Battery-powered all-electric locomotive and related locomotive and train configurations
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B61C-003/00
B61C-005/00
출원번호
US-0434393
(2009-05-01)
등록번호
US-8136454
(2012-03-20)
발명자
/ 주소
Barbee, Gibson V
Thelen, Gerhard A
Runyon, Robert S
Vander Klippe, Derick
출원인 / 주소
Norfolk Southern Corporation
대리인 / 주소
Goodwin Procter LLP
인용정보
피인용 횟수 :
5인용 특허 :
20
초록▼
Designs for a battery-powered, all-electric locomotive and related locomotive and train configurations are disclosed. In one particular exemplary embodiment, a locomotive may be driven by a plurality of traction motors powered exclusively by a battery assembly which preferably comprises rechargeable
Designs for a battery-powered, all-electric locomotive and related locomotive and train configurations are disclosed. In one particular exemplary embodiment, a locomotive may be driven by a plurality of traction motors powered exclusively by a battery assembly which preferably comprises rechargeable batteries or other energy storage means. The locomotive carries no internal combustion engine on board and receives no power during operation from any power source external to the locomotive. A battery management system monitors and equalizes the batteries to maintain a desired state of charge (SOC) and depth of discharge (DOD) for each battery. A brake system may be configured to prioritize a regenerative braking mechanism over an air braking mechanism so that substantial brake energy can be recovered to recharge the battery assembly. Many locomotive or train configurations involving battery-powered or battery-toting locomotive(s) may be implemented. In one embodiment, a battery-toting locomotive is directly coupled with and positioned between two diesel-electric locomotives, wherein the batteries recover energy from regenerative braking and/or supply power to drive traction motors.
대표청구항▼
1. A battery-powered, all-electric locomotive comprising: a locomotive platform carrying no internal combustion engine on board;a battery assembly including one or more strings of batteries;a plurality of traction motors powered exclusively by the battery assembly to drive the locomotive platform, t
1. A battery-powered, all-electric locomotive comprising: a locomotive platform carrying no internal combustion engine on board;a battery assembly including one or more strings of batteries;a plurality of traction motors powered exclusively by the battery assembly to drive the locomotive platform, the plurality of traction motors receiving no power supplied from any power source external to the locomotive during operation;a DC bus coupling the battery assembly to the plurality of traction motors;a battery management system that monitors and equalizes the batteries to maintain a desired state of charge (SOC) and depth of discharge (DOD) for each battery; anda motor control circuitry in cooperation with the battery management system to draw currents, within throttle-dependent limits, from the battery assembly to drive the plurality of traction motors, the motor control circuitry being configured to limit a traction motor armature current to the least of: (a) a target armature current value based on a desired throttle position; (b) an amount needed to maintain a total current of the one or more strings based on the desired throttle position; and (c) a temporarily reduced amount needed to limit a rate of current increase when the throttle position is advanced. 2. The locomotive according to claim 1, wherein at least a portion of the batteries in the battery assembly are rechargeable batteries. 3. The locomotive according to claim 2, further comprising: a recharging interface for coupling the battery assembly to a charging station to recharge the rechargeable batteries while they are installed on the locomotive platform. 4. The locomotive according to claim 1, wherein at least a portion of the batteries in the battery assembly are removably installed on the locomotive platform, and wherein the locomotive is re-fueled by swapping at least some of the removably installed batteries with fresh batteries. 5. The locomotive according to claim 1, further comprising: a brake system configured to prioritize a regenerative braking mechanism over an air braking mechanism, the regenerative braking mechanism recovering brake energy to recharge the battery assembly. 6. The locomotive according to claim 5, wherein the motor control circuitry comprises a chopper circuit module in cooperation with the regenerative braking mechanism to return current to the battery assembly. 7. The locomotive according to claim 1, wherein each of the one or more strings comprises the same number of identical batteries, and wherein each of the one or more strings is connected to the DC bus in parallel. 8. The locomotive according to claim 1, wherein batteries in each of the one or more strings are equalized with one another within that string. 9. The locomotive according to claim 1, wherein at least one battery within each of the one or more strings is designated and used as a holding tank or buffer during battery equalization. 10. The locomotive according to claim 1, further comprising: at least one bi-directional DC-DC converter within each of the one or more strings to equalize batteries in that string. 11. The locomotive according to claim 1, wherein the battery management system further comprises one or more temperature sensors to monitor temperatures of the one or more strings of batteries. 12. The locomotive according to claim 1, wherein the battery management system further commands cooling or air-circulation equipment to equalize temperatures of the one or more strings of batteries and/or within each of the one or more strings. 13. The locomotive according to claim 1, wherein the motor control circuitry comprises one chopper circuit module for controlling armature current of each of the plurality of traction motors. 14. The locomotive according to claim 1, wherein each battery in the battery assembly is a lead-acid battery. 15. The locomotive according to claim 14, wherein the battery management system limits a depth of discharge of each lead-acid battery at or below approximately 35%. 16. The locomotive according to claim 14, wherein each of the one or more strings comprises fifty-four serially-connected 12-volt lead-acid batteries. 