Does Boiling Water Remove Microplastics?
ved Dr. Jonathan Doyle - Updated December 17, 2024
Microplastics have become a pervasive environmental issue,
and their presence in drinking water is a growing concern. These tiny plastic particles can originate from a
variety of sources
, including the breakdown of larger plastic waste, clothing fibers, or even the products used in our everyday lives. Microplastic contamination has been
identified prevalently almost everywhere in the environment and even in human biological samples. As people become more aware of the potential health risks
posed by microplastics, many are wondering if boiling water can help remove these particles from drinking water.
In this article, we will explore the relationship between boiling water and microplastics and how people can best protect themselves from potential
contamination.
What Are Microplastics?
Microplastics are fragments of plastic debris that have broken down over time into tiny particles. They are often divided into two categories.
- Primary microplastics: These are intentionally manufactured small plastics, such as microbeads found in cosmetics or exfoliants.
- Secondary microplastics: These are created from the degradation of larger plastic items, like plastic bottles or bags, which break down into smaller pieces over time.
How Do Microplastics End Up in Water?
The sources of microplastics in water are numerous and can include,
- Wastewater treatment plants: Inefficient filtration systems can allow microplastics to pass through.
- Industrial runoff: Factories that deal with plastics or textile industries may release microplastics into nearby rivers and lakes.
- Stormwater runoff: Rainwater can wash plastic debris from roads and other surfaces into water bodies.
- Human activities: Everyday actions, such as washing clothes made from synthetic fibers, contribute microplastics to wastewater.
Does Boiling Water Remove Microplastics?
Boiling water does not effectively remove microplastics. This is because microplastics are not a type of contamination that can be "boiled out" in the same
way bacteria or viruses might be neutralized by heat.
Microplastics Are Not Affected by Heat
Microplastics are made of synthetic polymers, which are highly resistant to heat. Boiling water (typically at 100°C) does not break down or alter the
structure of plastic particles. These particles will remain intact and will not be eliminated by the process of boiling.
Small Size and Density
Many microplastic particles are so small that they are not visible to the naked eye. They are often lighter than water and do not sink to the bottom where
they could be separated by a filtration process. This makes them resistant to simple boiling methods.
No Chemical Reaction
Unlike some organic contaminants or pathogens that can be neutralized or killed by heat, microplastics remain chemically stable at the boiling point of
water. The boiling process will not interact with them in any significant way.
What Can Remove Microplastics From Water?
While boiling water doesn’t help, there are other more effective methods for removing microplastics from drinking water.
Water Filtration Systems
Some advanced filtration technologies can help reduce microplastic contamination in water. Here are a few options.
Reverse Osmosis (RO) Filters
A reverse osmosis system is an
effective method for removing microplastics from water. This technology works by forcing water through a semi-permeable membrane with extremely tiny pores.
Since microplastics are generally larger than these pores, they are effectively filtered out. RO systems are also capable of removing a broad range of
contaminants, including bacteria, viruses, and heavy metals.
The Waterdrop G3P600 RO system, an under sink water filter, has multiple certifications confirming that it is made of lead-free materials, ensuring both the
safety of the user and the filtered water. For those looking for an efficient, reliable solution to ensure clean water, the Waterdrop G3P600 offers advanced
filtration technology and is ideal for those who want a comprehensive solution for purifying their drinking water.
Activated Carbon Filters
Activated carbon filters are another commonly used filtration technology, though they are less effective than RO filters in removing microplastics. These
filters work by adsorbing contaminants as water passes through the porous carbon material. While activated carbon filters can remove larger particles and
certain chemicals, their effectiveness against microplastics is limited. They may capture some of the larger microplastics or particles, but they are not as
capable of filtering out the finest particles as RO membranes can.
Activated carbon filters are useful for improving taste and odor, and they can also remove chlorine and volatile organic compounds (VOCs), but they are not
the best option if microplastic removal is a primary concern.
Ultrafiltration
Ultrafiltration (UF) is another membrane-based filtration technology that uses a membrane with larger pores than RO, typically around 0.01 microns. While UF
filters can remove some microplastics, they are not as effective as reverse osmosis filters. The larger pore size allows some small microplastics and other
contaminants to pass through, reducing the overall filtration efficiency when compared to RO systems.
UF filters are more commonly used in applications where water quality is less critical or where a lower-cost filtration system is desired. While they can be
useful for general water filtration, they fall short in terms of microplastic removal.
Distillation
Distillation involves boiling water and then condensing the steam back into liquid form. While this process is energy-intensive, it can be effective in
removing a wide range of contaminants, including microplastics, because the plastics do not evaporate with the water.
However, distillation has limitations. While it removes most dissolved solids, heavy metals, and some chemicals, it is less effective at removing certain
chemicals that may vaporize with the steam. And it requires a lot of energy, making it impractical for large volumes of water. Additionally, contaminants
can re-enter the water during condensation. So RO filtration is often the better choice. It efficiently removes a broader range of contaminants, including
microplastics, heavy metals, without the high energy consumption required by distillation.
Health Concerns of Microplastics in Drinking Water
There is growing concern about the potential health risks posed by microplastics in drinking water. Microplastics can enter the human body when consumed,
either by drinking contaminated water or eating food that contains microplastic particles. They could cause a range of health problems.
- Inflammation: Microplastics may trigger an immune response in the body.
- Chemical exposure: Microplastics often contain harmful chemicals, including additives used during manufacturing. These chemicals can leach into the human body, potentially causing toxic effects.
- Hormonal disruption: Some microplastics contain substances that could interfere with the endocrine system.
While the research on the direct health effects of microplastics is still in its infancy, it is prudent to minimize exposure whenever possible.
What Can You Do to Reduce Exposure to Microplastics?
In addition to using filtration systems, there are other steps Europeans can take to reduce their exposure to microplastics.
- Reduce plastic use. Minimize the use of plastic products, especially singleuse plastics, which are a major source of microplastics.
- Be mindful of synthetic fabrics. Synthetic clothing sheds microfibers when washed. Consider investing in a microfiber filter bag or a washing machine filter that can capture these particles.
- Avoid bottled water. Bottled water often contains higher levels of microplastics compared to tap water, so it’s best to rely on a filtration system for your drinking water.
Final Analysis
Boiling water is not an effective method for removing microplastics. However, advanced filtration systems like reverse osmosis are proven methods for
reducing microplastic contamination in drinking water. While the potential health risks of microplastics are still being studied, it’s clear that taking
proactive steps to reduce exposure can help protect you and your family.
Contaminants Detected in Fruitland Water Special Service District
30
Contaminants
EXCEED EWG HEALTH GUIDELINES
EXCEED EWG HEALTH GUIDELINES
30 Total Contaminants in Your Water
Water Provider
Fruitland Water Special Service DistrictPopulation Affected
120,000Water Source
Ground waterExceeds Guidelines
Others Detected