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Desalination Is the Solution to Water Shortages


By McKinley Conway
RedOrbit
May 2, 2008


With water shortages looming, it's time to commit to building seawater desalting
plants. Prompt action can bring new rivers of freshwater and avert disasters.
Desalination is likely to become one of the world's biggest industries. Growing
communities and new industries must have dependable water supplies in order to
prosper. If droughts, exhaustion of groundwater sources, decline of lake or
river levels, or a combination of such factors threaten an area's water supply,
siteseeking firms may look elsewhere, giving waterrich areas a competitive advantage.

Certainly, water conservation programs should come first as a strategy for
regions facing water problems. Many jurisdictions are already imposing wateruse
limits. Other communities try drilling wells deeper and deeper until their
aquifer is maxed out, or they propose to pipe water from distant streams. But
such shortsighted strategies can do incalculable damage to the environment.
There is a better solution. Desalting systems have long proven effective in
Kuwait, Bahrain, Qatar, the United Arab Emirates, Oman, and Saudi Arabia. Where
once there were bleak villages on barren deserts there are now bright modern
cities with treelined streets. There are homes with lush gardens. In the
countryside there are productive farms.

The big desalting plant at Jubail, Saudi Arabia, is a model for the world. A
pipeline carries a river of freshwater 200 miles inland to the capital city of
Riyadh, and desalted seawater has given a large region an entirely new future
filled with opportunities.

There are more than 7,000 desalination plants, mostly small ones, in operation
worldwide. About twothirds are located in the Middle East, and others are
scattered across islands in the Caribbean and elsewhere. Aruba's hightech water
plant has for many years met the needs of a thriving tourist industry.

The largest plant in the United States is the pioneering $158million project of
the Tampa Bay Water agency. The project was let to contract in 1999 and after
overcoming some technical problems in its early years is now performing well and
causing no significant environmental problems. But no U.S. water agency has yet
undertaken a really big project comparable to those found along the Arabian Gulf.

A CHALLENGE FOR WATER OFFICIALS

The first obstacle is cost: Today's desalting plants are multibilliondollar
projects, and it will take time for improving technology to bring the cost down.
Timid government officials and politicians delay action for years, during which
the cost of a plant and related distribution facilities may double or triple.

Fuel for desalination is a major challenge. Desalination plants in most nations
don't have access to cheap oil as do plants in the Middle East. So planners of
big new units in the western United States need to think of energy from wind and
solar installations. Along the Florida coast, ocean energy could become
important. The Gulf Stream is an enormous asset waiting to be used. Electric
utilities that need cooling water may engage in joint ventures for such under takings.

Today, plans are under way in California for a seawater desalting plant to meet
about onehalf of the water requirements of Santa Barbara. A group that includes
Bechtel and several utilities has proposed to build a desalting plant near San
Diego to produce 100 million gallons per day of potable water. A private
developer has built a small plant on Catalina Island. North of San Francisco,
Marin County is considering a seawater unit.

Texas, meanwhile, has built a $2million pilot plant at Brownsville to explore
ideas for a $150million installation planned for 2010.

Coastal states obviously have a big advantage in coping with future water needs,
and many cities sit at the ocean's edge or nearby. Inland cities are likely to
face bigger problems, and, sooner than we think, it will be necessary to build
pipelines to some of them. Right now, Las Vegas is planning a $2billion, 300mile
pipeline to bring water from rural northeast Nevada counties to the city.

Booming Orlando, Florida, has been expecting to meet future water needs by
piping water from the St. Johns and other rivers. However, this scheme is
strongly opposed by ecologists. After the expensive environmental mistakes of
the crossFlorida barge canal and manipulation of the Everglades, the state may
be hesitant to approve any more drastic changes in natural flow patterns.

Thus, Orlando could be the first large inland city in Florida to resort to a
seawater system, as difficult as that might be. There would be powerful
opposition to building a large desalting plant at the nearest point on the East
Coast, where it might conflict with the NASA launch complex at the Kennedy Space
Center. An offshore site might work.

Even Atlanta, 300 miles from the ocean, may someday have to turn to seawater.
Since the 1950s, when no one foresaw the possibility of longterm water shortages
for Atlanta, a population explosion accompanied by an extended drought of
unprecedented severity has lowered water levels drastically in Lake Lanier and
Lake Allatoona- two huge reservoirs serving the area.

Clearly, planning and developing large numbers of seawater desalting plants will
cause many problems, but the desalting plants that cause local problems may in
the aggregate help against a huge global problem- the rise of sea levels due to
the melting of ice in mountain ranges and at the poles.

Solar thermal desalination plant developed by the Fraunhofer Institute for Solar
Energy Systems in Freiburg, Germany, could help poor countries transform
seawater or brackish water to pure drinking water for low cost. Unlike
largescale industrial desalting plants with access to energy infrastructure,
Fraunhofer's projects would be appropriate for small, rural areas with
autonomous solar power supplies.

"Today's desalting plants are multibillion- dollar projects, and it will take
time for improving technology to bring the cost down. Timid government officials
and politicians delay action for years, during which the cost of a plant and
related distribution facilities may double or triple."

About the Author

McKinley Conway is an engineer and founder of Conway Data Inc., a firm involved
in research, publications, and telecommunications, specializing in futures
studies, global megaprojects, and site selection. His address is Conway Data
Inc., 6625 The Corners Parkway, Suite 200, Norcross, Georgia 30092. Web site
www.conway.com.

 

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