Boilers

Question 1

What are cast iron sectional boilers used for?

Answer 1

Used for steam and hot water heating systems in small - medium sized residential buildings

• to heat buildings
• provide domestic hot water

Question 2

What is the assembly / disassembly like for cast iron sectional boilers?

Answer 2

They are made using sections which can be assembled on site

–> also means they can be disassembled, moved through tight spaces, and reassembled

Question 3

How would cast iron sectional boilers be used in larger buildings?

Answer 3

You would need multiple cast iron boilers that are designed to operate in parallel

Question 4

What are the benefits of using multiple cast iron boilers to meet the heating load for larger buildings?

Answer 4

allows for greater fuel efficiency, because each boiler is only brought online to meet its demand

Question 5

Describe the general construction of cast-iron sectional boilers.

Answer 5

• built up from multiple hollow cast-iron sections
• sections are connected to each other by push nipples in the upper and lower parts of the sections
• sections held together with tie rods/screw jacks
• water & steam flow freely from one section to the other through the push nipples
• sections are place side by side OR stacked one above the other

Question 6

What are the 2 arrangements of the sections in cast-iron boilers?

Answer 6

1) vertical sectional boilers (bread slices ; side by side)

2) horizontal sectional boiler (pancakes ; one above the other)

Question 7

How are cast-iron boilers able to give maximum heat transfer from the gases to the heating surface?

Answer 7

• by exposing as large a surface as possible to the hot gases
• by lengthening the time of contact between the gases and the heating surface

Question 8

How does gas travel/transfer in cast-iron boilers?

Answer 8

• sections are placed on a base that contains the gas burners
• hot combustion gases travel upwards between the sections to the collector hood
• collector hood guides gases to the draft hood & into the uptake

Question 9

What do flue gas passages do in cast-iron sections?

Answer 9

increase the heat transfer

Question 10

Can cast-iron boilers have fins instead of gas passages?

Answer 10

Yes. There can be multiple different designs.

Question 11

What do fins do in boilers?

Answer 11

Fins cause the hot gases to swirl about causing a scrubbing action on the surface –> more effective heat transfer

Question 12

What part differs in different types of cast-iron boilers?

Answer 12

The front and rear sections of cast-iron boilers differ in design from the intermediate sections (“??? check this, pg. 2-5)

Question 13

What’s different about water leg & wet-bottom type boilers?

Answer 13

The front and rear sections have a burner opening (water leg) & cleanout opening (wet-bottom)

Question 14

T/F: Gas flow in water leg & wet-bottom boilers is considerably longer than the flow in boilers with sections suspended above the burners.

Answer 14

True

Question 15

How does hot gas travel in water leg boilers?

Answer 15

• gas travels from the furnace up between the water legs of the sections to the outer gas passages
• gas travels forward from the upper part to the front
• gas flow gets reversed at the front and goes back through the centre passages
• gas the exits the boiler through the rear

Question 16

T/F: Do some types of boilers with water legs require extra support?

Answer 16

Yes, it depends on the internal boiler pressure

Question 17

What are push nipples?

Answer 17

Short pieces of pipe that are smooth & tapered so that they can enter the holes in the boiler sections easily and form a tight seal

Question 18

What are cleanout slots in wet-bottom boilers?

Answer 18

Small openings / access points that are designed to allow the removal of slag & clean out the furnace bottom.

• closed off during operation

Question 19

T/F: Horizontal sectional cast-iron boilers need more than one nipple to connect the two sections.

Answer 19

False, only need one nipple to connect.

Question 20

How does hot gas travel through horizontal boilers?

Answer 20

Hot gas travels upwards in a zig zag pattern through the gas passages

Question 21

What are the advantages of cast-iron boilers?

Answer 21

• higher resistance to corrosion (compared with steel)
• ease of assembly (doesn’t require much skill)
• choice of assembly location (boiler can be shipped as a unit or by pieces to assemble on site)
• possibility of enlarging boiler capacity (can add more boilers)

Question 22

What is a disadvantage of cast-iron boilers?

Answer 22

Limited in the maximum pressure they can endure

Question 23

When do heating boilers attain maximum efficiency?

Answer 23

When they are operated continuously at full load

–> during 90% of the heating season, only 60% or less of the heating plant capacity is required

Question 24

T/F: A single, large capacity boiler will operate near full capacity only 40% of the time.

Answer 24

False, it will only operate near full capacity 10% of the time

Question 25

What do large capacity boilers do when it's not operating at full capacity?

Answer 25

It will operate at reduced load intermittently or continuously

Question 26

T/F: Maximum efficiency of boilers are hardly ever achieved.

