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How to Harvest Water from Fog

26 reviews


Active Time
30-45 minutes
Total Project Time
30-45 minutes
Key Concepts
Physics, state of matter
Svenja Lohner, PhD, Science Buddies
This activity was inspired by a lesson from the Peace Corps on harvesting water from fog.


How long do you think you could survive without drinking any water? Only three to four days! Your body needs water to function properly. We also rely on water for cooking, cleaning and many other activities. You might not think about getting enough water if you can get it easily by turning on your faucet. But what about areas that don't have a reliable water supply? In this activity you will learn about one creative way to collect water—from the air!

This activity is not recommended for use as a science fair project. Good science fair projects have a stronger focus on controlling variables, taking accurate measurements, and analyzing data. To find a science fair project that is just right for you, browse our library of over 1,200 Science Fair Project Ideas or use the Topic Selection Wizard to get a personalized project recommendation.


  • Work area that can get wet
  • Pantyhose
  • Wire coat hanger
  • Tape
  • Clear drinking glass, cup or jar
  • Sand
  • Refillable spray bottle
  • Water
  • Paper
  • Pen or pencil
  • Scale
  • Humidifier (optional)
  • Various other mesh materials (optional)

    materials for the fog catcher activity

Prep Work

  1. Take the wire coat hanger and form it into a diamond shape by stretching it out.

    Hands holding a wire coat hanger that is diamond-shaped.
  2. Place one end of the pantyhose over the diamond-shaped hanger and secure it at the bottom with tape.

    Panty hose stretched over a coat hanger that has been bent into a diamond shape.
  3. Fill the clear glass, cup or jar with sand.
  4. Straighten the hook of the wire coat hanger.

    straighten the hook
  5. Place the straightened hook into the jar filled with sand so it stands upright and is stable.

    Assembled fog catcher placed upright in a jar of sand.
  6. Weigh your fog catcher on the scale and write down its weight.

    weigh the fog material
  7. Fill the spray bottle with tap water.


  1. Take the spray bottle, and point it away from your fog catcher. Squeeze the trigger until it starts spraying.
    Think about:
    What can you see when the bottle starts spraying?
  2. Now hold the spray bottle about a foot away from—and perpendicular to—the net of your fog catcher. Aim the spray bottle at the fog catcher, and pump it about 10 times.
    Think about:
    Inspect the pantyhose afterwards. What do you see?

    Water is sprayed from a spray bottle onto a self-made fog catcher.
  3. Spray the pantyhose with water another 10 times.
    Think about:
    What do you observe now?
  4. Repeat this step about 10 times. After every 10 sprays inspect the surface of the pantyhose.
    Think about:
    How does the surface of the pantyhose change every time?
  5. Place the whole fog catcher onto the scale again, and write down its mass.
    Think about:
    Did the mass of the device change? If yes, how? Can you explain the change?


If the pantyhose is still intact after the activity, you can dry and reuse it. You can also reshape the wire hanger into hanger form, and reuse it as well.

What Happened?

The device that you built from the pantyhose and coat hanger is a simple model of a fog catcher, which usually consists of a mesh stretched across a frame and a collection container below it. You used the spray bottle to mimic the fog. The nozzle inside the spray bottle breaks the stream of water into many tiny water droplets. You can see these water droplets coming out of the spray bottle. These droplets mimic fog, which is also small water droplets dispersed in the air.

When these water droplets passed through the fog catcher they were collected by the mesh, or pantyhose. You probably did not see much after 10 sprays, but after a while, you should have seen tiny little water droplets building up on the surface of the pantyhose. The more fog the mesh had collected, the more water droplets accumulated. At some point they probably started to merge and formed bigger drops that then ran down the surface into the container—thanks to gravity. You could probably start to see the water pooling in the bottom of your container. If you used a scale, you could weigh the difference between the device at the beginning of the activity and at the end, which reflects the amount of water you collected from the air!

If you tried different meshes, you might have collected different amounts of water. Scientists are still trying to optimize the materials and designs of fog catchers so they can be even more efficient in water harvesting. In real life fog catchers, depending on the mesh material and design, they can harvest as much as nine liters of water per day for each square meter of mesh.

Digging Deeper

Many people around the world struggle to have enough fresh water for daily necessities. Because of that people have gotten creative in finding other ways of getting the fresh water they need. For example, people who live near the coast sometimes collect water by harvesting it from fog!

Fog is a low-hanging cloud that touches the ground. The air around us contains moisture in the form of water vapor. Usually a cloud (or fog) forms when the air temperature gets cool enough that the water in the air starts to condense, which means that the water vapor turns into tiny water droplets in the air. The collection of these tiny water droplets make a cloud (or fog) visible to us. In the case of fog they can even make it difficult to see very far.

Coastal regions frequently get fog because the warm air of the land meets the cooler air from the ocean—right around or just above ground level. When these air layers collide the water vapors condense, and fog is created.

But how can you get water out of the fog? You have to find a way to collect the tiny water droplets out of the air. This is done with big meshes that are set up perpendicular to the path of the wind. As the wind carries the fog through these meshes the water droplets get caught by the mesh. Once the droplets accumulate and become big enough, gravity pulls them down the mesh and into containers that are set up to collect the water.

icon scientific method

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For Further Exploration

  • Spray your sprayer directly into another glass, cup or jar the same number of times you sprayed it onto your fog catcher. Compare the amount of water in each container or measure them in a measuring cup. How efficient was your fog catcher at capturing the water available?
  • Instead of using a spray bottle you can also place the fog catcher close to a humidifier. How does this change your results?
  • Try out other mesh materials that you have in your house. What are the best materials to catch water from the air? You can measure the fog catching efficiency by measuring the weight of the fog catcher before and after spraying it with water. In order to compare your results, you will need to use the same amount of water for each material you test.
  • Does it matter how you hold the spray bottle in front of the fog catcher? How does the distance or angle at which you are directing the mist towards the mesh affect the efficiency of the fog catcher?



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