Wheel slide protection and wheel slip protection are railway terms used to describe automatic systems used to detect and prevent wheel-slide during braking or wheel-slip during acceleration. This is analogous to
ABS and
traction control system
A traction control system (TCS), also known as ASR (from german: Antriebsschlupfregelung, lit=drive slippage regulation), is typically (but not necessarily) a secondary function of the electronic stability control (ESC) on production motor vehicle ...
s used on motor vehicles. It is particularly important in
slippery rail
Slippery rail, or low railhead adhesion, is a condition of railways (railroads) where contamination of the railhead reduces the traction between the wheel and the rail. This can lead to wheelslip when the train is taking power, and wheelslide ...
conditions.
Sanding
Sanding is one method of reducing wheel slip or slide.
Locomotive
A locomotive or engine is a rail transport vehicle that provides the Power (physics), motive power for a train. If a locomotive is capable of carrying a payload, it is usually rather referred to as a multiple unit, Motor coach (rail), motor ...
s and
Multiple units
A multiple-unit train or simply multiple unit (MU) is a self-propelled train composed of one or more carriages joined together, which when coupled to another multiple unit can be controlled by a single driver, with multiple-unit train contro ...
have
sandboxes which can deliver dry
sand
Sand is a granular material composed of finely divided mineral particles. Sand has various compositions but is defined by its grain size. Sand grains are smaller than gravel and coarser than silt. Sand can also refer to a textural class of s ...
to the rails in front of the wheels. This may be initiated automatically when the Wheel Slide Protection system senses loss of adhesion, or the driver can operate it manually. Sanding may be connected to a computer system that determines the train's direction and where the sand should be applied: either forward or aft of the trucks. In older locomotives there was a manual lever attached to a valve that had three positions: Off, Forward, and Aft.
Automatic control systems
Wheel Slide Protection (WSP) equipment is generally fitted to passenger trains to manage the behavior of wheel sets in “low adhesion” (reduced wheel/rail friction) conditions. It is used when braking and may be considered analogous to
anti-lock braking
An anti-lock braking system (ABS) is a safety anti-skid braking system used on aircraft and on land vehicles, such as cars, motorcycles, trucks, and buses. ABS operates by preventing the wheels from locking up during braking, thereby maintainin ...
(ABS) for cars. The system can also be used to control (or provide an input to) the traction system to control wheel spin when applying power in low adhesion conditions.
“Low adhesion” at the rail potentially causes damage to wheels and the rails. Typically, low adhesion conditions are associated with environmental causes arising from seasonal leaf fall, or industrial pollution. Occasionally the cause can be another less obvious factor such as light oxidation of the railhead or even swarms of insects.
Wheel slide whilst braking
When a train is braking, the low adhesion manifests as wheel slip where the wheelset is rotating at a lower velocity (speed) than the forward speed of the train. The most extreme example of this is where the wheel stops rotating altogether (wheel slide) while the train is still moving and can result in a “wheel flat” caused by the softer wheel steel being abraded away by the harder rail steel.
However, the wheelset does not need to lock up completely in order for damage to be caused. If the slide is significant, heat can build up in the contact patch between wheel and rail sufficiently to permanently modify the crystalline structure of the wheel's steel. The steel becomes more brittle (
martensite
Martensite is a very hard form of steel crystalline structure. It is named after German metallurgist Adolf Martens. By analogy the term can also refer to any crystal structure that is formed by diffusionless transformation.
Properties
M ...
) which leads to cavities forming in the wheel. Wheel flats on railway vehicles are very evident by their characteristic “bang-bang” in time with the speed of the train. It is normally necessary to use a wheel lathe to remove a layer of wheel tread caused by a severe flat or cavity, which reduces the life of the wheel and is a major operating cost to the rail industry.
Wheel slip whilst taking power
In traction, low adhesion may cause a wheelset to accelerate more quickly than the train (wheel spin) to the point where it can damage the traction system or result in damage to the wheel and rail (rail burn).
Controlled wheel slip
WSP is generally fitted as standard to new fleets of multiple units. The primary function of the WSP is to improve the ability of a train to stop in poor adhesion conditions. However, within the rail industry it is also recognised to be valuable in protecting the wheels from damage during sliding when braking or spinning in traction. This improvement is achieved by regulation of the wheelset velocity in a controlled manner so that it maintains a relatively consistent level of slip. The controlled slip has the effect of conditioning the contamination layer on the rail (scrubbing action) thereby improving the level of friction and enhancing the ability of the train to stop. Controlled wheel slip can also have a limited cleaning action on the rail head along the length of a train. This tends to result in the vehicles at the rear having more grip than those at the front.
Driving technique
WSP continuously monitors the rotational speed of each axle on the locomotive or multiple unit, and intervenes whenever it detects a significant difference on any axle.
If wheelslip occurs whilst the power controller is open, WSP will shut off power to the affected traction motor(s). Despite this, most railway companies advise their drivers to close the power controller
and allow the slipping wheels to stabilize before re-opening the controller on a low setting because control of the train can be achieved more quickly.
However, when wheelslide occurs and the WSP releases the brakes on affected axles, drivers are instructed to leave the brake handle alone
and let the WSP control the train's braking. This is because the driver is sitting over the leading bogie of the train where wheelslide is usually most severe.
