down anywhere after using them? He is told there is a place for everything in that engine. Is he dirty about his work? He is shown how to handle the shovel, oil feeder and everything else without blackening himself to such a degree that a boy in the street mistakes him for a chimney sweep. Thanks to such engineers, who deserve much praise for keeping their firemen in proper training, for, just as they are trained so will they turn out engineers, good or bad."

CHAPTER V.

HOW TO RUN A TRAIN.

A good engineer works his engine with direct reference to the number of cars he has to pull.

It would seem as though any fool might know this, yet instances are on record where careless engineers have actually pulled out of a station without their trains, and never discovered that they were missing until they had occasion to whistle for brakes.

Starting.

In starting the regulator should be opened gently, especially with a full boiler.

Care is necessary when starting to keep the cylinders and valves clear of water. Half a pint of water will wash the faces of the cylinders and valves. Slip or no slip, it is better to use a little sand than to incur the risk of slipping when the rails are inclined to be slippery.

When the engine begins to feel its load the regulator can be opened more. A few clear, sonorous puffs at the start do good; they rouse the fire into action at once—there is no hesitation in the matter. They also clear the tubes of loose cinders and soot left in them after being swept out.

When you are well under way pull the lever up a notch or two at a time until you get it just where you want it. Don't jerk it too far, then let it out too much and have to pull it back. Feel your way as you go, and time and trouble will be saved.

Nothing looks so bad as to see an engineer suddenly close the regulator, pull the lever very nearly out of gear and "smack" the steam on again. The force with which the steam may strike the piston under such circumstances is very great and often may do damage.

To an attentive engineer the start is full of interest; for, although he may have made a careful and thorough examination of his engine before joining his train, he cannot feel satisfied that all is right until the full pressure of the steam is on the piston and the engine feels its load.

Steam Blowing.

Now the engineer must begin to use his ears and eyes.

As the train moves on he listens.

Is the steam blowing?

It is.

Which side?

This is the way to find out.

Suppose a blow is heard at each turn and only when the outside crank is nearly in a straight line with the piston rod looking from the left-hand side of the foot-plate and with the outside cranks on the same center line and on the same side of the axle as the inside crank.

Then it would be discovered that a piston is blowing because the sound is intermittent, for the blowing through of a valve would be a continuous leaking.

Further it would be certain that the defect was not in the left hand cylinder, there being no steam in it when the cranks were in the position above described, and therefore we must look to the right hand cylinder where the full pressure of steam must be on the piston.

Beats of the Engine.

There are four beats for one revolution of the driving wheel or the crank axle.

These beats tell you in emphatic language whether the engine is running right, or whether there is something out of gear.

Learn what they mean and never let your attention be drawn from them.

If the beats weaken—any one of them—it means trouble. Taken in time the difficulty may be easily remedied, allowed to pass unnoticed, death and disaster may result.

Keeping up Steam.

It is scarcely necessary to state that to properly run your engine steam must be kept up.

When the engine has got the train up to speed, steam should begin to issue from the safety valves. When it does not do so there has not been a full boiler, as there always should be at the start and the fireman must be made to understand how to make a starting fire in proper shape.

On short runs this does not matter so much, but on express trains it is of the highest importance.

On long runs if the engine is not instantly up to the mark at the start, and if the feeds must be held off to allow the fire and the engine a chance of recovery, the consequences are that the water in the boiler gets lower and less, and the uncertainty of ever getting the water up again becomes greater every minute, especially with a heavy train and against a strong side wind.

Management of Fires.

Of course the state of the steam depends altogether upon the way the fires are managed, but for us to give directions how to manage a locomotive fire-box to the best advantage would require pages of description which could scarcely be understood unless one had had previous practical experience.

Remember one thing, the engineer is responsible for the fire, even if he does not make it. He must therefore know when a fire is good and when it is bad, why and what to do.

We shall, however, describe two styles of fire, the thoroughly bad and the thoroughly good. All intermediate grades every man must learn for himself.

How To Build a Bad Fire.

Pile your coal up in the shape of a cone, by shoveling all the coal into the middle of the fire box, and putting as little on the sides as you possibly can.

Such a fire possesses the following characteristics: Uncertainty as regards steam making, positive certainty as regards the destruction of fire boxes and tubes. It generally draws air at the walls of the fire-box, and in consequence, the fire-irons are always in the fire, knocking it about and wasting the fuel.

As such fires are found in the center of the grate, they weigh down the bars and burn them out in the middle in short order. Lastly, the cold air being admitted into the fire-box up the sides instead of in the middle, comes in direct contact with the heated plates and stays, doing them a great deal of damage by causing contraction and expansion.

Take the best engine ever built and let an engineer run it awhile with these "haycock" fires, as they are called—and many do it—you will be sure to find the boiler subject to sudden leakage, either in the joints of the plates or in the stays, the tubes, or the foundation ring. Such engines are always in the repair shop, and because of bad firing and nothing else.

How to Build a Good Fire.

The good locomotive fire should maintain steam under all circumstances of load or weather, should consume its own smoke, should burn up every particle of good matter in the coal, or, in other words, capable of being worked to the highest point of economy.

Such a fire requires to be made at the beginning, and maintained in a form almost resembling the inside of a saucer, shallow and concave, with its thinnest part in the center.

A fire like this will make steam when other fires will make none.

It is the only style of fire that should be permitted by a good engineer.

Firing.

To fire properly the fireman should stand in such a position as to be able to reach the coals in the tender easily, and to work the shovel without shifting his feet, except when he turns