrier (a plastic bag, ground cloth, or a plastic grocery sack) is placed over a “source,” such as the ground, tree branches or other organic materials. The sun’s (solar) energy passes through the barrier and heats the source material. Moisture from the source vaporizes, rises and then condenses on the underside of the plastic barrier. The moisture is then collected as drinkable water. Solar stills are capable of distilling almost any tainted water, even seawater. Solar stills can condense drinkable water from substantially anything that contains moisture. The only source materials that it cannot distill drinkable water are materials that give off toxins, such as fluids with high amounts of chemicals, radiator fluids, and fuels.

Solar stills are easy to assemble and require only two essential components: 1) a container to catch the water, and 2) a large sheet of clear plastic (from 6’ x 6’ to 9’x 9’). Optional items include a long plastic drinking tube with end cap, a small shovel, and duct tape.

Solar stills are inexpensive to make and most of their component parts can be purchased at a hardware store. However, solar stills should not be your only method for finding drinkable water during an emergency. This distilling process is extremely slow and only small amounts can be collected daily. A solar still is good when you have exhausted other methods.

Combining methods can make water safe to drink and taste better. Become aware of your area’s surrounding surface water and determine what methods work best to make that water safe to drink. Educate yourself to know what works, what doesn’t, and how you could get more drinkable water if needed.

We hope this information has proved to be valuable. The time to store water is now. The water that we take for granted becomes absolutely critical in an emergency. Water is not an item you can afford to overlook in your preparedness program.

Editor’s Note (3/26/2014): The Hydropack is another method that can be used to filter and purify water.

The Hydropack has .05 micron (5 angstrom) sized holes for water to pass through when dropped into a water source. Simply drop the Hydropack into your water source and let it absorb the water, filtering out chemicals and other contaminants to create an electrolyte drink much like a sports drink. However, there could also be situations when the pollutant in the water is small enough that the Hydropack won’t solve the issue.

  1. I used a steripen for years, but I’ve had some problems with them. Mine refused to work on the trail last summer, although a week later I got up in the night and saw it shining, so it wasn’t that the battery had died. This experience was a good reminder that water is too important to trust to batteries and electronics.

    I’ve been using a Sawyer Mini filter ever since. So far no complaints.

    Boiling works, too, but requires a lot of fuel.

    • I completely agree! Although, I have been wanting to get one of the SteriPens, but I might hold off now. I have several of the Sawyer Mini filters and I really like them! I am going to be making a bucket and filter set up to use with the Sawyer filter since it can handle so much water, mainly for camping or off-grid usage.

      • The Sawyer uses the threads on a water/soda bottle, which seems great, but turns out to be pretty inconvenient in the field. Still, good in an emergency.

        Make a point of carrying at least one extra “dirty” bag to collect water and filter from, because they won’t last forever, and Murphy says they’ll go out at the worst possible time. 😉

      • Because I am still using the original bag that came with the filter, I really haven’t a lot of trouble with it. have you ever heard of or tried out a product called a Jolly Tank? That is good option for carrying a very light weight water storage container and still hold a great deal of water.

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