Answer 26

True

Question 27

What is efficiency in terms of boiler capacity?

Answer 27

the percentage of the heat released during combustion that is actually transferable to the boiler water

Question 28

What is more efficient: a single large capacity boiler or several small boilers

Answer 28

several small boilers

Question 29

What are the advantages of having multiple heating boiler plants?

Answer 29

1) improved thermal efficiency 2) if one boiler fails, the other ones can continue to carry the load 3) parts (burners/controls/etc.) are more simple and cheap 4) smaller water content (less destructive if there's a failure) 5) less space required 6) relatively light (no need for a strong foundation) 7) easily moveable 8) easy installation / disassembly

Question 30

T/F: Each boiler in multiple boiler plants is tied with the primary / main hot water circulating system

Answer 30

True

Question 31

T/F: Each boiler in a multiple boiler plant does not have its own secondary circulating pump.

Answer 31

False - Each boiler will have a secondary circulating pump

Question 32

How are multiple boilers operated / controlled?

Answer 32

operated in sequence by a step controller, which is controlled by an indoor-outdoor thermostat

Question 33

What does an indoor-outdoor thermostat do?

Answer 33

Senses the outdoor temperature & the heating system supply water temperature --> so that heat supplied by boilers to the water balances the heat lost from the building

Question 34

What is a cast-iron modular boiler?

Answer 34

A type of multiple small use capacity boilers, but instead use multiple horizontal sectional cast-iron boilers to for a single unit (the modular boiler)

Question 35

How are modular boilers constructed?

Answer 35

They are connected side-by side between the supply header and return header of the hot water heating system - flow through all modules is continuous - each module has its own burner system and controls

Question 36

How are cast-iron modular boilers controlled?

Answer 36

By a step controller which starts or stops modules in sequence as load demand increases or decreases. - they are individually operated sections that are controlled in sequence

Question 37

What was a main reason why condensing boilers were not popular before the 1990's?

Answer 37

Because of the high cost

Question 38

Why are condensing boilers more costly?

Answer 38

Because.... - large heat exchangers (this would cause moisture in the gases to condense out) - higher corrosive actions (due to the condensed moisture) // need for materials that can withstand the corrosion

Question 39

MC: Cast-iron sectionals have flue gas passages which... a) are often termed 'breeching' b) increase heat transfer c) receive radiant heat only d) act as boiler water legs

Answer 39

(b)

Question 40

MC: a machined and slightly tapered piece of pipe found in sectional heating boilers is referred to as a: a) tie rod b) tapered brushing c) push nipple d) cleanout

Answer 40

(c)

Question 41

MC: An advantage of a cast iron boiler is.... a) its large capacity b) light weight resulting in lesser foundation requirements c) its ability to withstand high pressure d) the choice of assembly location

Answer 41

(d)

Question 42

MC: Small capacity heating boilers operate most efficiently at.... a) continuous full load b) any type of load c) approx. 75% load d) approx. 65% load

Answer 42

(a)

Question 43

MC: A modular cast-iron heating boiler.... a) has a number of burners which start and stop simultaneously b) consists of a number of individually operated sectional boilers c) cannot be enclosed in a single casting d) does not have continuous water flow through each module

Answer 43

(b)

Question 44

MC: Cast-iron boiler sections maximize heat transfer by... a) using for push nipples per section b) vertical firing c) exposing as large a surface as possible to the hot gases d) utilizing an external furnace

Answer 44

(c)

Question 45

What is the maximum allowable working pressure (MAWP)?

Answer 45

The pressure that the boiler has been designed to withstand while in operation. - it is stamped on the boiler and must not be operated above this pressure

Question 46

What is a dry-back boiler?

Answer 46

A firetube boiler that has brickwork or insulated metal at the rear reversing chamber to redirect the flue gases.

Question 47

What is an externally fired boiler?

Answer 47

A boiler that has the combustion chamber located outside of the shell or drum and surrounded by brickwork.

Question 48

What are firetubes?

Answer 48

These are the smaller diameter cylindrical tubes through which the flue gas travels inside and are surrounded by water on the outside.

Question 49

T/F: The distinction between power boilers and heating boilers is determined by code.

Answer 49

True --> ASME code states they are distinguished by the pressure and temperature limitations for each type of boiler

Question 50

What are the factors involved in the process of boiler designation?

Answer 50

- pressure limitations - temperature limitations - energy input - size - capacity - design - construction - application of the boiler

Question 51

What can make hot water supply boilers exempt from the regulations according to the Canadian Standards Association (CSA) Boiler Code?

