By John Addison (8/15/07)
Years ago, you only had one choice for your telephone service – AT&T. Now you have a variety of choices from landline, wireless, cable, and Internet providers. Years ago, gasoline was your only fuel choice. Now you have a number of fuel and electric choices. In the future, your favorite provider may be your electric and gas utility.
PG&E – Pacific Gas and Electric – (NYSE: PCG) provides electricity and natural gas to over 5 million customers in California. With revenues exceeding $12 billion, PG&E has an opportunity to increase its services as we continue the shift from vehicles with gasoline engines to vehicles using electric propulsion and alternate fuels.
When I met with a number of PG&E managers, Sven Thesen traveled from his Palo Alto home via bicycle and train, leaving his personal plug-in hybrid at home. Another traveled from his Alameda home via bicycle and ferry. Others used low-emission CNG and hybrid vehicles. The people managing PG&E’s clean transportation programs practice what they preach.
This article looks how PG&E runs a clean fleet, new programs for customers, and the exciting future potential of vehicle-to-grid (V2G).
As part of its larger environmental leadership strategy, PG&E owns and operates a clean fuel fleet of hybrid-electric and fuel cell vehicles, and more than 1,300 natural gas vehicles — the largest of its kind in the United States. PG&E’s clean fuel fleet consists of service and crew trucks, meter reader vehicles and pool cars that run either entirely on compressed natural gas or have bi-fuel capabilities. PG&E also has the largest fleet of Honda (HMC) Civic GX CNG cars.
Over the last 15 years, PG&E’s clean fuel fleet has displaced more than 3.4 million gallons of gasoline and diesel, and helped to avoid 6,000 tons of carbon dioxide from entering the atmosphere.
Most of PG&E’s fleet runs on diesel or gasoline. CNG vehicles are simply not available for all of the fleet’s diverse applications. Heavy vehicles require either liquid natural gas (LNG) or diesel to meet extended power and range demands. Most heavy vehicles, including PG&E’s, run on diesel.
For any utility, Class 6/7 service trucks often need to idle their large diesel engines for hours in order to run heavy lifts and other equipment. As new lines are installed, customers complain of the vehicle noise keeping them awake at night. The maintenance crew is often forced to stop and start the engine so that they can shout between the ground person and the one in the air. The hybrid truck is especially valuable in neighborhoods with noise restriction laws.
Last week, I reviewed PG&E’s new hybrid service truck which already had over 6,000 miles of operation. Efrain Ornelas demonstrated the heavy lift and other accessories operating electrically with the engine off. In service, the vehicle is reducing diesel fuel use 55% because of regenerative braking on road and engine-off electric operation during stationary work. The vehicle even included both 110 and 208V outlets for power tools.
At $3.00 per gallon for fuel, the potential savings ranges from $4,500 to $5,500 a year per vehicle. Each hybrid truck reduces greenhouse gas emissions an estimated two tons per year.
In addition to the dramatic diesel fuel savings, PG&E further reduces petroleum use and emissions by using B20 biodiesel. PG&E is increasing using B20 biodiesel with its entire diesel fleet.
“Hybrid-electric trucks are promising because of their potential to significantly reduce the use of petroleum-based fuel and help keep California’s air clean,” said Jill Egbert, manager, clean air transportation, PG&E. “We hope our involvement will lead to the accelerated development and mainstream acceptance of hybrids in our industry.”
PG&E is one of 14 utilities in the nation participating in the pilot truck program, sponsored by WestStart’s Hybrid Truck Users Forum (HTUF), a hybrid commercialization project bringing together truck fleet users, truck makers, technology companies, and the U.S. military, to field-test utility trucks with an integrated hybrid power-train solution.
This new Class 6/7 hybrid truck is built by International incorporating the Eaton (ETN) hybrid drive system with a 44kW electric motor. Eaton has produced more than 220 drive systems for medium and heavy hybrid-powered vehicles. Vehicle configurations include package delivery vans, medium-duty delivery trucks, beverage haulers, city buses and utility repair trucks – each of which has generated significant fuel economy gains and emission reductions.
Fleet customers for Eaton hybrid power have included FedEx Express, UPS, Coca-Cola Enterprises, The Pepsi Bottling Group, and the 14 public utility fleets into which were placed 24 hybrid-powered repair trucks.
Eaton employs a parallel hybrid diesel-electric with Eaton’s Fuller® UltraShift® automated transmission. It incorporates an electric motor/generator between the output of an automated clutch and input of the transmission. The system recovers energy normally lost during braking and stores the energy in batteries. When electric torque is blended with engine torque, the stored energy is used to improve fuel economy and vehicle performance for a given speed or used to operate the vehicle with electric power only.
