Chapter 4: Water Distribution Systems

Question 1

A community’s water supply system has always accounted for such a significant percentage of the fire protection ratings that were assigned by the:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 1

Insurance Services Office (ISO) and other rating bureaus

Question 2

The 4 basic components of a water supply system are:

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 2

1. A water supply source
2. Water treatment facilities
3. A mechanism for forcing water through the system
4. A system of piping to transport the water through the community

Question 3

Any given community usually has only one water supply system for:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 3

Domestic consumption, industrial applications, and fire protection

Question 4

Secondary water supply systems intended solely for fire department use typically utilize _______-volume, _____-pressure supplies of water:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 4

High-volume, Low-pressure

Question 5

Secondary water supply systems intended solely for fire department use typically use ____________ water:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 5

Untreated (Non-potable)

Question 6

Secondary water supply systems intended solely for fire department use may not even be continually _________:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 6

Pressurized

Question 7

To help ensure that fire department’s concerns will be addressed when a water system is constructed or modified, It is important to have an excellent working relationship with the:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 7

Water system operator

Question 8

What are the 3 basic rates of consumption?

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 8

1. Average daily consumption (ADC)
2. Maximum daily consumption (MDC)
3. Peak hourly consumption (PHC)

Question 9

What is the Average Daily Consumption?

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 9

The average of the total amount of water used daily in a water system over a period of 1 year

Question 10

What is the Maximum Daily Consumption?

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 10

Maximum total amount of water that was used during any 24-hour interval within a 3 year period

Question 11

What is the Peak Hourly Consumption?

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 11

The maximum amount of water used in any 1-hour interval over the course of the day

Question 12

The maximum daily consumption is usually about how many times the average daily consumption?
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 12

1.5 times

Question 13

The peak hourly rate usually varies from how many times the normal hourly rate?
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 13

2 to 4 times

Question 14

What are the 2 basic categories of water supply sources?

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 14

Groundwater and Surface water

Question 15

Which of the 2 basic categories of water supply sources is the most commonly used?
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 15

Surface water

Question 16

The volume of surface water supplies is most greatly affected by:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 16

Variations in rainfall

Question 17

Which types of surface water supplies experience greater impacts from rain fall and or drought conditions?
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 17

Rivers and streams

Question 18

Which types of surface water supplies tend to be fairly stable in water quality and not as quickly affected by decreased rainfall?
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 18

Lakes, Reservoirs, and ponds

Question 19

In general, surface water supply sources tend to:

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 19

Have softer water, more suspended solids and colors, more bacterial contaminants, and deplete more rapidly during periods of low rainfall than ground water

Question 20

What are the 2 primary types of ground water sources used as water supplies for domestic systems?
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 20

Wells and Springs

Question 21

A well that is under pressure and wants the water level to be above the level of the ground are called:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 21

Artesian or flowing wells

Question 22

In general, ground water supply sources tend to:

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 22

Have harder water, be clearer, have less bacteria and need less treatment, and less affected by periods of decreased rainfall than surface water

Question 23

The Safe Drinking Water Act of 1974 specified:

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 23

Requirements for purification and limits for contamination in drinking water

Question 24

What are the 4 basic processes to remove contaminants from water:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 24

1. Sedimentation
2. Filtration
3. Coagulation
4. Chemical additions

Question 25

This process to remove contaminants from water uses gravity to cause particles to fall out of the water:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 25

Sedimentation

Question 26

This process to remove contaminants from water introduces a chemical to the water that causes solid particles to bond together forming larger pieces which are caught by filters:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 26

Coagulation

Question 27

Which 2 elements found in water cause hard water?

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 27

Calcium and Magnesium

Question 28

Which element found in water greatly improves the strength and overall health of our teeth?
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 28

Fluoride

Question 29

What are the 3 basic types of water movement systems?

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 29

1. Gravity
2. Direct pumping
3. Combination

Question 30

In a gravity system, the _____ pressure created by the higher elevation provides the energy to move the water through the entire system?
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 30

Head pressure

Question 31

For every foot of elevation drop, water gains ______ psi?

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 31

.433 psi

Question 32

Which of the basic types of water movement systems is the least common?
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 32

Gravity

Question 33

Which of the basic types of water movement systems are most commonly found in jurisdictions where the system’s water supply source is located at the same elevation as or lower than the system it provides?
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 33

Direct pumping system

Question 34

What are the most commonly used drivers used to power water pumps in a distribution system?
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 34

Electric drivers followed by diesel drivers

Question 35

Most direct pumping systems are controlled by:

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 35

Computer

Question 36

The most common type of water movement systems in North America if the:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 36

Combination system

Question 37

This component of the water system receives the water from the pumping station and delivers it throughout the area served:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 37

The distribution component

Question 38

The distribution system includes:

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 38

Pipes, valves, meters, and fire hydrants

Question 39

The ability of a water system to deliver an adequate quantity of water relies upon the:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 39

Carrying capacity of the system’s network of pipes

Question 40

What are the 3 common designs for water supply system piping arrangements?
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 40

