Gyro bus
15,860 views
14 slides
May 14, 2014
Slide 1 of 14
1
2
3
4
5
6
7
8
9
10
11
12
13
14
About This Presentation
Gyro Bus: Bus Charged from electricity and run by the stored enery of Flywheel.
We can replace the flywheel with Capacitors and this become Capa Bus.
Slide Content
Gyrobus Name: Umesh Kumar Meher Regd. No. : 1001110211 Branch : MECHANICAL ENGG.
A Gyrobus is an electric bus that uses flywheel energy storage , not overhead wires like a trolleybus. The name comes from the Greek language term for flywheel, gyros .
The concept of a flywheel-powered bus was developed and brought to originality during the 1940s by Oerlikon (of Switzerland), with the intention of creating an alternative to battery-electric buses for quieter, where full overhead-wire electrification could not be justified. History
Rather than carrying an internal combustion engine or batteries, or connecting to overhead power lines, a gyrobus carries a large flywheel that is spun at up to 3,000 RPM by a "squirrel cage" motor/generator. Working Principle
The flywheel was positioned in the centre of the chassis between the axles. This disc weighing 1.5t and with a diameter of 1.6m was enclosed in an airtight chamber filled with hydrogen gas at a reduced pressure of 0.7 bar to lower "air" resistance. The flywheel would spin at a maximum of 3000rpm. Flywheel
Flywheel
Power for charging the flywheel was sourced by means of three contact blades mounted on the vehicle's roof, which contacted charging points located as required or where appropriate (at passenger stops en route, or at terminals, for instance). Contact Blades
Charging a flywheel took between 30 seconds and 3 minutes; in an effort to reduce the charge time, the supply voltage was increased from 380 volts to 500 volts. Given the relatively restricted range between charges, it is likely that several charging stops would have been required on longer routes, or in dense urban traffic.
To obtain tractive power, capacitors would excite the flywheel's charging motor (Electric motor generator) so that it became a generator, in this way transforming the energy stored in the flywheel back into electricity.
In normal operation the flywheel could slow down from its initial 3000 rpm to 2100 rpm. In emergencies the speed could further be reduced to 1500 rpm, but this would negatively affect the performance of the vehicle. Below this speed a proper functioning of the transmission could no longer be guaranteed. Under normal conditions, the Gyrobus could cover 5 to 6km between charges (taking stops and traffic into account). A charge would then take two to five minutes. In idle mode, the flywheel could continue spinning for more than ten hours. A recharge from standstill could take 22 minutes.
Advantages Quiet Pollution-free Runs without rails Can operate flexibly at varying distances
Disadvantages Weight: a bus which can carry 20 persons and has a range of 5 km (3.1 mi) requires a flywheel weighing 3 tone . The flywheel, which turns at 3000 revolutions per minute, requires special attachment and security—because the external speed of the disk is 900 km/h (560 mph). Driving a gyrobus has the added complexity that the flywheel acts as a gyroscope that will resist changes in orientation, for example when a bus tilts while making a turn, assuming that the flywheel has a horizontal rotation axis.
Conclusion One of the main obstacles facing the Gyrobus was its inability to gain a firm market presence and so cut down manufacturing costs through economy of scale. In today's environment, many of the factors that disadvantaged the Gyrobus have changed . Fuel prices are rising and concerns over pollution and smog have led to experiments with such inefficient and dangerous storage technologies as hydrogen cells (which appear to be more in political favour than technologically sound). Would a simpler, safer and more comfortable alternative not do the same in a friendlier manner? Modern power electronics would help reduce power consumption whilst also enabling faster charging. Modern materials could help reduce the overall weight of the bus while retaining the required robustness. Maybe the Gyrobus is far from dead.
Thank You
Categories
GeneralDownload
Download Slideshow Get the original presentation fileQuick Actions
Statistics
- Views 15,860
- Slides 14
- Favorites 16
- Age 4221 days
Related Slideshows
22
Pray For The Peace Of Jerusalem and You Will Prosper
RodolfoMoralesMarcuc
32 views
26
Don_t_Waste_Your_Life_God.....powerpoint
chalobrido8
33 views
31
VILLASUR_FACTORS_TO_CONSIDER_IN_PLATING_SALAD_10-13.pdf
JaiJai148317
31 views
14
Fertility awareness methods for women in the society
Isaiah47
30 views
35
Chapter 5 Arithmetic Functions Computer Organisation and Architecture
RitikSharma297999
27 views
5
syakira bhasa inggris (1) (1).pptx.......
ourcommunity56
29 views