Flying Scotsman
===============

Introduction
------------
The Flying Scotsman, running between Kings Cross and Edinburgh, has
been one of the prime Anglo-Scottish expresses since its inauguration
in 1862.

In this simulation you are given the opportunity of driving the train
in relatively modern times around 1978-9 when Inter-City 125 (High
Speed Train) sets were beginning to replace coaching stock hauled by
Deltic (Class 55) and Brush (Class 47) locomotives on the principal
Each Coast mainline (EOML) services.

The train is scheduled non-stop to Newcastle, but it is assumed that
you are rostered to drive for only the first part of the run to
Doncaster before handing over the controls to your co-driver for the
remainder of the journey northwards.

Driving a modern diesel locomotive may not have the nostalgic glamour
which some may associate with say storming up Stoke Bank with a Gresley
Pacific, but you will nevertheless find it quite a challenge to cope
with signal checks and speed restrictions and yet keep your train running
to time.



Display Format
--------------
The simulation is presented as a two part display on the screen: the
upper section giving information a driver would have from visual
observation and his background knowledge of the route, and the lower
section being a monitor of the locomotive controls and performance.



The Route
---------
The ECML to Doncaster climbs out of the London suburbs over a series
of gravel ridges to the Hertfordshire new town of Stevenage, with the
major challenges to locomotives being the steep incline through the
tunnels out of Kings Cross and an eight mile stretch of near-continuous
1 in 200 gradient between Wood Green and Potters Bar. The line then
drops through gently-rolling countryside to Stilton Fen and the city
before a descent through the Vale of Trent and the market towns of
Grantham, Newark and Betford to the beginnings of the South Yorkshire
coalfield north of Bawtry.

The gradient profile of the route is shown in the Appendix, together
with speed limits for the fast line on which it is assumed you will
run throughout. Additional restrictions are in force due to maintenance
work on the track near Huntingdon and Retford, and you will be given
details of these at the start of the simulation. Warnings of reductions
in the permitted line speed will be given during the run, 1.5 miles in
advance of the permanent way slacks and the major restriction to 60mph
approaching Doncaster, and 1.0 miles before all other reductions.



Schedules
---------
Two schedules are available in the simulation: one designed for HST
power and the other for a locomotive hauled formation of 11 coaches
weighing 385 tons. Details of the passing times of the principal
locations and of the recovery allowances built into the schedules are
given in the Appendix, and during the run you will be given reports on
your progress as you reach the various timing points.

Either HST, Deltic or Class 47 power may be selected for your chosen
schedule. If a Deltic or Class 47 is specified for the locomotive
hauled schedule the train will comprise the planned eleven coaches, but
if these classes are chosen to run on the HST schedule it will be
assumed that the train is a substitute for a failed HST set and a
lower capacity eight coach formation will be provided for the journey.
HSTs will of course have plenty in hand if selected for the locomotive
hauled schedule, and Class 47s (which is practice only worked the
Scotsman when the rostered HST or Deltic was unavailable) will struggle
to keep time on even the locomotive hauled schedule, never mind the
more demanding HST schedule.



Motive Power And Coaching Stock
-------------------------------
The main characteristics of the three types of motive power available
in the simulation given below:


					Deltic			Class 47		HST

BR Designation				55			47/4			254
Numbers available in simulation		55001-22		47401-24		254001-32*
Builder					English Electric	Brush			BREL
Introduced				1961			1962			1977
Axle type				Co-Co			Co-Co			Bo-Bo
Engines					Napier Deltic		Sulzer			Paxman Valenta
Horsepower				3,300			2,580			4,500+
Maximum Speed (mph)			100			95			125
Length					69' 6"			63' 7"			58' 5"
Height					12' 10"			12' 9.5"		12' 9"
Width					8' 9.5"			9' 2"			8' 11"
Weight (tons)				100			121			70

* For details of power bars allocated to individual sets see Modern Railways
Pictorial Profile: 1 High Speed Trains, Publ. Ian Allan (1983)

+ From two power cars

The class 254 HST sets are the standard East Coast formations with 
eight essentially Mk III coaches. The stock for the locomotive hauled
trains is late-type Mk II air-conditioned coaches. Appropriate
resistance curves for near still air are assumed, with an ETH/air
conditioning load of 24 kW per coach.



