How Washing Machine Works | Scientific Explanation
There are all kinds of inventions that make modern living possible, but some fly under the radar. Some so much so that we’ve only just figured out how they truly work. Case in point: how washing machine works?
Because apparently, no published paper was able to explain how these things get your clothes clean and how washing machine works; not until 2018. Now, to be clear, it’s not like we had no idea how these machines worked.
The oldest washing machines that resemble our modern appliances date back to the 19th century, so these things have been around for quite a while. And for years, we’ve had an excellent understanding of how they use soap and detergent to get stuff off the surface of your clothes.
Soap is a surfactant, which is short for a surface-active agent. That means its molecules can be attached to two substances that don’t regularly interact.
For example, oil and water. Usually, one end of the molecule is hydrophobic, meaning it repels water, and the other end is hydrophilic and regularly bonds with water.
So, when soap is dumped into a big bath of water, the surfactant molecules group together to form spherical structures called micelles. The hydrophilic ends stick out toward the water, and the hydrophobic ends hide inside.
When a micelle lands on a dirty section of fabric, the hydrophobic ends pop out and attach to the dirt, or whatever is soiling your clothes. Then, the hydrophilic ends pull the rest of the micelle off the fabric’s surface, and the micelle renovation with the soil is “eaten” in its center.
Detergents like the ones we use for washing clothes use anionic surfactants, meaning the hydrophilic end has a negative electrical charge. But, while there are different types of surfactants, they generally all work the same way.
How washing machine Spin?
The reason washing machines spin everything around is to help the soap solution flow through your fabric and pick up all the dirt hiding in the crevices. But here’s where the mystery came in: Water can’t flow through every spot in your clothes.
That’s because the fabric is usually made of yarn, which is itself made of multiple fibers. Soap generally has no problem getting into inter-yarn pores or the spaces between separate strands of yarn. But it does have a problem getting into intra-yarn pores, or the spaces between the fibers in a single strand.
These pores are at least an order of magnitude smaller than the inter-yarn ones, and only about 0.1 percent of the soap solution can get inside them, and even then, it doesn’t get in all the way.
Micelles get stuck there and are only able to move when nearby water molecules strike them. According to the math, all of the micelles would eventually get knocked out, and that soap and dirt would go flowing down the drain. But this process would take several hours. And that’s not how washing machines work.
They get the soap and crud off your clothes in usually under one hour. This phenomenon was called the “stagnant core problem,” and it’s what scientists hadn’t been able to explain until that 2018 paper.
How washing machine Takes out Dirt?
In their research, the authors learned that the solution to getting the dirt out of those intra-yarn pores wasn’t the soap, which is kind of surprising. Instead, it was a rinse cycle, along with a process called diffusiophoresis.
Diffusiophoresis is the movement of colloidal particles caused by a gradient. In other words, it’s the movement of tiny particles suspended but not dissolved in a fluid.
When you swap out the soapy water with the clean stuff, the surfactant micelles are way more concentrated in the fiber pores than they are elsewhere.
And when you’re using anionic surfactants, this creates an electric field that makes the micelles migrate out of those intra-yarn pores. In their paper, scientists figured this out by doing a series of experiments.
Instead of dirt, they used micrometer-sized, fluorescent balls, and they picked a standard detergent called sodium dodecyl sulfate. It also goes with sodium lauryl sulfate, and you can probably find it in most of the cleaning products you own.
The team did one trial with no detergent at all, just to see how much cleaning the water and agitation could do all by itself.
Then, the team did an experiment that rinsed the sudsy fabric with detergent-filled water, and no diffusiophoresis was observed.
Finally, their third run mimicked a regular wash/rinse cycle, where the soapy fabric was rinsed with clean water. This time, the team observed that the material pores were nearly emptied after just 10 minutes of rinsing, cleaning out the intra-yarn pores over 100 times faster than in the soapy run.
So yeah, surfactants get the dirt off your clothes, but you need clean water to get the trash out of them. This research doesn’t answer all the questions about cleaning your clothes. For example, why some stains are far more persistent than others, but it does have some useful applications.
With knowledge like this, we might be able to maximize detergent efficiency and minimize the amount of water and energy we use to do our laundry. That would make washing machines, both in your home and in the industry, much better for the planet.
Which is kind of a big deal, considering how much water this process takes?
On a different note, other research suggests that faster rinsing speeds could also create a better diffusiophoresis effect. So there may be turbo-charged washers in our future that get clothes clean even faster. But, hey as long as my laundry comes out smelling fresh, I’m all for it.
Thanks for reading this post of INDIN HOME APPLIANCES. I hope now you understand how washing machine works.
If you want to learn more about laundry science, you can check out our articles about cleaning washing machines, how to whiten clothes, the best washing machines in India and so on.