32. Q. Would it be advisable to put water into a boiler after the sheets had become bare and red hot?
A. No. The fire should be killed at once.
33. Q. What effect has the stoppage of a large number of flues?
A. The heating surface and draft are decreased by just that much area.
34. Q. Why are boiler checks placed so far away from the fire-box?
A. To introduce the water into the boiler at as great a distance from the fire-box as possible. This permits the water to become heated to a high temperature before it comes in contact with the fire-box and also improves circulation.
35. Q. What part of the boiler has the greatest pressure? Why?
A. The bottom, because it is subject to the weight of the water in addition to the steam pressure in the boiler.
36. Q. What are the advantages of the extension front end?
A. To provide room for suitable draft and spark appliances.
37. Q. What is the purpose of a netting in a smoke-box or front end?
A. To act as a crusher of all cinders and prevent large cinders from pa.s.sing out of the front end to the atmosphere.
38. Q. What is the object of hollow staybolts?
A. To indicate when the staybolt is broken by the escape of steam through the small hole in the bolt.
39. Q. What will cause the engine to tear holes in the fire?
A. Working hard or slipping when the dampers are open and the door closed, or too thin a fire.
40. Q. Name the various adjustable appliances in the front end by which the draft may be regulated.
A. The exhaust nozzle, the diaphragm and the draft pipes or petticoat pipe.
41. Q. What object is there in having the exhaust steam go through the stack?
A. To create a draft through the tubes and fire-box.
42. Q. How does this affect the fire?
A. The exhaust steam escaping through the stack tends to empty the smoke-box of gases and produces a partial vacuum there, atmospheric pressure then forces air through the grates and tubes to refill the smoke-box, and in this way the draft through the fire is established and maintained.
43. Q. Explain what adjustments can be made and the effect of each adjustment on the fire.
A. Larger or smaller nozzle tips cause less or greater draft on the fire; raising or lowering the draft pipes and diaphragm causes the engine to burn the fire more at the rear or front end of the fire-box; the size and position of the draft pipes increase the draft through the top or bottom flues; the latter adjustments should always be attempted before reducing the nozzle.
44. Q. What does it indicate when the exhaust issues strongest from one side of the stack?
A. The stack, exhaust pipe or petticoat pipe are out of plumb.
45. Q. What is the effect of leaky steam pipe joints inside the smoke-box?
A. The engine will not steam freely.
46. Q. What causes "pull" on the fire-box door?
A. The partial vacuum in the front end; when excessive it indicates dampers closed, fire clinkered or insufficient opening for the admission of air under the fire.
47. Q. If upon opening the fire-box door you discover there what is commonly called a red fire, what might be the cause?
A. The grates may have become clogged with ashes or clinkers so that sufficient air could not pa.s.s through them to the fire.
48. Q. Is it not a waste of fuel to open the fire-box door to prevent pops from opening? How can this be prevented more economically?
A. Yes. This can usually be prevented by putting the heater into the tank, or putting on the injector, or by more careful firing.
49. Q. Describe the principle upon which the injector works.
A. The action of the injector is due first to the difference between "kinetic" or moving energy and "static" or standing energy; second, to the fact that steam at a pressure travels at a very high velocity and when placed in contact with a stream of water it is condensed into water, and at the same time it imparts enough velocity to the water to give it sufficient momentum to overcome a pressure even greater than the original pressure of the steam. By imparting this velocity to the water it gives it sufficient energy to throw open the check valves and enter the boiler against high pressure.
50. Q. What is the difference between a lifting and a non-lifting injector?
A. A lifting injector will create sufficient vacuum to raise the water from the level of the tank. The steam tubes in a non-lifting injector are different and it will not raise the water, but merely force it into the boiler. A non-lifting injector must be placed below the level of the water in the tank so the water will flow to it by gravity.
51. Q. Will an injector work with a leak between the injector and tank?
Why? Will it prime?
A. A lifting injector will not work if the leak is bad. It will not prime because the air admitted through the leak destroys the vacuum necessary to raise the water to the injector level. A non-lifting injector will work, as the water will escape from the pipe instead of air being drawn into it as with the lifting injector.
52. Q. If it primes well, but breaks when the steam is turned on wide, where would you look for the trouble?
A. Insufficient water supply due to tank valve partly closed, strainer stopped up or tank hose kinked, injector tubes out of line, limed up, or delivery tube cut, or wet steam from the throttle.
53. Q. If it would not prime, where would you expect to find the trouble?
A. Insufficient water supply, priming valve out of order, or with the lifting injector the trouble might be caused by a leak between the injector and tank.
54. Q. Will an injector prime if the boiler check leaks badly or if it is stuck up? If the injector throttle leaks badly?
A. No.
55. Q. If steam or water shows at the overflow pipe when the injector is not working, how can you tell whether it comes from the boiler check or the injector throttle?
A. Close the main steam valve at the boiler, that will stop the leak if it comes from the injector throttle.
56. Q. Will an injector prime if primer valve leaks? Will that prevent its working?
A. It will prime, but not as readily as with priming valve in good condition. This will not prevent its working, but it may waste some water from the overflow.