Locomotive Controls
-------------------
For simplicity all locomotives in the simulation have been given a
standardised controller with five power settings (1-5) rather than the
differing notch systems of the originals. The controller setting is
ncreased by pressing the > key and decreased by pressing the < key,
and you will find the controller initially in the off position (0)
with the engines idling and the drive disconnected.

The brakes have a similar range of 0 (off) to 5 (full on) and are
applied and released by the X and Z keys respectively. Position 5
should be used in emergencies only, the maximum application in normal
service being position 4.

The two other controls are the Space Bar which is used to cancel the
AWS hoot and over-ride the associated automatic brake application
(see Section on Signalling And Braking), and the Shift key which sounds the locomotive horn
(a short press giving a starting acknowledgement and a longer press
giving a two tone warning).



Driving Technique
-----------------
The tractive characteristics of the different locomotive classes are
realistically reproduced in the simulation and as such it is necessary
to become familiar with the individual handling responses.

Deltics had their engines optimised for high speed runing and were
notoriously poor (as well as at times messy) starters. Gentle handling
is needed to avoid overloading the generator, which in this simulation
drops out a contactor and returns the controller to the idling setting.
As a consequence power should gradually be increased from notch 1
on start up to full power (notch 5) between 18 and 20mph. A warning of
high generator current (which corresponds to between 2000 and 2400 amps) means
that the controller should not be notched up further at that speed, and
the current should only be kept in this range for short period at a 
time. Generator field diversion occurs at appropriate load values,
which on full power acceleration correspond to speeds of about 51 and
77 mph: brief notification is given but no action is required.

The maximum speed limit of the Deltics of 100mph was closely adhered 
to for most of their lifetime, but around the time of this simulation,
when much of the line was approved for faster running and schedules
were based on the full power capacity of the locomotives, it was not
unknown to experience excesses of 5-10mph. An overspeed trip is
however fitted in the simulation to avoid major engine damage.

Class 47 locomotives are less powerful than Deltics but at low speeds
have more tractive effort and are quicker to attain their full rated
horsepower. They should again be started gently, with full (notch 5)
coontroller not selected until 12-14mph. Warning of high generator
current is given when the ammeter is in the range 3000-3750amps (c.f.
the continuous rating of 2130 amps), but as with Deltics such currents
should only be sustained for short periods and any further notcing up
of the controller will activate the generator overload trip. There are
three stages of field diversion, and these occur at speeds of about 35,
45 and 60mph on full power acceleration. At speeds greater than 77mph
there is a marked unloading of the generator, and this severely restricts
the performance at high speeds and makes it difficult to exceed the
nominal maximum speed of 95mph except on sustained downgrades.

HSTs have altenators rather than generators to provide current for the
traction motors, and there is a sophisticated control system to co-
ordinate the output of the two power cars. The full engine power
is not available until above 30mph, and if too high a controller
setting is selected at lower speeds an automatic current limiting
system will come into operation. There is no field diversion, and it is
an electronic trip fitted to all ECML units which limits the maximum 
speed to 3mph above the nominal value of 125mph.

On all types there is automatic compensation for wheelslip, but excessive
or prolonged wheelslip should be avoided by notching down the controller
appropriately. Notification of wheelslip and other locomotive events is
normal. Major failures are possible from time to time and if you
experience an engine shutdown whilst driving an HST or Deltic you
should continue on the reduced power of the remaining engine, although
naturally you will have a struggle to keep to schedule.



Signalling And Braking
----------------------
The ECML has multiple aspect colour-light signalling, so that a
sequence of at least a double-yellow and a yellow signal will precede
a signal at red. The distance from passing a signal at double-yellow
to the signal at danger is generally only 2,200-2,400 yards, and as
shown by the following data you will need to brake hard for much of
this distance to bring your train to rest from high speed.



