Sacramento County plans to install a smart grid.
(Credit: Sacramento Municipal Utility District)Sacramento County's community-owned electric utility has signed a deal for Silver Spring Networks to provide a smart grid for roughly 600,000 homes and businesses.
Installation is to begin in July with an expected completion date tentatively set for March 2011.
So what will residents be getting?
The smart grid will include the installation of two-way electricity meters and home area networks that will provide real-time usage information, rate information, and the ability to control a building's energy usage. This will allow users to monitor their electricity consumption, enabling them to adjust some of their energy usage habits (if they want to) from peak to off-peak hours. They would also be able to communicate with the kind of "smart appliances" under development by companies like GE.
Perhaps more importantly, the meters and smart grid will give the Sacramento Municipal Utility District (SMUD), the sixth largest community-owned electric utility in the U.S., the ability to immediately monitor usage and determine usage trends across its entire service area.
The new system will reduce operating costs for SMUD and enable it to improve its reliability, while providing customers with more information about their energy usage, according to SMUD's 2008 annual report (PDF).
"The new technologies will allow customers to make energy choices based on cost, comfort and convenience. Imagine a future where your appliances, electronic devices and programmable thermostat communicate with your electric meter, or where you can call up your energy profile on a laptop or a cell phone from any location," said the report.
The new deal coincides with what many experts have been saying: smart grids may be the next green-tech bubble.
If you reel in a small sub instead of a rainbow trout from the Sacramento River this summer, don't call Homeland Security.
It belongs to a team of researchers from the University of California at Berkeley trying to learn more about the river currents in the delta.
The researchers are working with propelled 4-foot-long submarines and floating drifters equipped with GPS-receivers for positioning, GSM-modules for communication, and sensors inside for recording temperature, salinity, and currents.
Researchers prepare to launch a submarine.
(Credit: UC Berkeley)
"We are prototyping an infrastructure and testing it in the delta," said Professor Alexander Bayen, who leads the team at UC Berkeley's Civil Systems Department.
The purpose of all this is to collect data to help the state better understand the river. And researchers have good reason to believe there's urgency to their work. With drought looming for most of California, understanding the state's water supply (much of the state's population drinks run-off from snow melting in the Sierra Nevada range) and how the system works is critical.
The Sacramento River is already monitored by 50 permanent water stations in about 1,000 miles of water channels, but that collection of data is not designed to handle emergency situations, according to the researchers.
"It's totally undersampled if you want a precise, online, real-time measurement of the whole state of the delta," Bayen said.
Heavy rains, levee breaches, or contaminant spills are situations when accurate and up-to-date data is needed. In the river delta in 2004, for example, one of the levees breached and a large agricultural area was flooded. Pumps normally move fresh water from sources in the north down to the south, but silt was confounding in the system. The pumps had to be shut down for a whole month at a cost of around $1 million a day.
"In retrospect, that was too long. But given the information they had, they were forced to act very conservatively. They could not turn the pumps on," said graduate student and researcher Andrew Tinka.
Floaters equipped with sensors deployed on site could have provided real-time information on how the water was flowing and where the silt was heading.
Development of the floating devices starts from scratch at a UC Berkeley workshop.
(Credit: Carl-Gustav Linden/CNET News.com)In a recent workshop at UC Berkeley, undergraduate students and university staff worked on floater prototypes that will be tested this summer in the river. Inside the floaters are a GSM-module, a GPS-receiver and a $120 Gumstix computer running on Linux. (A Gumstix is a computer the size of a stick of gum.)
"They are great little computers that are about as powerful as a 1996-era Pentium. All the power you had at your disposal can be yours in a floating sensor for very little money now, and that's really cool as far as I'm concerned," Tinka said.
The self-guided submarines are developed in Portugal by the University of Porto.
That is the hardware involved. The other part of the project are the algorithms calculated for the complex hydrodynamics models. The software is based on two commercial packages, Telemac and Mike 21, with programs for GPS tracking added.
Bayen said that the combination of the hardware and software is the novelty here. He calls it a "cyber physical system," where the cyber part monitors the flow of information and the physics is the hardware--the floaters.
"In five years, cyber physical system is going to be a tech buzz word," Bayen said.
If the research project is successful, the innovations can be put to use in other parts of the world where there is a need for improved river management. The Berkeley team is already cooperating with Professor Linda Bushnell of the University of Washington on a project in the Mekong--the troubled river that floats through China, Laos, and Cambodia out in its delta in Vietnam.
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