Chapter 15 - Pumps Flashcards

Question 1

Q

What are the applications for pumps

Answer

A

machine to convey fluids/semi-fluids
feed water to boilers
convey/meter fuel and chemicals
circulate coolants and condensates

Question 2

Q

What are the two basic classification of pumps

Answer

A

dynamic pumps

- positive displacement pumps

Question 3

Q

How does a dynamic pump move fluid?

Answer

A

moved fluid by using centrifugal force to spin it outwards

Question 4

Q

How do centrifugal pumps react when pressure builds beyond their ability to overcome it?

Answer

A

they allow the fluid to slip after the required pressure is built up

Question 5

Q

What are the 4 categories of centrifugal pumps?

Answer

A

radial
mixed
axial
peripheral

Question 6

Q

Define - Pump head

Answer

A

the pressure that a pump has to overcome to be able to move

Question 7

Q

Define - Static suction lift

Answer

A

the vertical distance from the liquid supply level to the pump center line when the liquid supply level is below the pump center line

Question 8

Q

Define - Static suction head

Answer

A

the vertical distance from the liquid supply level to the pump center line when the liquid supply level is above the pump center line

Question 9

Q

Define - Static discharge head

Answer

A

the vertical distance from the pump center line to either the surface of the liquid in the discharge tank or to the point of discharge

Question 10

Q

Define - Total static head

Answer

A

the vertical distance from the liquid supply level to the surface of the liquid in the discharge tank or to the point of discharge

Question 11

Q

Define - Frictional loss

Answer

A

the pressure needed by the fluid to overcome friction

Question 12

Q

Define - Velocity head

Answer

A

the force causing the fluid to flow through a chamber which is due to the velocity of the fluid

Question 13

Q

Define - Dynamic suction lift

Answer

A

= static suction lift + velocity head - all the frictional losses in the suction pipes and fittings

Question 14

Q

Define - Dynamic suction head

Answer

A

= static suction head - velocity head + all frictional losses in the suction pipes and fittings

Question 15

Q

Define - Dynamic discharge head

Answer

A

= static discharge head + velocity head + all frictional losses in the suction pipes and fittings

Question 16

Q

Define - Total dynamic head

Answer

A

the term most used in industry to describe a pump’s head
for pumping systems which have suction lift:
= dynamic suction lift + dynamic discharge head
for pumping systems which have suction head:
= dynamic discharge head - dynamic suction head

Question 17

Q

Describe vapour binding and the reasons for it

Answer

A

if pressure on the suction side of a pump drops below the vapour pressure of the liquid, vapour forms. This could partially or completely stop liquid flow into the pump. The pump is then said to be vapour-bound.

Causes:

insufficient suction head
high suction lift
excessive friction head
high liquid temperature

Question 18

Q

Describe cavitation and its results

Answer

A

If pressure in side a centrifugal pump drops below the vapour pressure, vapour bubbles form. The bubbles flow with the liquid until they reach an area of higher pressure. ( normally at the outer area of the impeller). They then collapse, producing a shockwave. This process is called cavitation.
during cavitation, the bubbles collapse (implode). Liquid then suddenly fills the space, hitting and eroding the surface. This action causes vibration and noisy operation. if continued, this erosion causes the impeller to become imbalanced, which mechanically destroys the pump (bearing failure).

Question 19

Q

How are vapour binding and cavitation prevented?

Answer

A

to prevent cavitation and vapour binding, and to ensure maximum flow through the pump, suction pressure must be greater than the vapour pressure of the pumped liquid. This required pressure at pump suciton is called the “net positive suction head” (NPSH).

Question 20

Q

How is a pump’s capacity determined?

Answer

A

determined by the volume of liquid delivered per unit of time. ex. US gallons per minute

Question 21

Q

How is the slip factor and the pump’s volumetric efficiency expressed?

Answer

A

percentage of theoretical capacity

Question 22

Q

How is the pump’s rating and size expressed?

Answer

A

rated according to the capacity at a given head and speed (rpm).
size is expressed as the diameter of the discharge nozzle, suction nozzle and impeller in inches or mm.

