CH 555 - SURFACE SHIP FIREFIGHTING

Question 1

Fire zone boundaries confine a fire within a zone and provide protected staging areas
for

Answer 1

fire parties

Question 2

The minimum tightness for a fire zone boundary is

Answer 2

fume tight

Question 3

Recent ship designs have fire zone boundaries fitted with a fire insulation on one side that will retard heat transfer
from a fire on the insulated side for a minimum

Answer 3

30 minutes

Question 4

The single-sided fire insulation system does not

Answer 4

retard heat transfer from a fire on the uninsulated side.

Question 5

At repair party leader discretion, manning of fire boundaries may be

Answer 5

reduced where fire insulation is installed on the fire side.

Question 6

What should also be secured to avoid the spread of smoke and fire to surrounding compartments.

Answer 6

Recirculation systems and air conditioning
systems

Question 7

When a naval ship is put in material condition ZEBRA for
battle, most of the ventilating ducts are

Answer 7

closed

Question 8

The firemain system is designed for maximum damage resistance with the following survivability features:

Answer 8

a. Multiple, independent pumps
b. Redundant seawater paths
c. Ability to segregate sections
d. Separation of redundant components
e. Resistance to shock
f. Capability for remote operation

Question 9

This firemain consists of two single mains separated athwartship
as far as practicable, extending fore and aft on the damage control deck.

Answer 9

Horizontal loop system

Question 10

This firemain consists of two single mains installed fore and aft in
an oblique (e.g. angled) plane, separated both vertically and athwartship, connected at the ends to form a loop

Answer 10

vertical offset loop system

Question 11

This firemain consists of two service mains installed on the damage control
deck and separated athwartship, and a bypass main normally installed on a lower level near the centerline

Answer 11

composite system

Question 12

What is installed in the discharge line for each fire pump to prevent back flow through the pump, to prevent the rotating assembly from rotating opposite of design and to prevent subsequent loss of firemain pressure in the
event of pump failure or inadvertent pump shutdown

Answer 12

Check Valve

Question 13

To prevent overheating during low flow conditions, each
fire pump is equipped with what inwhich connects the pump discharge to either the pump suction line or overboard,

Answer 13

recirculation line

Question 14

What permit isolation of
the pumps from the sea and the firemain for damage control purposes, and permit pump maintenance

Answer 14

valves

Question 15

Fire pump is equipped with an orifice sized to pass approximately

Answer 15

5% of the pump’s rated capacity

Question 16

Each discharge recirculation line for turbine driven centrifugal
fire pumps is fitted with a relief valve set at

Answer 16

125% of the firemain’s rated pressure.

Question 17

Pumps are located below the water
line to provide a minimum positive static head of

Answer 17

3 feet under all conditions of load and a list of up to
15 degrees.

Question 18

The standard fire pump can be procured in horizontal configurations
with how many interchangeable impellers to achieve various pressure heads and flow capacities

Answer 18

6

Question 19

The Navy standard fire pump (NSTFP) is an electric motor
driven centrifugal, close coupled pump of what kind of material

Answer 19

titanium

Question 20

The centrifugal pump design of the NSTFP is particularly suited for firemain service because

Answer 20

it will deliver a wide range of flow rates within a relatively narrow pressure range

Question 21

The pump zero flow, or shutoff
head is limited to approximately

Answer 21

1.2 times its rated head to prevent large fluctuations in firemain pressure as
seawater demand varies and to prevent excessive firemain design pressure

Question 22

Electric motors are preferred
over steam turbine drives because they are

Answer 22

a. more reliable because of less moving parts,
b. require less maintenance,
c. provide rapid start and stop control, and
d. are easier to install

Question 23

A major disadvantage of motor driven pumps is that they often operate near their shutoff head
because

Answer 23

they operate at constant speed

Question 24

What is the backup for firemains which have turbine driven fire pumps,

Answer 24

steam supply is a backup
to electric power for firemain supply.

Question 25

The flushing lines should be opened periodically to flush out any debris and

Answer 25

prevent excessive pressure loss through the strainer.