“The early results are very promising,” said Bill Van Amburg, senior vice president, WestStart. “While testing these trucks on a larger scale and over a longer period of time in this pilot program is a critical next step, we’re confident these vehicles are commercially viable and will deliver real value to customers.”
PG&E sees a similar opportunity to save with its Class 5 trouble trucks. For this truck, PG&E partnered with the Electric Power Research Institute and other utilities to conduct a plug-in hybrid pilot project for a Ford F550 Super Duty Field Response Truck. PG&E currently has 350 Field Response Trucks on the road.
Some people are concerned that a shift to electric and plug-in hybrid vehicles will not reduce global warming. These people point to coal power plants producing electricity that goes into the vehicles. Because electric drive systems are typically 300% more efficient than gasoline engines, major emission reductions are achieved even from coal generated electricity.
PG&E provides much greater benefit, because it is eliminating coal power from its power mix. As a customer, my latest PG&E bill showed a reduction of coal from 38 to 2% of the power mix. In 2007, energy from RPS-eligible renewables is increasing to 12% of the delivered power mix, from 5% in 2005. Natural gas is 43%, nuclear 23%, and large hydroelectric is 17%.
By 2010, 20% of PG&E delivered electricity will be from clean renewable energy. A big part of the increase will be 553 MW of concentrating(CSP) from a new Solel project. When fully operational in 2011, the Mojave Solar Park plant will cover up to 6,000 acres, or nine square miles in the Mojave Desert. The project will rely on 1.2 million mirrors and 317 miles of vacuum tubing to capture the desert sun’s heat. It will be the largest CSP project in the world. Solel utilizes parabolic mirrors to concentrate ontosolar thermal receivers. The receivers contain a fluid that is heated and circulated, and the heat is released to generate steam. The steam powers a turbine to produce electricity.
PG&E is also expanding its use of wind, geothermal, large solar PV, and biomass energy.
PG&E owns and operates 34 compressed natural gas (CNG) fueling stations, for its own fleet and more than 200 commercial and private fleets. This includes transit districts, private refuse haulers, school districts, municipalities, air/seaports, and other miscellaneous operators including taxi, package delivery, military, and private fleets. PG&E Clean Air Transportation Program
In addition, construction of a hydrogen fueling station in San Carlos, California is scheduled to begin. GTI will serve as a partner on the project, providing a mobile hydrogen unit (MHU) that uses GTI’s patented reformer technology. This self-contained unit will produce hydrogen from natural gas. The hydrogen fueling station will be co-located with a publicly accessible compressed natural gas station to allow for 24/7 availability. Once sufficient demand is established, the MHU can be replaced with permanent facilities, and the unit can then be relocated to expand the network.
PG&E makes daily use of three Mercedes hydrogen fuel cell (F-Cell) vehicles. A variety of PG&E employees drive the vehicles including, fleet mechanics, inspectors, service planning representatives, project managers and officers.
A compelling idea for the future is to charge electric vehicles at night when electricity is cheap, and then buy the electricity from vehicles during peak hours. Some electric vehicles store enough electricity to power 50 homes. Sven Thesen at PG&E demonstrated spinning the meter backwards with their plug-in hybrid Prius with V2G. The Prius included a 9kWh plug-in kit from EnergyCS using Li-Ion batteries. A Sonny Boy power inverter, common in solar power installations, was used.
Today, utilities are powering vehicles with electricity, natural gas and hydrogen. In a few years, electric vehicles will also power homes with vehicle-to-home (V2H). Large batteries and fuel cells provide many times the electricity demand of a home. In a few more years, smart grids and intelligent power management will allow peak electricity demands to be met by utilities buying power from vehicles with vehicle-to-grid (V2G). U.C. Davis and PG&E have demonstrated V2H and V2G already.
With smart grid technology, customers could simply plug-in their vehicles to 110 volt outlets. At idle low-cost hours the vehicle would be timed to recharge. At peak hours, customers could agree to let the utility buy electricity at premium rates. In the future, expensive and polluting stand-by peaking generators could be eliminated with smart grid technology and V2G.
Leading the way to clean electricity and cleaner transportation are corporations like PG&E. In their own fleet they are proving that alt-fuels and electric drive systems can save money and emissions. As the technologies are proven, PG&E gives customers new ways to secure clean fuels and electric power.