Question 23

Q

Describe the operating principles of radial flow volute pumps

Answer

A

Radial flow pumps move the liquid out radially from the shaft’s axis. In volute pumps, the rotating impeller discharges the fluid into a spiral shaped cavity called a volute.

Action:

Fluid is fed into the centre (eye) of the impeller and flows into blades.
the rotating impeller causes fluid to discharged at its circumference at an increased velocity.
as the fluid leaves the impeller, it moves outward at right angles to the shaft’s axes. It is flung into the volute at high velocity.
because the chamber widens, the velocity of the fluid decreases and part of the velocity head is transformed into pressure.

Question 24

Q

Compare diffuser pumps to volute pumps.

Answer

A

diffuser pumps; are used in pump casings to create multiple volutes. They are stationary curved vanes in the casing which redirect the flow of the liquid. The vanes direct the flow outwards towards the discharge nozzle.
volute pumps; same principle without the stationary diffuser vanes, and therefore a single volute translating the decreased velocity into pressure.

Question 25

Q

Describe the operating principles of axial-flow and mixed-flow pumps.

Answer

A

axial-flow;

the impeller moves liquid through the casing without changing its direction. The pump develops its head by the lifting action of the vanes on the liquid. The liquid moves through the casing parallel to the shaft.
Pump is usually mounted vertically, usually below surface of liquid being pumped.
large volume output flow, low discharge head.

mixed-flow;

develops its discharge head by using both centrifugal force and lifting action of the vanes on the liquid.
pump is mounted vertically or horizontally.
low-head, high-capacity applications.

Question 26

Q

How is greater pressure developed through multiple stages?

Answer

A

the discharge of one impeller is connected to the suction of the next impeller and so on.
this action increases the velocity of the liquid each time it passes through a stage thus pressure is increased at the discharge outlet.

Question 27

Q

Describe the operating principles of a regenerative turbine pump.

Answer

A

Action

the liquid enters at the outer edge of the impeller
as the impeller rotates, the vanes travel in machined channel in the casing. This gives the liquid a forward motion.
As the liquid speeds up, centrifugal force throws it into the channel.
Because of the channel’s shape, the liquid returns between the vanes.
This process is repeated several times. As a result, the liquid follows a spiral path around the outer wall of the casing, to the discharge outlet
each time the liquid re-enters a vane, it receives an impulse. This series of impulses increases the pressure gradually from suction to discharge.

Question 28

Q

Compare the discharge pressure of a regenerative turbine pump to a similar radial flow pump?

Answer

A

The regenerative turbine pump can develop a discharge pressure several times larger than a radial flow pump can with the same diameter and speed

Question 29

Q

Describe the types of casings used to encase pumps.

Answer

A

Split Casings

axially split casings are split along the axis of the shaft. The suction and discharge nozzles are usually in the lower half of the casing. The upper half is easily lifted for inspection.
radially split casings are split at right angles to the shaft.

Barrel casings
- In a multi-stage centrifugal pump, the inner casing is fitted into an outer casing. The barrel casing has no axial joints. The space between the two casings is subjected to the high discharge pressures, which tends to hold the sections of the inner casing together.

Question 30

Q

What pump casing materials would you order to pump water?

Answer

A

cast iron casing with bronze fittings

Question 31

Q

What pump casing materials would you order to pump mild acids?

Question 32

Q

What pump casing materials would you order to pump moderate alkalis?

Answer

A

Ni-resist

- stainless steel

Question 33

Q

What pump casing materials would you order to pump concentrated solids in slurry?

Answer

A

chrome steel
Ni-hard
manganese steel

Question 34

Q

What type of impeller has a partial shroud on one side?

Answer

A

open impeller

Question 35

Q

What type of impeller has shrouds on both sides?

Answer

A

closed, single-inlet impeller

Question 36

Q

What type of impeller has inlets on both sides?

Answer

A

closed, double-inlet impeller

Question 37

Q

What type of impeller has a mechanical screw?

Answer

A

screw-style impeller

Question 38

Q

How are impellers mounted and held on the pump shafts?

