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1. The Laundry balls can stay in the machine all the time. Drying the ball naturally can reach better effect and prolong its life.
2. Suitable for all washing machines. 3. Filled with solid ceramic balls, never used as toys for children. 4. Suggestion: no use in industrial use or large-scale washing such as laundry shop, but can be used for antibacterial 5. Washing separately between different colors or easy-fading cloths. |
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The average household uses 20 lbs of detergent a year!!
Laundry balls contribution to water pollution is NONE!!!!!!
Join the Revolution....Washing Principles
1. The powerful far-infrared rays of the LAUNDRY BALL breaks water molecule's hydrogen combinations into small clusters and force the small water cluster being activated, to increase it's molecular motions, penetration force, and washing power. As it also radiates negative ions to weaken the surface and inter fabric adhesion, the dirt can come off easily without any detergent.
2. You can use Hot, Warm or Cold Water, in Top loaders, Front Loaders, Twin tubs and even Hand washing.
3. You can reuse them over and over again (up to 500 to 600 washes), until the pellets run out.
4. The LAUNDRY BALL keeps the pH spectrum at the level that ordinary chemical detergent does (pH10), helping remove dirt from clothing.
5. The LAUNDRY BALL eliminates the chloride compound in water, and slackens the water surface tension and increases cleaning strength.
6. The LAUNDRY BALL eliminates the mould, pathogenic organisms in the washing machine, and activates the water to increase the cleaning strength.
7. The LAUNDRY BALL does not pollute. It contains no chemicals.
8. You save time because you just throw the LAUNDRY BALL in your washing machine and turn your machine on- NO measuring, pouring, spilling or agitating, it's so easy and simple that anyone can do it.
Brief Story of Soap and detergents
Soap is a cleansing product created through the chemical process of combining fat or natural oil with an alkali (such as wood ashes or lye) under controlled conditions. Detergents, although similar in function to soaps, differed from them chemically. Detergents were made from other raw materials including petroleum products and fatty acids. They often contained additional ingredients such as fluorescent whitening agents, anti-redeposition agents, corrosion inhibitors; suds control agents, nonchlorine bleaches, colorants, fragrances, enzymes, blueing, and processing aids, all contributing to water and earth pollution.
The rapid expansion of synthetic detergents, however, led to problems. Reports of foaming in streams and wastewater treatment plants were first heard in the late 1940s, and by the early 1950s scientific evidence identified synthetic detergents as the cause. ABS, the most widely used surfactant, was not biodegradable and led to water contamination. The search for biodegradable detergents has gone through different types of phosphates, sulfates and many other chemicals which have been either banned or soon will which have led to the development of liquid detergents and concentrated formulations which have less chemicals, nonetheless still are the source of water contamination. Although the detergent and soap industry is looking for growth through targeted marketing strategies and new product introduction, the primary focus is on cost control. The big firms are coming under increasing cost pressure from private label brands belonging to big discounters.
Animal Testing
Also, animal testing has been widely used as a tool in investigating the safety of detergent ingredients. Animals were used to determine the likelihood of human reactions, the severity of possible injuries, and the time necessary for healing. Rabbits and monkeys were frequently used to discover if certain chemicals or combinations of chemicals would cause eye irritation.
Environmental Regulations
The need to meet environmental regulations both in the United States and abroad drove many of the research efforts undertaken by the soap and detergent industry during the early 1990s. Zeolite, sodium citrate, sodium carbonate, and sodium nitrilotriacetate were under investigation as possible builders to replace phosphates. Other questions being addressed included product safety, water quality, chemical disposal, the ability to wash in unheated water, and indoor air quality. Although technological developments and an expanding understanding of chemical processes had improved the industry's ability to restore soiled garments and other objects to their pre-soiled condition, available soaps and detergents still failed to achieve perfect results. Chemical scientists, therefore, continued to work on developing innovative laundry additives such as new enzymes and oxygen bleaches.
Chemicals have been and always will be contaminants.
Water covers three-quarters of the earth's surface. Rivers are the vascular system of the planet, delivering life-giving water to fields and faucets, carving valleys and canyons, depositing rich sediments on alluvial plains, flushing waste to the ocean. A human can survive a month or more without food; without water he or she will perish in a few days.
Fifty percent of the United States population depends on groundwater for daily drinking water. Groundwater is also one of our most important sources of irrigation water. Unfortunately, groundwater is susceptible to pollutants. Groundwater is generally a safe source of drinking water, however, there are concerns that contamination may increase as toxins dumped on the ground in the past make their way into groundwater supplies.
Pollutants Can Seep into Groundwater
Supplies Pollutants that contaminate groundwater may be some of the same pollutants that contaminate surface water. Compounds from the surface can move through the soil and end up in the groundwater. For example, pesticides and fertilizers can find their way into groundwater supplies over time. Road salt, toxic substances from mining sites, and used motor oil also may seep into groundwater. In addition, it is possible for untreated waste from septic tanks and toxic chemicals from underground storage tanks to contaminate groundwater.
Dangers of Contaminated Groundwater
Drinking contaminated groundwater can have serious health effects. Diseases such as hepatitis and dysentery may be caused by contamination from septic tank waste. Poisoning may be caused by toxins that have leached into well water supplies. Wildlife can also be harmed by contaminated groundwater. Other long term effects such as certain types of cancer may also result from exposure to polluted water.