Thursday, July 6, 2017

WATER TOWERS - Water towers store water, but it is less well known that they also store energy. The pumps from the treatment plant send the water up into the water tower's tank. The water gains potential energy, or stored energy. This energy allows the water to flow out of the tank, turning its potential energy into kinetic energy (energy of motion) when needed. The taller the water tower, the more potential energy the water has.

Water Towers
How Do Water Towers Work?

By Laura Geggel, Senior Writer 

It's no surprise that water towers store water, but it's less well known that they also store energy.

The whole process starts at the water treatment plant.

After the water is treated, electronically powered mechanical pumps send it through pipes, either to serve an immediate need (think showers, dishwashers and water sprinklers) or to a water tower for storage.

"On a normal day, people are turning on their faucets and flushing their toilets," said Enos Inniss, an assistant teaching professor of civil engineering at the University of Missouri.

"The water that people are not using - it has to go somewhere," and that somewhere is the water tower.

Many water towers are tall and look like giant lollipops.

Because the pumps from the treatment plant send the water up into the water tower's tank, the water gains potential energy, or stored energy.

This energy allows the water to flow out of the tank, turning its potential energy into kinetic energy (energy of motion) when needed, Inniss said.

Moreover, the taller the water tower, the more potential energy the water has, he said.

If a water tower is holding water for a small area that's nearby — a cemetery graveyard, for instance — it might sit on the ground, like one that Inniss said he saw recently on a road trip.

But if a water tower is designated to hold water for a large metropolitan area that's far away, it will likely be tall and have an enormous tank.

A standard water tower can hold 50 times the volume of a regular backyard swimming pool, which holds about 20,000 to 30,000 gallons (about 76,000 to 114,000 liters) of water, according to HowStuffWorks.

For instance, "The Giant Peach" water tower in Gaffney, South Carolina, which also serves as a tourist attraction, is 150 feet (46 meters) tall and holds 1 million gallons (3.8 million liters) of water, according to the U.S. geological Survey.

"The taller you go, the more pressure you can create inside of the system because it has farther to fall," Inniss told Live Science.

Water towers typically fill up when demand for water is low. This usually happens at night after most people go to bed.

The pumps at the water treatment plant continue to send out water, but instead of going to people's sinks, the water goes into water towers for storage.

Then, during the morning rush — when people are running water to brush their teeth, take showers and brew coffee - that stored water, in addition to the water coming from the treatment plant, is available through pipes to homes, Inniss said.

Water towers also ensure that there's a supply of water during power outages, at least until the water runs out.

During an electricity outage, the pumps at the water treatment plant would likely stop working (unless there's a generator), Inniss said.

But because the water in the tower already has potential energy, it doesn't need more electricity to flow out of the tank.

"Once the tower is empty, then I now need a pump to move the water through the pipe again [from the water treatment center]," Inniss said.

In big cities such as New York, many apartment and office buildings have water towers on top of their roofs.

These water towers not only serve an immediate need, but also give some cities an iconic look, Inniss said.

Other water towers also serve as art, including the Brooks Catsup Bottle Water Tower in Collinsville, Illinois, and a corn-shaped water tower in Rochester, Minnesota.

Follow Laura Geggel on Twitter @LauraGeggel. Follow Live Science@livescienceFacebook & Google+. Original article on Live Science.
cience, Laura Geggel covers general science, including the environment and amazing animals. She has written for The New York Times, Scholastic, Popular Science and Spectrum, a site covering autism research. Laura grew up in Seattle and studied English literature and psychology at Washington University in St. Louis before completing her graduate degree in science writing at NYU. When not writing, you'll find Laura playing Ultimate Frisbee. Follow Laura on Google+
RELATED POSTS:
.
Pressure 
Tanks
CLICK HERE . . .

Water 

Hammer
CLICK HERE . . .

Priming 
The Pump
CLICK HERE . . .
Pump Cavitation
WHAT IS PUMP CAVITATION?
CLICK HERE . . .
Hydraulic 
Ram

How does an hydraulic ram pump work?
CLICK HERE . . .
..
Multi-Media Filter, Highly-Activated Carbon Filter,
Zeolite-Process Water Softener With Brine Tank,
Fiberglass Ballast-Type Pressure Tank
(fully automatic backwash & regeneration)
PURICARE 
INDUSTRIAL 
ENTERPRISES 
Water 
Treatment 
Systems
.
.
...
Aganan, Pavia, Iloilo, Philippines

No comments:

Post a Comment