Heat Exchanger

Question 1

Describe a gas to gas heat exchanger

Answer 1

Commonly used in compressor operations with intercoolers and aftercoolers. The hot compressed gas runs through the tubes with the cooler atmospheric air simply being blown across the outside fins to supply the necessary cooling

Question 2

Why does water have the ability to absorb or reject more heat than air?

Answer 2

Because it is more dense than air

Question 3

Describe a liquid to gas heat exchanger

Answer 3

The hot compressed gas travels around the outside of the tubes while the cooler water or glycol travels through the tubes in the shell and tube heat exchanger

Question 4

What two methods of removing heat in an air to liquid heat exchanger

Answer 4

Conduction, convection

Question 5

Describe a liquid to liquid heat exchanger

Answer 5

Both sides of the tubes have a liquid flowing through it in a shell and tube cooler. It is common in many industrial applications

Question 6

What are some different types of fluid used in cooling processes

Answer 6

Gas to gas, liquid to gas, liquid to liquid

Question 7

What are the three basic means of heat transfer?

Answer 7

Conduction, convection, radiation

Question 8

What is conduction?

Answer 8

The transfer of heat from one source to another through direct contact

Question 9

What things affect the rate of heat transfer by conduction?

Answer 9

Difference of temperature, area of contact, conductivity of the metal wall, nature of the substance.

Question 10

Define convection

Answer 10

It is a result of the movement of a gas or liquid, from a warm location to a cooler one

Question 11

Describe an air convection cycle

Answer 11

Air is heated it expands and becomes lighter, moving upward. The heavier, cooler air falls, and takes its place to be heated

Question 12

How are convection currents increased?

Answer 12

Auxiliary equipment such as pumps or fans. This is called forced convection

Question 13

What things change the rate of heat transfer in a convection transfer?

Answer 13

The velocity of the fluids inside and outside the tubes is a major factor. The amount of direct contact or scrubbing action also affects

Question 14

Why is turbulent flow promoted?

Answer 14

It is built into heat exchangers to allow the hot and cold fluids to scrub the walls of the tubing or plates to increase heat transfer rate

Question 15

What is radiation heat transfer

Answer 15

It requires no medium of transport, and travels across a vacuum. The sun is an example of radiant heat

Question 16

Which type of heat transfer plays a small part in heat exchangers?

Answer 16

Radiation heat transfer

Question 17

What are the common flow path arrangements?

Answer 17

Parallel flow, counter flow, cross flow, mixed flow.

Question 18

Describe a parallel flow path

Answer 18

Both fluids are moving in the same direction, and there is one shell pass, and one tube pass
This is the most inefficient.

Question 19

Describe counter flow path.

Answer 19

The flow is in the opposite directions. This is the most efficient transfer method

Question 20

Describe cross flow path

Answer 20

The fluids are introduced perpendicular to each other. Not as efficient as counter flow, but has the benefit of producing more turbulence which makes for greater efficiency.

Question 21

What two flow paths are commonly combined for greater efficiency?

Answer 21

Counter flow and cross flow

Question 22

What is a mixed flow path?

Answer 22

Half the time is parallel flow and half the time it’s counter flow

Question 23

What is the most common heat exchanger?

Answer 23

The finned tube heat exchanger. It is the same style as on a car radiator

Question 24

What applications would use the finned tube heat exchanger

Answer 24

It would be used on compressor intercoolers and aftercoolers and stationary engine cooling

Question 25

Where can you find fins on heat exchangers

Answer 25

They are common on the outside of air cooled compressors, but fins can also be added to the tubes inside shell and tube heat exchangers

Question 26

What is a PHE?

Answer 26

Plate heat exchanger

Question 27

Describe plate heat exchangers

Answer 27

It is many pressed plates clamped together in a frame. The plates is corrugated with alternating ridges and grooves. The pattern gives the flow a turbulent path, the hot and cold fluids run in opposite directions in the spaces between the plates

Question 28

How is the spacing on a plate heat exchanger?

