Bombardier Selects Maxwell Technologies' Ultracapacitors for Innovative Rail Transit Braking Energy Recuperation System
Each stationary "wayside" EnerGstor unit incorporates an ultracapacitor array that is capable of storing up to two kilowatt hours of electrical energy generated by a rail vehicle's braking energy recuperation system. Recuperative braking is accomplished by running the vehicle's electric motor backwards to stop the vehicle with the motor's resistance. An electric motor running backwards also acts as an electric energy generator or dynamo that converts kinetic energy into electrical energy that can be stored for future use. The EnerGstor system offers multiple benefits to rail system operators, including:
- A 20 to 30 percent reduction in grid power consumption;
- Improved regulation of line voltage across a multi-stop rail system;
- Significant reduction in brake maintenance expense, and
- Backup power to enable vehicles to reach a station in the event of a grid power failure.
"Bombardier Transportation has developed an innovative energy storage system that enhances the efficiency and reliability of rail transit operations," said David Schramm, Maxwell's president and chief executive officer. "This opportunity to work closely with a world leader in transportation technology is helping us to better meet the requirements of electric and hybrid vehicles and continue developing products that deliver superior performance and value."
Maxwell ultracapacitors are powering more than 4,500 hybrid transit buses currently in service worldwide, and are being employed in several other transportation applications, including a stop-start idle elimination system developed by Continental AG for micro hybrid diesel automobiles now being produced by PSA Peugeot Citroen in Europe.
Unlike batteries, which produce and store energy by means of a chemical reaction, ultracapacitors store energy in an electric field. This electrostatic energy storage mechanism enables ultracapacitors to charge and discharge in as little as fractions of a second, perform normally over a broad temperature range (-40 to +65 degrees C), operate reliably through one million or more charge/discharge cycles and resist shock and vibration.
Maxwell offers ultracapacitor cells ranging in capacitance from one to 3,000 farads and multi-cell modules ranging from 16 to 125 volts.