Answer

A

mounted either on the end of the shaft or mid-shaft

When mounted on the end of the shaft the impeller

is screwed on to a threaded shaft and butting against a shoulder. The hand of the thread must have a tightening action as the shaft rotates.
has a parallel bore with a sliding fit on the shaft. It is held in position by a shoulder or sleeve on one side, and a keeper (retainer) plate and nut (with a locking device) on the inlet side. A key is needed for positive drive.
Is installed on a tapered shaft. A key is also used for driving. A nut (with a locking device) and a keeper plate is used to hold the impeller on the taper.

When mounted mid-shaft the impeller is driven by a key and held in place by

a sliding fit against a shoulder retained by sleeves and a nut.
a sliding fit against sleeves and retained by nuts on both ends of the shaft.

Question 39

Q

What pump and impeller type would you use for water at moderate temperatures?

Answer

A

Pump
- Single or double suction centrifugal pump

Impeller
- closed except for very small capacities

Question 40

Q

What pump and impeller type would you use for hot hydrocarbons?

Answer

A

Pump
- single suction centrifugal pump; often special refinery pumps designed for high temperatures.

Impeller
- closed with large inlets

Question 41

Q

What pump and impeller type would you use for pulpy solids?

Answer

A

Pump
- single suction centrifugal pump; use double suction with special end-clearance wearing fits only on very light concentrations of solids.

Impeller
- closed (open was the standard until end-clearance wearing fits changed)

Question 42

Q

How is internal leakage prevented between the discharge and suction side of a pump?

Answer

A

The clearance between the casing and the suction passage of the impeller must be kept to a minimum

Question 43

Q

What happens when the wear rings in a pump wear out?

Answer

A

If wear exceeds 3x the initial clearance, the pump loses too much efficiency.

Question 44

Q

How are wear rings fastened in a pump?

Answer

A

a shrink fit
a spigot, a groove or pins
screw threads

Question 45

Q

How are wear rings lubricated?

Answer

A

lubricated only by the pumped liquid, so their life is extended if they are always run in liquid.

Question 46

Q

Describe wearing cheek plates.

Answer

A

With open impellers in radially split casings, wear cheek plates are used instead of rings. Wear plates are easily replaced plates which protect the front and/or back faces of the casing.
clearance between the plate and impeller can be adjusted by moving the shaft axially. This is usually done by using shims.

Question 47

Q

Describe how hydraulic axial thrust is controlled using opposing impellers, holes in impellers, and balancing drums and disks.

Answer

A

Opposing impellers
- half the impellers have inlets facing in the opposite direction to the other half. If the inlets all face in the same direction, the axial thrust must be compensated.

Holes in impeller
- the excess pressure that builds up in the back face of the impeller can pass through these holes into the suction side.

Balancing drum
- any excess pressure built up in the back face of the impeller is allowed to pass through the radial clearance between the balancing drum and the balancing drum head. This pressure then returns to suction side of the pump.

Balancing disk
- the excess pressure passes through the axial clearance. As the pressure fluctuates, the axial movement of the shaft changes the axial clearance which acts as a valve.

Question 48

Q

What methods are used to control leakage between the casing and the shaft?

Answer

A

mechanical seal

- compression packing

Question 49

Q

Describe a mechanical seal.

Answer

A

Set screws are used to hold it in place. O-rings are used as a secondary seal to prevent leakage from the mechanical seal to the housing and shaft.

Question 50

Q

Describe sealing with compression packing and lantern rings.

Answer

A

a stuffing box holding multiple rings of compression packing and a lantern ring are held in place by a gland. This gland is adjustable by tightening nuts to compress the rings for the desired fit.
when a pump operates at a negative suction pressure, air can be drawn into the casing. To prevent this, the stuffing box is fitted with a lantern ring and a sealing liquid connection. This connection can be external piping or an internal passage consisting of passage holes drilled in the casing. When used to pump abrasive fluids, the clean sealing liquid keeps the abrasives out of the stuffing box.

Question 51

Q

How is shaft wear and corrosion at the pump’s stuffing box controlled?

Answer

A

shafts of smaller pumps are usually made from corrosion and wear resistant materials
larger pump shafts are usually protected by renewable sleeves. These are made of stellite, stainless steel or chrome plated brass/bronze.