Answer 28

Spacing is very important. They are placed between 2-5 mm gaps

Question 29

Give some advantages of plate heat exchangers

Answer 29

They are low fouling, they have high heat transfer coefficients, they are compact, The reading can be changed easily by burying the number of plates, no insulation required, vibration free

Question 30

What is another benefit of a plate heat exchanger

Answer 30

They are good for fluids with high turbidity

Question 31

What is a major disadvantage of the plate heat exchanger

Answer 31

It cannot run with high-pressure

Question 32

What is a very important factor with the plate heat exchanger

Answer 32

The flow rate is critical

Question 33

Describe a spiral heat exchanger

Answer 33

It is very efficient due to both fluids having a true counterflow path. The continual curving passages creates high turbulence. It has a long path, so there is much heat transfer opportunity.

Question 34

How much surface area of cooling can be provided by a 1 meter diameterX1.5 meter long spiral heat exchanger?

Answer 34

100 square meters

Question 35

What are cooling towers commonly used for?

Answer 35

To recycle cooling water for large scale applications like air conditioning and power generation

Question 36

What is the principle of a cooling tower?

Answer 36

The water to be cooled is pumped to the top of the tower, where it is sprayed through nozzles to give a fine spray.

Question 37

What does the efficiency of the cooling tower depend on?

Answer 37

Area of water surface(small droplets give larger surface area)
Length of contact time
Relative humidity

Question 38

Cooling towers are divided into two classes what are they?

Answer 38

Natural draft, mechanical draft

Question 39

Describe a natural draft cooling tower

Answer 39

Air movement through the tower is dependant on wind conditions. They operate effectively in large open areas with a steady wind.

Question 40

Describe maintenance on a natural draft cooling tower

Answer 40

Mtnc is simple because there are very few moving parts. Worn or dirty nozzles can cause problems, and on excessively windy days there could be high loss of water. High humidity levels decrease the cooling efficiency of this cooler

Question 41

Describe mechanical draft cooling towers

Answer 41

They use fans to increase the airflow through the exchanger

Question 42

What are the two styles of mechanical draft cooling towers?

Answer 42

Forced draft towers, and induced draft towers

Question 43

Which cooling tower is the most efficient?

Answer 43

The induced draft cooling tower, as it is true counter flow

Question 44

What is a Venturi cooling tower?

Answer 44

It can be either forced or induced, but has no fan of its own. It uses the airflow from the system, or process.

Question 45

What is a downfall and advantages of Venturi cooling tower?

Answer 45

It has a parallel flow which is least efficient, and will contain airborne contamination. It is quiet operation, minimal maintenance, and no electrical connections

Question 46

What is a double pipe heat exchanger?

Answer 46

Simplest form is a pipe inside a pipe. It is excellent for high pressure service. But does not provide large heat transfer surface areas, so it’s more suited to low heat duties.

Question 47

What is the most widely used double pipe heat exchanger?

Answer 47

The hairpin style because it more easily handles the high stresses produced by different thermal expansion of the two pipes.

Question 48

What is the most common type of heat exchanger found in industry.

Answer 48

The shell and tube heat exchanger. It is well suited for pressure applications and high temperature because it posses larger surface areas for heat transfer

Question 49

Why is A sacrificial zinc anode commonly mounted in heat exchangers?

Answer 49

Zinc anode is eaten away by electrolytic action. Electrolytic action is caused by contact between different metals. Once the anode is eaten away the rest of the exchanger is left intact

Question 50

What is a disadvantage longer tubes?

Answer 50

Although they are longer so they have a greater surface area, there will be a larger pressure drop through the long tubes

Question 51

What is a common material for tubes

Answer 51

Copper because of its high thermal conductivity

Question 52

How are the tubes connected to the tube sheet?

Answer 52

Tube expanding. Sometimes the expanded joints are welded for high pressure or extreme temperature applications.

Question 53

What it is a tube bundle

Answer 53

The combination of tube sheets and tubes package together

Question 54

What is the benefits of the U-Tube exchanger

Answer 54

The two bundle can be completely removed for repair or cleaning. However the radius at the end leads to increased wear on the bend

Question 55

What are the two square type in what are the two triangular type of tubesheet layouts

Answer 55

The square type are 90° or 45° which is just a rotated 90, and the triangular layouts for 30° and 60°. The 30 and 60 allow for more tubes. As there is less room between them, but the 45 and 90 are better for cleaning

Question 56

What is the purpose of a baffle

Answer 56

It’s two functions are to support the tubes, and to cause turbulence to increase the heat transfer rate and prevent dead bypass areas

Question 57

What are the two types of baffles?