17. The locomotive according to claim 16, wherein the battery assembly comprises twenty parallel strings. 18. The locomotive according to claim 1, wherein the motor control circuitry comprises one chopper circuit module for controlling a current in serially-connected field windings of the plurality of traction motors. 19. The locomotive according to claim 1, wherein the battery assembly comprises batteries selected from a group consisting of: lead-acid batteries, zinc-bromine batteries, nickel-zinc batteries, nickel metal hydride (NiMH) batteries, lithium-ion (Li-ion) batteries, lithium polymer (Li-poly) batteries, and lithium sulfur (Li—S) batteries. 20. A battery-powered, all-electric locomotive comprising: a first locomotive platform carrying no internal combustion engine on board;a first battery assembly, carried on the first locomotive platform, including one or more strings of batteries;a second locomotive platform, in tandem with the first locomotive platform, carrying no internal combustion engine on board;a second battery assembly, carried on the second locomotive platform, including one or more strings of batteries;a plurality of traction motors powered exclusively by the first and/or the second battery assemblies to drive the first and the second locomotive platforms, the plurality of traction motors receiving no power supplied from any power source external to the locomotive during operation;a DC bus coupling the first and the second battery assemblies to the plurality of traction motors;a battery management system that monitors and equalizes the batteries to maintain a desired state of charge (SOC) and depth of discharge (DOD) for each battery; anda motor control circuitry in cooperation with the battery management system to draw currents, within throttle-dependent limits, from the first and/or the second battery assemblies to drive the plurality of traction motors, the motor control circuitry being configured to limit a traction motor armature current to the least of: (a) a target armature current value based on a desired throttle position; (b) an amount needed to maintain a total current of the one or more strings based on the desired throttle position; and (c) a temporarily reduced amount needed to limit a rate of current increase when the throttle position is advanced. 21. A train comprising: two or more battery-powered, all-electric locomotives coordinated with one another to drive the train, each of the two or more battery-powered, all-electric locomotives comprising: a locomotive platform carrying no internal combustion engine on board;a battery assembly including one or more strings of batteries;a plurality of traction motors powered exclusively by the battery assemblies of the two or more locomotives to drive the locomotive platform, the plurality of traction motors receiving no power supplied from any power source external to the train during operation;a DC bus coupling the battery assembly to the plurality of traction motors;a battery management system that monitors and equalizes the batteries to maintain a desired state of charge (SOC) and depth of discharge (DOD) for each battery; anda motor control circuitry in cooperation with the battery management system to draw currents, within throttle-dependent limits, from the battery assembly to drive the plurality of traction motors, the motor control circuitry being configured to limit a traction motor armature current to the least of: (a) a target armature current value based on a desired throttle position; (b) an amount needed to maintain a total current of the one or more strings based on the desired throttle position; and (c) a temporarily reduced amount needed to limit a rate of current increase when the throttle position is advanced. 22. A train comprising: at least one diesel-electric locomotive, each of the at least one diesel-electric locomotive comprising: one or more diesel engines driving an electric generator, anda first plurality of traction motors powered by the one or more diesel engines through the electric generator;at least one all-electric locomotive coupled with the at least one diesel-electric locomotive, each of the at least one all-electric locomotive comprising: a locomotive platform carrying no internal combustion engine on board,a battery assembly including one or more strings of batteries,a second plurality of traction motors powered exclusively by the battery assembly to drive the locomotive platform, the second plurality of traction motors receiving no power supplied from any power source extemal to the train during operation,a DC bus coupling the battery assembly to the second plurality of traction motors, anda battery management system that monitors and equalizes the batteries to maintain a desired state of charge (SOC) and depth of discharge (DOD) for each battery,a motor control circuitry in cooperation with the battery management system to draw currents from the battery assembly to drive the first and/or the second plurality of traction motors, the motor control circuitry being configured to limit a traction motor armature current to the least of: (a) a target armature current value based on a desired throttle position; (b) an amount needed to maintain a total current of the one or more strings based on the desired throttle position; and (c) a temporarily reduced amount needed to limit a rate of current increase when the throttle position is advanced; anda brake system having a regenerative braking mechanism to recover brake energy from the first and/or the second plurality of traction motors to recharge the battery assembly. 23. The train according to claim 22, wherein the DC bus couples the at least one all-electric locomotive with the at least one diesel-electric locomotive. 24. The train according to claim 22, wherein: the at least one all-electric locomotive consists of a single all-electric locomotive;the at least one diesel-electric locomotive consists of a first diesel-electric locomotive and a second diesel-electric locomotive; andthe single all-electric locomotive is directly coupled with and positioned between the first diesel-electric locomotive and the second diesel-electric locomotive.
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