Question 52

Q

How are seized sleeves removed from the pump shaft?

Answer

A

1 - grind two grooves with a small hand grinder. The grooves should be ground 180° apart, axially along the sleeve.
2 - split the sleeve with a cold chisel, being careful not to damage the shaft.

Question 53

Q

What are the functions of bearings in centrifugal pumps?

Answer

A

support the shaft carrying one or more impellers
allow the shaft to rotate with minimum friction
keep the rotating shaft and impellers in correct position within the stationary parts of the pump

Question 54

Q

What two basic kinds of bearings are used in centrifugal pumps?

Answer

A

friction bearings

- anti-friction (rolling element) bearings

Question 55

Q

How are friction bearings lubricated on horizontal and vertical pumps?

Answer

A

drip feed oiling

- if housing has oil reservoir, an endless chain or a ring riding on the shaft.

Question 56

Q

Where are axial and radial rolling element bearings located in axial split and radially split pumps?

Answer

A

Axially split pumps
- radial load bearing are used at both ends of the shaft. This is due to the axial thrust of the shaft being theoretically balanced.

Radially split pumps
- radial load bearings are used at the impeller end and combination (radial and axial load) bearings) are used at the drive end.

Question 57

Q

Describe a suitable base to mount a pump and drive source.

Answer

A

cast iron or fabricated steel

- base is bolted to a solid foundation to absorb vibration.

Question 58

Q

Compare base mounting pumps to centre-line pumps

Answer

A

Base mounting

mounting lugs on the bottom of the pump casing.
any change in temperature of the pump while operating can cause the pump to lift and become misaligned with the coupling.

Centre-line mounting
- the pump body is carried on lugs extending from the centre of the pump casing which rest on the base

Question 59

Q

Describe close-coupled pumps.

Answer

A

the motor shaft extends through the pump casing. The impeller is then mounted directly onto this shaft. The pump casing is normally mounted directly onto the motor casing.

Question 60

Q

What checks should be made prior to starting a pump?

Answer

A

proper alignment
unit turns over freely by hand
pump driven in direction shown on pump casing
bearings properly lubricated
pump is primed
air from the seal housing is vented
plenty of quenching fluid is flowing to the seals

Question 61

Q

What safety precautions should be followed when working on a pump?

Answer

A

always lock out and tag all electrical controls
shut off, lock and tag all main valves to and from the pump, including the seal-fluid supply
drain the pumps. This is important with suction-head mounting.
flush the pump if it has been pumping acids or any other substance that could be hazardous.

Question 62

Q

List the preventative maintenance procedures for maintaining centrifugal pumps.

Answer

A

volume and temperature of liquid leaking past the packing
oil level
bearing temperature and noise (vibration analysis)
joints and seals for leaks
flow rates at operating temperatures

Question 63

Q

What are the routine maintenance procedures carried out on centrifugal pumps?

Answer

A

replace the compression packing
inspect and, if necessary, replace the shaft sleeve
change the oil

Question 64

Q

Describe what a pump overhaul usually consists of and where the information needed for this is obtained.

Answer

A

Overhaul

inspecting/replacing the impeller
inspecting/replacing the wear rings or plates
inspecting/replacing the shaft and shaft sleeve
inspecting the stuffing box and replacing the compression packing or mechanical seal
replacing all bearings and seals

Pump manufacturers supply

a drawing showing position of all parts
an information sheet showing details such as pump rating, model, packing seal, and bearing details
an installation and service manual giving step-by-step routine for general overhaul

Answer 64

A

failure to deliver liquid

Answer 65

A

reduced capacity or pressure

Answer 66

A

speed is too high
viscosity of the liquid different then recommended for the pump
mechanical resistance in the pump

Answer 67

A

misaligned coupling
insecure foundation
unbalanced impeller due to a chipped blade
unbalanced impeller due to excessive cavitation
bent shaft
worn bearings

