Radar Tower Expected to Serve as Forecasters’ Foul-Weather Friend

You probably didn’t notice, but over the past year you’ve had a gap filled that will make it easier for you to deal with whatever mayhem El Nino kicks up this winter.

And for this little improvement in the quality of your life, you can thank an 86-foot-high radar tower, which looks like a giant softball on an oil derrick, northeast of Irvine Lake, near the Riverside County line.

With minimal fanfare, the National Weather Service late last year switched on the seventh and final tower in its Doppler radar system in California, part of a national network designed to improve weather forecasting.

The newest tower covers the coastal area--primarily Orange County--not reached by existing towers near Oxnard and San Diego. Now, weather service officials say, they’ll be able to issue more accurate warnings this winter as storms make their way inland from the Pacific Ocean.

“We’re really going to be counting on these radars,” said Armando Garza, meteorologist in charge of the weather service’s San Diego regional office.

With the Doppler system, meteorologists can measure the density of rain, the strength of winds and other details that allow them to fine-tune their predictions. So if El Nino unleashes winter storms, forecasters will be able to issue more specific warnings about levels of rainfall.

“It’s superior technology,” Garza said. “It’s highly sensitive, and it provides us some very site-specific information. Older radars painted the rain on the screen, an indication of an area. This one actually gives us a better pinpoint of where the heavy rains are occurring.”

The system mixes computerized mathematical formulas called algorithms with regular radar to measure storms as far as 200 miles offshore. It converts the readings into assessments of rainfall and likely storm paths.

“Before, we knew that storms were coming in because we had a satellite picture,” Garza said. “That did not give us a good indication as to what was embedded. If rain was occurring in Santa Ana, we knew it was occurring but didn’t have a feel as to how much.”

The Doppler system is named for the Doppler effect, the phenomenon identified in 1842 by Austrian physicist Christian Johann Doppler. Its effect is that sound and light waves seem to increase as objects approach each other.

The classic example given in high school science class is the change in the sound of a train as it nears and then passes a platform of people. The sound actually remains constant, but seems to crescendo as the train nears, then fade as it passes. By measuring those changes in the waves, scientists can determine the distance and rate of motion of everything from storm clouds to galaxies.

Recent rains spawned by Hurricane Nora gave the Doppler tower a workout. Garza said forecasters were able to use information from the tower to issue flash-flood warnings in Riverside and San Bernardino counties, as moist tropical air blew over the flatlands of Orange County, hit the mountains and developed into downpours farther inland.

“It worked out fine,” Garza said.

Other towers along the coast are at Scripps Ranch in San Diego County, Sulphur Mountain near Oxnard, Hanford, Mt. Umunum near San Jose, Davis, and Ferndale near Eureka. Four other towers in Medford, Ore., Reno, Las Vegas and Yuma, Ariz., augment the California system, tracking storms as they move eastward.

Each tower cost about $1.5 million to put up, Garza said, though the Orange County tower cost about $2 million.

“We had to rework the road just to get the equipment up there,” Garza said. “It was one of our costliest radars.”

(BEGIN TEXT OF INFOBOX / INFOGRAPHIC)

Rain Radar

Local weather experts say a new Doppler radar system will help them predict which cities will receive the most rain during storms and pinpoint potential flood zones. The Next-GenerationRadar System, or NexRad, can determine rain amounts in clouds. How it works:

Inside the Tower

The radar unit is mounted on an 86-foot tower. Inside the radome, a transmitter sends electromagnetic pulses in all directions. A receiving dish listens for pulse echoes as they bounce off dust and rain. Computers analyze variations in wavelengths to determine storm location, wind speed and direction, and amount of rain embedded in clouds. The dish can pick up echoes from ground level to 70,000 feet and the impulses can cover a distance of 250 miles.

SIZING UP A STORM

Old System

Before Doppler, weather forecasters relied on Federal Aviation Administration radar, which captured only motion. The murky images provided little information beyond a storm’s outline and its general direction of movement.

Doppler System

Results of the computer analysis are color-coded to identify a variety of wind conditions and amount of rain in a storm cell, enabling forecasters to determine storm intensity. The system can also locate river basins to show where rainfall will drain and provide warning of potential floods.

The Big Picture

Southern California now has four Doppler radar towers, enabling forecasters to make predictions three to five days in advance as well as to interpret information during storms to alert specific cities and areas of a fast-forming storm.

Tower locations:

1. Poway

2. South of Irvine Lake

3. Southwest of Corona

4. North of Oxnard

Sources: National Weather Service, Times reports; Researched by APRIL JACKSON / Los Angeles Times