Speed			125mph		100mph		70mph		30mph	
Loco-hauled train	-		1933		931		140
High Speed Train	1931		1244		602		97

Specimen braking distances (in yards) on level track for a full application
of the service brake

An application of the emergency brake will shorten these distances 
by about 20%, whilst on a 1:200 downgrade stopping distances are
increased by about 10%.

If a signal is at red you should bring your train to a halt within
35 yards of the signal in order to obtain telephone instructions
from control about the situation.

As you approach a signal at caution or danger you will receive both
a visual AWS (Automatic Warning System) indication on the instrument
panel and an audible alarm. The latter must be cancelled within six
seconds by pressing the Space bar or else, as on the original, there
will be an automatic application of the emergency brake.



Getting Started
---------------
*TAPE (RETURN)
PAGE=&E00 (RETURN)
CHAIN"" (RETURN)

The required input parameters are:

Schedule		: L or H for loco-hauled or High Speed Train
			  schedule respectively.

Loco Number		: Type a number in the range 55001-55022 for
			  a Deltic, 47401-47424 for a Class 47 and
			  254001-254032 for a High Speed Train set.
			  If a Deltic or Class 47 locomotive is selected
			  with L you will be given an 11 coach train; if
			  they are selected with H you will be given an 8
			  coach train.

Details of your train, locomotive condition and speed restrictions will
be given as Roster Board information, and the computer will make its
random selection of signal checks and other out of course events for
your run.

The simulation begins two minutes before the scheduled departure time
of 10.00 with the train (with official reporting number 1S20) standing
in Platform 8 of Kings Cross station with engines idling. Wait for the
starting signal to be set and the guard's clearance (which may of course
be delayed if there are late passengers or loading is not complete) and
then away you go.

If you want a break during the run, the simulation can be suspended by
pressing the H key (for Hold) with action restarted by pressing the
R key. Otherwise good driving on your journey North.

A reminder of the Line Manager's Standing Instruction:

When trains are running late, drivers must endeavour to make up
time with due regard to all speed restrictions and the braking
capability of the train.



[]

Appendix 1. Route Information


1S20	10:00	Kings Cross - Edinburgh

Distance		Location			Schedules Time
(miles)						HST		LH (D385+)

0.0		Kings Cross		Dep	10:00		10:00

12.7		Potters Bar		Pass	10:11:30	10:14

20.3		Welwyn G.C.		Pass	10:16		10:19

31.9		Hitchin			Pass	10:22		10:26:30

58.9		Huntingdon		Pass	10:36		10:43


(Recovery Time +4 min)

76.4		Peterborough		Pass 	10:49:30	10:58

100.0		Stoke Summit		Pass	11:01:30	11:14

105.5		Grantham		Pass	11:05:30	11:17:30

120.1		Newark			Pass	11:13		11:26:30

138.6		Retford			Pass	11:24		11:39:30


(Recovery Time +4 min)

156.0		Doncaster		Pass	11:38:30	11:56:30



Bibliography
------------
Diesel Enthusiast's Pocket Guide (Vol 1 Eastern Region South:
Vol 2 Yorkshire & Lincolnshire)
M. Oakley		Publ. Bradford Barton		ISBN 0 85153 402 3/403 1

Series of articles on East Cost re-signalling in 'Modern Railways'
(Apl 78, Jly83, Aug 83)
G.M. Kitchenside	Publ. Ian Allan			ISBN 0026 8356

British Rail Main Line Gradient Profile
			Publ. Ian Allan			ISBN 0 7110 0875 2

The Deltics. A Symposium
C.J. allen at al.	Publ. Ian Allan			ISBN 0 7110 0799 3

Class 47 diesels
A.T.H. Tayler et al.	Publ. Ian Allan			ISBN 0 7110 0915 5

BR 125 High Speed Trains
R. Riller and M. Oakley	Publ. Bradford Barton		ISBN 0 85153 387 6