Answer 68

A

repair and replace impeller

- increase suction pressure

Answer 69

A

repair casing by means of welding or installing an insert

- replace the pump casing with a more suitable material for the pump liquid

Answer 70

A

1 - replace with proper grade
2 - reduce shaft diameter then use appropriate packing size
- replace shaft
3 - replace shaft sleeve
4 - check and correct the faulty sealing
5 - ensure cooling supply to the stuffing box is operational
- ensure gland nuts are not too tight

Answer 71

A

impact
uneven base
freezing

Answer 72

A

where a constant flow or a measured amount of flow is critical

Answer 73

A

reciprocating

- rotary

Answer 74

A

actual output / theoretical output

Answer 75

A

plunger pump
piston pump
produces a pulsating flow

Answer 76

A

cross-sectional area of the piston, plunger or diaphragm

- length of stroke

Answer 77

A

Plunger
- has its plunger sliding inside packing

Piston
- has its packing sliding with its piston

Answer 78

A

has a piston which slides inside a cylinder
the cylinder acts as a chamber and as the piston moves in the cylinder it displaces most all the fluid in the chamber

Action
1 - plunger/piston extends:
- outlet valve opens
- inlet valve closes
- fluid is forced out of chamber 
2 - plunger/piston retracts:
- outlet valve closes
- inlet valve opens
- fluid is sucked into chamber

Answer 79

A

both sides of the piston moves fluid
piston discharges at each stroke

Action
1 - piston extends
- liquid drawn into left end of cylinder
- liquid pushed out right end of cylinder
2 - piston retracts
- liquid drawn into right end of cyclinder
- liquid pushed out left end of cylinder

Answer 80

A

Plunger
- V-ring or U-ring packing is used

Piston

series of cast iron rings which are fitted into grooves in the perimeter of the piston
with cup or U-ring packing material held in position by retainers

Answer 81

A

plunger/piston pumps

Answer 82

A

Ball check valves
- used where free opening of suction and discharge is needed

Stem-guided check valves
- used for low pressures

Wing-guided check valves
- used for moderate or high pressures.

Flap check valves
- used for low pressures and free flow of semi-solids

Answer 83

A

continuous and smooth discharge

Answer 84

A

fuel
lubricants
hydraulic oils
liquids of various viscosities
gases and liquified gases

Answer 85

A

Fixed delivery

always delivering the same volume at a given speed
gear / vane / piston

Variable delivery

delivering volumes varying from zero to a given maximum
vane / piston

Answer 86

A

pair of meshed gears enclosed in a casing
one pair drives the other
meshing teeth prevent liquid from flowing back to inlet

External
- two oppositely-rotated, externally-cut gears inside one casing

Internal
- one internally cut gear and one externally cut gear, separated on one side by a crescent-shaped partition

Action

fluid enters the pump at the inlet port into the space between the gear teeth.
fluid carried around the casing to the discharge port
at the discharge port the meshing of the teeth restrict the oil from returning to the inlet port thus forcing it out.

Answer 87

A

has a rotor set slightly off centre in its casing. Vanes in the rotor are free to slide in channels, pushed outwards by centrifugal force as the rotor rotates.

Action

fluid is drawn into the chambers at the inlet and is carried around by the vanes
as chamber passes over the outlet, the chamber reduces in size and the fluid is forced out

Answer 88

A

Unbalanced

pumping action only on one side of pump
high capacity bearings required

Balanced

made by mounting the rotor in the centre of an elliptical case with two inlets and two outlets
fluid is drawn in and discharged during each half-revolution
light or medium-service bearings can be used
larger volume delivery

Answer 89

A

the rotor may be centred or off-centre by means of moving the pressure-chamber ring
automatic controls with a spring-loaded governor
varies flow to meet demand; levels pre-set
if discharge rate is seldom changed; its adjusted manually
rely on pump action rather than relief valves to limit pressure

Answer 90

A

has an oval rotor rotating centrally in the housing
one sliding vane separates the inlet and discharge ports
as rotor rotates, it carries fluid from the inlet port to the discharge port
the vane maintains a seal between the rotor and the housing

Answer 91

A

uses a rotor with two lugs mounted on the periphery, 180° apart
lugs compress the tube against the housing. This forms a seal that prevents the liquid from returning to the inlet port.
as the rotor rotates it forces the liquid around the housing to the discharge port
slow RPM >200RPM
discharges liquid every half rotation