Question 26

Y-type strainers are installed in firemain branch lines for services such as AFFF to protect

Answer 26

the control valves of these systems

Question 27

Suction lines of the fire pumps are protected by

Answer 27

hull plate strainers

Question 28

Due to weight
saving advantages, high performance butterfly valves are allowed as WILLIAM cutout valves for sizes

Answer 28

of 2-1/2 inches and above

Question 29

What installed on the discharge side of centrifugal
fire pumps, to prevent back flow and resultant reverse rotation of secured pumps

Answer 29

check valve

Question 30

When firemain pressure increases
because of low demand from installed services, the pressure regulating valve will

Answer 30

open to divert flow overboard

Question 31

As
firemain pressure drops due to additional services being energized,

Answer 31

the flow overboard is reduced

Question 32

Which valves are installed on the recirculation line downstream from turbine driven
pumps.

Answer 32

Relief valves

Question 33

A combination vacuum and pressure gage is installed on the

Answer 33

suction piping of each fire pump.

Question 34

On a fire pump, the pressure gage is installed on the

Answer 34

discharge piping

Question 35

The authority to start or stop fire pumps resides
with

Answer 35

the Engineer of the Watch (EOOW) underway, and the Duty Engineer in port.

Question 36

A medium or small firemain break and or when the intended service being placed on line will be noticed by the as

Answer 36

a drop in pressure

Question 37

The firemain should be operated at

Answer 37

the lowest pressure sufficient to meet the
needs of the connected services

Question 38

During operation, a pressure increase in the firemain will be due to a pump being started or

Answer 38

service being secured

Question 39

At extremely high flow rates, the pump may

Answer 39

cavitate and lose suction

Question 40

To raise the firemain
pressure, place additional pumps on line or

Answer 40

secure services

Question 41

The automatic sprinkling systems are
equipped with

Answer 41

flow switches.

Question 42

When pressure is regained, the rupture or ruptures will be downstream
of the

Answer 42

last valve closed

Question 43

Pipe sizes are based on

Answer 43

copper-nickel pipe

Question 44

The valve(s) in the AFFF concentrate suction line(s) when the firemain is
returned to service should be

Answer 44

open

Question 45

Fixed AFFF sprinkling systems, the high capacity AFFF stations supply
various

Answer 45

1-1/2 and 2-1/2 in AFFF hose station

Question 46

AFFF service outlets installed for below decks use are
equipped with

Answer 46

a 1-3/4 inch or 1-1/2 inch hose (50 - 175 feet)

Question 47

Navy standard fire hose

Answer 47

150ft

Question 47

The flow rate setting for the
1-1/2 inch nozzle is

Answer 47

125 gpm (95 gpm in machinery spaces.)

Question 48

The flow rate for the 2-1/2 inch AFFF nozzle is

Answer 48

250gpm

Question 49

Each washdown/firefighting zone supplies up to

Answer 49

1,000 gpm of seawater/AFFF

Question 50

Overhead AFFF sprinkling systems are installed to extinguish

Answer 50

class B pool fires located on the deck

Question 51

On the AFFF hose station, the pushbuttons are enclosed in a watertight boxes with hinged covers painted

Answer 51

red/green strips

Question 52

A power distribution
system is provided for electrical control of the AFFF proportioning system. The electrical system is divided into
several units, consisting of

Answer 52

2 to 21 distribution centers

Question 53

Root valves in the firemain branches to the AFFF proportioner stations are classified
WILLIAM and

Answer 53

shall be kept open at all times.

Question 54

A bell switch may be provided at each outlet for ringing the injection station to man up the

Answer 54

X50J

Question 55

Carbon dioxide (CO2) is a colorless, odorless gas that is naturally present in the atmosphere
at an average concentration of

Answer 55

0.03%

Question 56

The amount required to extinguish fire with CO2 concentrations is

Answer 56

30 to 70 percent

Question 57

Carbon dioxide for fire fighting is maintained as a liquid

Answer 57

at high pressure

Question 58

At the concentrations
expected after discharge of CO2, Dizziness, increased respiration rate and headaches will occur at low
concentrations and loss of consciousness will occur in less than

Answer 58

15-35 seconds

Question 59

Each
system is designed such that a single discharge of Halon 1301 will provide a concentration of

Answer 59

5 to 7 percent halon 1301

Question 60

Sufficient
Halon is required so that the concentration will remain at a minimum of 5 percent for

Answer 60

15 minutes

Question 61

HFP
systems for spaces with diesel, JP-5, or gasoline fuels are designed such that a single discharge will provide a
minimum average concentration of 8.5%, which must be maintained for

Answer 61

15 minutes

Question 62

The sprinklers are the
closed head type and will actuate automatically when exposed to heat, typically at

Answer 62

175 degrees