This wheelslide will partially clean the railhead and so further down the train the wheels will achieve better adhesion, and thus braking effect.
'Low adhesion' training
Driving a train under low adhesion conditions takes experience. Failing to recognize and respond correctly to railhead contamination or environmental conditions which cause low adhesion can lead to safety incidents such as a
Signal passed at danger
A signal passed at danger (SPAD), known in the United States as a stop signal overrun and in Canada as passing a stop signal, is an event on a railway where a train passes a stop signal without authority. In the United States and Canada, this ...
, collision or station overrun.
Prior to each leaf-fall season, many train companies arrange low adhesion training
for their newly qualified drivers. This consists of taking over a section of line during a quiet period. Using lineside markers each driver gets his train up to speed and then makes a Full Service brake under normal adhesion conditions. The railhead is then treated with a contaminant that has a low
coefficient of friction
Friction is the force resisting the relative motion of solid surfaces, fluid layers, and material elements sliding against each other. There are several types of friction:
*Dry friction is a force that opposes the relative lateral motion of t ...
. On the second run the driver will experience the sound and sensation of the WSP activating and operating blowdown valves on the brake cylinders, and the stopping distance will be considerably greater.
Although this only provides an approximation of how a train will behave during low adhesion, it does ensure that the driver can recognize the onset of wheelslide and will know the correct actions to take when it occurs.
Microprocessor control
Modern WSP systems are microprocessor controlled and employ two stage valves that permit fine control over the air pressure in the brake cylinders. This is essential to be able to capture and control a sliding wheel and to minimise the amount of air resource used by the WSP. When the brake is applied, the WSP first applies the dynamic brake. If that is not successful it then “blends” the friction and dynamic braking systems.
If control is still not established the system reverts to friction braking only where blowdown valves
rapidly cycle the air in the brake cylinders . Examples of this kind of equipment are manufactured by
Knorr Bremse (EP compact, EP2002) Faiveley Transport (EPAC) and POLI Wabtec (ATHENA).
Manufacturers
Manufacturers of WSP equipment include
Faiveley Transport
Faiveley Transport (), formerly Faiveley, is an international manufacturer and supplier of equipment for the railway industry founded in 1919. It introduced the single-arm pantograph in 1955. The company has subsidiaries in more than 24 countr ...
, Knorr-Bremse,
Wabtec
Wabtec Corporation (derived from Westinghouse Air Brake Technologies Corporation) is an American company formed by the merger of the Westinghouse Air Brake Company (WABCO) and MotivePower Industries Corporation in 1999. It is headquartered ...
, DAKO, KES & Co GmbH, Mitsubishi, Siemens, Selectron Systems AG and ABB.
Testing
Demonstrating the improvement provided by a WSP system is very difficult as the naturally occurring low adhesion condition occurring at the rail can be difficult to re-create in a test track environment.
Track testing
For track testing, a detergent based solution has historically been used to provide low adhesion test conditions. European and international standards often refer to this test method (
BS-EN 15595,
UIC 541-05). In the UK, British Rail Research adopted two approaches including a laboratory simulation method to all WSP approvals from around 1992, and track testing using carefully conditioned paper tape adhered to the railhead. The paper tape method used in the UK is believed to offer a realistic representation of the challenging very low adhesion conditions encountered during the autumn leaf fall. With an increase in the privatisation of railways in Europe, track testing has become very expensive to organise and to conduct. As a consequence, simulation based testing is rapidly becoming more popular with WSP manufacturers and national bodies.
Simulation testing
Simulation testing employs a computer representation of the train and the track conditions, and signals are provided to the WSP system that effectively deceive it into thinking it is fitted to an actual train. Most of the WSP manufacturers have some simulation capability and there are also facilities available from national bodies or independent testing facilities such as
Deutsche Bahn
The (; abbreviated as DB or DB AG) is the national railway company of Germany. Headquartered in the Bahntower in Berlin, it is a joint-stock company ( AG). The Federal Republic of Germany is its single shareholder.
describes itself as the se ...
(DB Germany),
Ferrovie dello Stato
Ferrovie dello Stato Italiane S.p.A. ( "Italian Railways of the State"; previously only Ferrovie dello Stato, hence the abbreviation FS) is Italy's national state-owned railway holding company that manages transport, infrastructure, real estat ...
(FS Italy), and
DeltaRail Group
Resonate Group Limited is a British software, technology and services company. It was called DeltaRail Group Limited until renamed and re-branded in September 2016.
The company was formed from Rail business of AEA Technology plc which was acq ...
(formally BR research) (UK and Ireland).
See also
*
Decelostat
Decelostat is a wheel slide protection system developed by Westinghouse Air Brake Company that is used in railroad cars to prevent over-braking that causes wheel-slide, a condition of reduction in friction between train wheels and rails. This low ...
Footnotes
References
* {{cite web , last=Indian Railways , title=Handbook On Wheel Slide Protection Device (WSP) , website=Government of India (Ministry of Railways) , date=August 2011 , type=pdf , url=http://www.rdso.indianrailways.gov.in/works/uploads/File/Handbook%20on%20Wheel%20Slide%20Protection%20Device%20(WSP).pdf
Railway safety
Railway brakes