Application

food products (juice)
paint
chemicals
slurry
sludge
pulp

Answer 92

A

uses an eccentric rotor to force the internal walls of a flexible liner outwards against the housing
discharges liquid once per revolution
liner has a divider between the discharge and inlet ports, which prevents liquid from returning to the inlet port

Application

food products (juice)
paint
chemicals
slurry
sludge
pulp

Answer 93

A

has a rotor with flexible vanes
vanes carry liquid around the housing from the inlet to the discharge ports
insert mounted between the discharge and inlet, which compresses the vanes and forces the liquid out
moderate speeds >6000RPM

Application
- coolants

Answer 94

A

has two rotors, each with one, two, or three lobes.
rotors placed in casing with a set of external timing gears which synchronize the lobes
liquid is trapped in the pockets formed by the lobes and the casing
motion of the lobes carries the liquid around the casing to the outlet

Answer 95

A

check the timing gears for mate marks

- mate marks are often put on at the factory to aid re-assembly

Answer 96

A

has one rotor (screw) inside a stationary lobed casing called a stator
a cavity is produced between the inside surface of the rotor with the stator
outside surface of the rotor remains in contact with the stator to prevent the fluid from moving back to the inlet

Answer 97

A

has two rotors each with two opposing screw threads (right and left hand)
one rotor is the drive and stays in proper mesh by means of timing gears

Answer 98

A

has multiple rotors
the centre (drive) screw thread has one hand and the other screw threads have the opposite hand
as the screw rotates, liquid is carried between the threads and the casing, axially towards the outlet
threads are in constant mesh with each other, restricting the fluid from returning to the inlet

Answer 99

A

has its pistons positioned axially in the pump
pistons connect to a drive shaft which rotates
a cylinder block houses the pistons and rotates against a stationary valve plate which houses the intake and outlet ports

Action

the drive shaft rotates the cylinder block and pistons
when the housing angle is other than zero degrees, the distance between the piston and valve surface continually changes
each piston moves away from the valve surface during one half of the revolution, causing suction and flow
each piston moves toward the valve surface during the second half of the revolution, causing compression and discharge

Answer 100

A

If the housing angle is zero, piston length is zero, and there is no pumping action
If there is a small housing angle, there is small piston stroke length, and some fluid is pumped
If maximum housing angle, stroke length is maxed, and full pumping capacity

Answer 101

A

has a rotating eccentric shaft rather than a cylinder block
the piston cylinders are contained in the fixed housing of the pump
each piston has a check valve for fluid to enter and another for fluid to exit

Action

as the eccentric shaft rotates (180°) from the high to low point, the piston cavity fills with fluid
as the eccentric shaft rotates the other 180°, the piston cavity discharges the fluid
This cycle acts on every piston in sequence

Answer 102

A

regulated by varying their speed

- output is only slightly affected by pressure variations, dropping gradually as pressure rises

Answer 103

A

relieved by a pressure relief valve that redirects fluid after it reaches a set pressure limit
at the preset pressure limit, the valve opens and dumps excess fluid back to the supply
without a pressure relief valve, a blocked line may cause the motor to stall or the pump to break

Answer 104

A

pump should be mounted on a strong and rigid base

- alignment to power source

Answer 105

A

depends on the demands put on it

- higher the capacity the less tolerance for wear

Answer 106

A

yes, by complete overhaul or small repair

Answer 107

A

inspect the bearings and replace if necessary

- replace the shaft seal as specified

Answer 108

A

use thinner oil and follow recommendations for temperature and service
heat oil for cold-weather startup

Answer 109

A

check directional control valves (DCV)

- the valve return may be open

Answer 110

A

test by pouring pumped fluid on the joints while listening for a change in the sound of operation

Answer 111

A

Symptoms

pump makes unusual noise
pump doesn’t deliver fluid

Correction

clean the lines and filter to prevent cavitation
clean or replace filters. Filter capacity should be at least twice the pump capacity

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Chapter 15 - Pumps Flashcards

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