Answer 57

Segmental baffles, and disc and doughnut baffles

Question 58

What is an impingement baffle

Answer 58

It is a baffle that sits perpendicular to the shell side inlet. It is to protect the tubes from erosion by the entering high-pressure fluid

Question 59

What Isa longitudinal baffle

Answer 59

It is used to split the shell side flow into two or more passages

Question 60

If you have three longitudinal baffles, how many passes are in the shell?

Answer 60

Four. There is always one more pass then baffles

Question 61

How are the number of tubeside passes determined?

Answer 61

They’re determined by the number of baffles in the channel head.

Question 62

What are the different types of shell and tube exchangers?

Answer 62

Fixed tubesheet, U-tube, floating head, floating head with split backing ring, floating head outside packed lantern ring, double tubesheet

Question 63

What is a floating head Shell and tube exchanger

Answer 63

One tube she is bolted onto the Flange and the other end is free to float. This permits the exchanger to use high temperature differentials because it can expand and contract without stresses.

Question 64

What a fixed tube sheet shell and tube.

Answer 64

The tubesheet is welded to the show at both ends. It cannot be cleaned and is bad for high temperature because it has no room to expand. Also the tube sheet has no gasket joints which makes it good for high pressure, or dangerous fluid applications

Question 65

Describe a U-Tube type shell and tube exchanger

Answer 65

Both ends of the U shaped tube are affixed to a single tubesheet. Because of this thermal expansion is not a problem however you can get wear and erosion on the ends of the bend

Question 66

What is the big advantage of the u-tube exchanger

Answer 66

The entire bundle can be removed for cleaning. There is only one tubesheet joint. Good for high pressure, high temperature. The dirty fluids should run in the shell, not the tube to minimize erosion on the bends

Question 67

What is an advantage in the disadvantage of the floating head exchanger

Answer 67

And advantage is the pole through floating head is easier maintenance the tube bundle can be removed for shell side cleaning. Disadvantage is there is a large clearances re-quired between the outermost tubes and the inside of the shell this decreases the number of tubes you can put in the shell

Question 68

What is the floating head with split backing ring?

Answer 68

It has a split backing ring which can be separated therefore reducing the large clearances required. This allows more tubes to be in the shell therefore more efficient

Question 69

What is the order of disassembly of a split backing ring floating head exchanger

Answer 69

1- shell head
2- floating head cover
3- split ring
4- channel head

Question 70

What is a floating head, outside packed, lantern ring exchanger

Answer 70

It uses a lantern ring around the floating tubesheet to separate the two fluids. Leaks are detected by fluids dripping through the weep holes, therefore it cannot be used with dangerous fluids.

Question 71

What is a double tubesheet exchanger?

Answer 71

It is used when it is critical the two liquids do not contact each other. It is impossible for fluid to fluid to leak from the tubesheet, however, a tube could possibly rupture.

Question 72

Which fluid goes through the tube and which shell?

Answer 72

• dirtier fluid normally flows through the tubes
• The higher pressure fluid normally flows through the tubes
• corrosive fluids should go through the tube
• The cooler fluid usually flows through the shell

Question 73

What group specifies and standardizes exchanger sizes and parts?

Answer 73

TEMA. Tubular exchanger manufacturers association

Question 74

What are two shell types?

Answer 74

Split flow, two pass shell with longitude baffle

Question 75

What efficiency to heat exchangers run at?

Answer 75

If they run at 70% that is very good

Question 76

What are some things that slow down the heat transfer efficiency

Answer 76

Thickness of the metal wall will influence the transfer, deposits or skill and dirt on the tubes would have low conductivity and slow the heat flow rate

Question 77

How do you size a tube and shell exchanger

Answer 77

shell diameter/tube length
24” to 197”
Is 24” diameter shell, 197” tube length

Question 78

How is heat transferred in a shell and tube heat exchanger?

Answer 78

Conduction

Question 79

What is the main problem with a fixed tubesheet.

Answer 79

Chemical wash is the only way to clean the shell side

Question 80

Why is copper commonly used in heat exchanger?

Answer 80

It has good thermal conductivity

Question 81

What should not be used to clean the tubes on a heat exchanger?

Answer 81

Steam

Question 82

Segment baffles are used to-

Answer 82

Dampen out vibrations, support the tube bundle, increase contact time, prevent dead bypass areas

Question 83

A heat exchanger using a corrosive fluid should have it flow though which?

Answer 83

The tubes