1. Tree system
2. Circle, or belt system
3. Grid system

Question 41

The primary disadvantage of this water supply system piping arrangement is that most places in this system receive water supply in only one direction:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 41

Tree system

Question 42

These water supply system piping arrangements contain a central primary supply pipe that feeds branch distribution lines throughout the jurisdiction:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 42

Tree system

Question 43

These water supply system piping arrangements are usually found in small jurisdictions or in private systems that supply an industry or small complex:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 43

Circle, or belt system

Question 44

These water supply system piping arrangements are commonly used for the secondary fire protection water supply system in large cities:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 44

Circle, or belt system

Question 45

These water supply system piping arrangements are not commonly used for municipal domestic consumption water supply systems:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 45

Circle, or belt system

Question 46

Most modern water supply system piping arrangements of of this type:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 46

Grid system

Question 47

These water supply system piping arrangements are the most reliable:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 47

Grid system

Question 48

This water supply system piping arrangements utilize an inter-looped system of pipes connected at standard intervals to provide a reliable, multi-directional flow of water throughout the system:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 48

Grid system

Question 49

A grid system generally consists of these 3 piping components:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 49

1. Primary feeders
2. Secondary feeders
3. Distributors

Question 50

These piping components of a grid system are the largest pipes (Mains):
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 50

Primary feeders

Question 51

These piping components of a grid system are intermediate-sized pipes that reinforce the grid:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 51

Secondary feeders

Question 52

These piping components of a grid system aid in the concentration of the required fire flow at any point:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 52

Secondary feeders

Question 53

These piping components of a grid system are the smaller mains serving individual fire hydrants and blocks of consumers throughout the system:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 53

Distributors

Question 54

One of the primary advantages of a grid system is that most fire hydrants:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 54

Can receive water from 2 directions

Question 55

A fire hydrant that receives water from only one direction are referred to as:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 55

Dead-end hydrants

Question 56

To give 2 directions of flow, secondary feeders should be arranged in _________, as far as possible:[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 56

Loops

Question 57

The earliest water supply systems used piping made from:

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 57

Hollowed logs

Question 58

What diameter range do primary feeders normally run:

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 58

8-72 inches

Question 59

What diameter range do secondary feeders normally run?

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 59

6-36 inches

Question 60

What diameter range do distributors normally run?

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 60

4-20 inches

Question 61

The American Waterworks Association currently recommends a minimum diameter of __ inches for any new pipe installation:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 61

8 inches

Question 62

Valves for water distribution systems are broadly divided into these two types:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 62

Indicating and non-indicating

Question 63

2 common types of indicator valves are:

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 63

1. Post indicating valves

2. Outside Screw and yoke valves

Question 64

What 2 words are printed on the valve stem inside the post, which indicates the position of the valve?
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 64

Open and Shut

Question 65

This type of indicator valve is commonly used on private water supply systems:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 65

Post indicating valve

Question 66

Outside screw and yoke valves are most commonly found on:

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 66

Sprinkler systems

Question 67

Most valves in municipal water distribution are of the _________ type:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 67

Non-indicating

Question 68

Control valves in water distribution systems may use either ___________ mechanisms or __________ mechanisms to control flow:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 68

Gate mechanisms, or butterfly mechanisms

Question 69

Non-rising-stem gate valves should be marked with a number indicating:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 69

How many turns are necessary to completely close the valve

Question 70

These valves are considered tight closing, and the valve disk rotates 90 degrees from the fully open, to the fully closed position:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 70

Butterfly valves

Question 71

What association has adopted specifications for a national standard hydrant for ordinary waterworks service in the US?
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 71

American Waterworks Association

Question 72

The 2 main types of modern fire hydrant are:

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 72

Dry-barrel and Wet-barrel

Question 73

Standard hydrants are usually equipped with a __ inch valve opening and a __ inch connection to the water main?
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 73

5 inch, 6 inch

Question 74

The principle specifications covered by the standard for hydrants are:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 74

The number of threads per inch, and outside diameter of the male thread

Question 75

These types of hydrants are used in areas that receive freezing temperatures:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 75

Dry-barrel hydrants

Question 76

If a dry-barrel hydrant does not drain completely, a firefighter should use a _________ __________ to remove the remaining water and report the hydrant to the water department for repair:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 76

Dewatering pump

Question 77

This type of hydrant features a valve at the hose outlet and is used in mild climates where prevailing weather conditions are above freezing:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 77

Wet-barrel hydrants

Question 78

Firefighters should be aware of leaks in the following areas anytime a fire hydrant is used:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 78

At the main valve when the valve is closed.
At the drain valve when the main valve is open but the outlets are capped.
In the water mains near the hydrant.

Question 79

Hydrants should be color coded according to a local system or this NFPA standard:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 79

NFPA 291, Recommended Practice for Fire Flow Testing and Marking Hydrants

Question 80

Private water supply systems are most commonly found on:

[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 80

Large commercial, industrial, or institutional properties

Question 81

Most private water supply systems maintain separate piping for:
[Fire Service Hydraulics and Water Supply: Chapter 4: Water Distribution Systems]

Answer 81

Fire protection and domestic/industrial services