Water is often considered the “universal solvent” because it can mix with organic (natural) or synthetic (man made) substances. Some of these products break down easily in water, others break down very slowly or never. Water naturally cleans itself through filtration through the ground and evaporation in the water cycle.

Many societies used to dispose of waste and garbage directly into lakes, streams, and oceans. Now, most countries require polluted water to be treated. Environmental, chemical, and civil engineers wrk to improve existing water treatment systems and design new ones to ensure a steady supply of safe, clean water now and in the future.

Generally, there are three ways to treat raw sewage (waste) water. First, the liquid is allowed to settle and then is exposed to oxygen by stirring or bubbling air through it (aeration). This allows many harmful organic pollutants to react with the oxygen and change into carbon dioxide and water. Second, the liquid can be filtered to remove the particulate matter. Lastly, the solution is treated chemically (with chlorine or ozone) to kill any remaining harmful things like bacteria.

Pipe filter lets a Nigerian woman drink from a pond

Procedure
Today, we are engineers working for the Clean Water Environmental Engineering Company. The company has been asked to design a new water filtration system for a small community with a polluted water supply. We are going to focus on the second step in the water treatment process, filtering. First, we are going to look at different types of filter material to determine which ones work well. Then each group in the company will design a filtering system to clean up the polluted water. The best filtering system will be used in the small community.

Before the Lesson

With the Students

Part 1

• Divide the students into groups of 3.
• Distribute a Data Collection Worksheet set to each group.
• Remind the students that they are now working for the Clean Water Environmental Engineering Company and have been asked to design a new water filtration system for a small community with a polluted water supply. First, the company is going to look at different types of filter material to determine which ones work well. Then each group in the company will design a filtering system to clean up the polluted water.
• Give the following supplies to each group: a pre-cut 2-liter bottle, a ½-¾ cup (100-200 mL) sample of the “polluted water” (in a beaker or cup), one type of “filter” (one group will not get a filter as they will test the mesh only), and a spoon.
• Ask each group to draw a picture of the “polluted water.” Ask them to describe in words what it looks and smells like. Remind them to gently stir the solution and record observations of that as well. They should record their answers on the Data Collection Worksheet. Remind students that they should never, ever taste the solution.
• Ask students to write down a prediction for what they think their particular filter material will do. (There is a space for this on the Data Collection Worksheet.)
• Ask students to set up their filters by placing the filter material into the inverted 2-liter bottle top, as in Figure 2. (Note: the filter should be place in the end of the bottle with the neck; it will function like a funnel. Use the other half of the bottle as a stand.) They should draw a picture of their set-up on the data sheet.
• Ask students to gently stir the polluted water and then slowly pour it into the filter. (Note: The group with the filter paper will need to be careful not to pour liquid above the top of the filter.)
• They should observe what happens during the filtration. Some filtrations will take longer than others. They should record their observations and draw a picture of the filtered water on their data sheet.
• After all the groups have collected their data, share the results as a class (fill in the information on the transparency or chart you made earlier). Students should record everyone’s results in their class data section on their worksheet as well.
• As a class, look at the aerated sample. Discuss what aeration is and how it works (see aeration explanation in the Before the Lesson section).
• Ask students to work in their engineering design groups to design the best water filtration system given the filter choices and a choice of aerated or non-aerated water. There is a place on the Data Collection Worksheet for them to record and explain their choices. (They can use as many of the filtering items as they want.)
• Collect all supplies and dispose of used items properly. (The 2-liter bottles will need to be rinsed and saved for Part 2.)
  
  A 2-liter bottle with a standard coffee filter placed in the bottom

Part 2

• Have students break into their groups assigned during Part 1.
• Give each group a prepared 2-liter bottle, ½-¾ cup (100-200 mL) of the “polluted water” in a beaker or cup (aerated or non-aerated, whichever they chose), and a spoon.

• Distribute the filter materials as needed. (Note: Assign a specific “materials” person from each group to collect the supplies from a central location in the room.)
• Ask the students to build their groups’ water filter system and draw a picture of it on the Data Collection Worksheet.
• Ask students to gently stir the polluted water and then slowly pour it into the filter. (If filter paper has been used, students will need to be careful not to pour liquid above the top of the filter.)

• They should observe what happens during the filtration process. (Note: Some filtrations will take longer than others; students should not panic if their filtration takes longer than another groups’.) Groups should record their observations and draw a picture of the filtered water on their Data Collection Worksheet.
• Ask students to record their results and complete the discussion questions on the Data Collection Worksheet. Have them compare answers with a group member.
• After all the groups are finished, label and line up the samples. Ask each group to present their filter system to the class (aka Clean Water Environmental Engineering Company). Have a class vote and discussion about which water is the cleanest and why.

Clean Water Environmental Engineering Company Design Project: Ask students to work in their engineering design groups to design the best water filter system given the filter choices and a choice of aerated or non-aerated water. There is space provided on their Data Collection Worksheet for them to record and explain their choices.

Engineering Presentations: Ask each group to present their filter system to the class. Have a class vote and discussion about which water is the cleanest and why.

Additional Resources

Aquaduct Mobile Water-filtration bike. [YouTube video, 2:00] The Aquaduct, a pedal powered vehicle that transports, filters, and stores water for the developing world, was an award-winning 2007 entry in the Innovate or Die contest put on by Google and Specialized.

Interactive Water Cycle (requires Flash) from the U.S. Environmental Protection Agency’s Drinking & Ground Water for Kids.

Water Purification Lesson from the Center for Innovative Engineering and Science Education at Stevens Institute of Technology is a series of activities culminating in a project.

Will There Be Enough Water? Six module High-Adventure Science lesson developed by the Concord Consortium includes interactive online components.

The University of Illinois, Urbana-Champaign’s Water Campws, a program from the Center of Advanced Materials for the Purification of Water with Systems, oversees sustainability efforts that include installing low-flow fixtures and conducting water audits campus-wide.

Video: Engineers Without Borders, California Polytechnic, San Luis Obispo chapter, designs and installs a water filtration systme for six rural Thai villages. [YouTube, 9:40]

Water Purification: A Systems and Global Engineering Project – Nine week collaborate project for students in grades 9 -12 developed by the Stevens Institute’s Center for Innovation in Engineering and Science Education.

Build a Water Filter Part 1 (dirt) and Part 2 (salt). PBS Learning Matters kids’ activities using half a large soda bottle to rid water of dirt or salt.

Contributors: Amy Kolenbrander, Jessica Todd, Malinda Schaefer Zarske, Janet Yowell; Copyright © 2005 by Regents of the University of Colorado; last updated March 2019.