Answer 51

if they are less than a given size and below a given energy input

Question 52

What are the differences between Power boilers and Heating boilers?

Answer 52

Power Boilers: built to ASME Section 1 code requirements - steam boiler: pressure EXCEEDS 103 kPa (14.7 psi) - hot water boiler: pressure EXCEEDS 1100 kPa (160 psi), and temperature EXCEEDS 121 degrees C Heating Boilers: built to ASME Section 4 code requirements - steam boiler: pressure DOES NOT EXCEED 103 kPa (14.7 psi) - hot water boiler: pressure DOES NOT EXCEED 1100 kPa (160 psi), and temperature DOES NOT EXCEED 121 degrees C

Question 53

Are hot water supply boilers (aka water heaters / hot water tanks) generally considered to be heating boilers?

Answer 53

Yes (generally, unless one of three requirements are exceeded)

Question 54

What would make a hot water supply boiler be considered as a power boiler?

Answer 54

If it exceeds one of the following: - capacity 450 litres - temperature 99 degrees C - energy input 58.6 kW

Question 55

What classifies a boiler as a firetube boiler?

Answer 55

If it has a shell containing straight tubes through which hot gases travel from the fire to the stack

Question 56

How does the water heat up in firetube boilers?

Answer 56

The water surrounds the firetubes and the heat from the hot gases inside the tubes passes through the tube walls to the water

Question 57

T/F: The horizontal return tubular (HRT) boiler was one of the earliest forms of firetube boilers.

Answer 57

True

Question 58

How do horizontal return tubular (HRT) boilers work?

Answer 58

Hot gases are created by the burning coal that was under the boiler drum, and returned through the firetubes to the boiler stack --> two-pass boiler --> encased in bricks to contain the flame (externally fired boiler)

Question 59

Why are horizontal return tubular (HRT) boilers no longer made?

Answer 59

Because they were labour intensive to make and inefficient to operate --> due to the bricks - heat loss through the bricks was too high

Question 60

What was the evolution of the HRT boiler?

Answer 60

HRT --> internally fired boiler --> Scotch marine boiler Internally fired boiler: enlarged the return flue (of the HRT), put the firing grate inside, and made the furnace surrounded by water Scotch Marine boiler: combined both boilers... internally fired, had a large heating surface, long gas travel, no external brickwork

Question 61

Describe a locomotive boiler.

Answer 61

- internal furnace (almost completely surrounded by water) - hot gases travel from the furnace --> firetubes --> smokebox (barrel) --> smoke stack - uptake area has a damper for combustion control - top of furnace has a crownsheet (under stretch force during operation)

Question 62

What was an advantage of the locomotive boiler?

Answer 62

- absence of brickwork, refractory, or 'setting' - led to portable boilers

Question 63

What is the difference between a locomotive boiler and a firebox boiler?

Answer 63

Similar configuration, but the firebox boiler had a 'pass' that was added --> firebox more self-supporting than locomotive --> the pass led to more support above the furnace and eliminated need for the crownsheet

Question 64

What were the types of stays that firetube boilers required for extra support (due to use of endplates & eliminating crownsheets)?

Answer 64

- through or longitudinal stay (rods attached internally, tubesheet-tubesheet) - diagonal stays (rods attached at corners of the shell) - stay bolts (attached to each plate to add strength) - firetubes

Question 65

What are the types of Scotch Marine boilers?

Answer 65

1) wet-back boiler 2) dry-back boiler (more popular because of the simple construction / design)

Question 66

T/F: Passes in firetube boilers rarely exceed 4.

Answer 66

True

Question 67

What are the advantages and disadvantages of firetube boilers?

Answer 67

Advantages: - simple and rugged construction - relatively low cost - large amount of stored heat in water makes it possible to meet load changes quickly Disadvantages: - relatively slow in coming up to operating pressure & temperature because of the large water capacity - disastrous if there is a pressure failure (lots of water will turn to steam)

Question 68

What are vertical firetube boilers popular for?

Answer 68

The supplier of small quantities of high-pressure steam

Question 69

Describe the construction & gas flow of a vertical firetube boiler.

Answer 69

- cylindrical shell with tubes connecting the upper and lower tube sheets - hot gases travel through the tubes from the combustion chamber --> uptake and give off eat to the surrounding water - upper part is used as a steam collector space before It leaves the boiler --> upper part of the tubes get cooled by the steam

Question 70

How should you take care of / fire up a vertical firetube boiler?

Answer 70

special care should be taken during the warm-up period.... boiler should be fired up very slowly until steam is being produced in order to avoid overheating the tubes & upper sheet

Question 71

What are steel plate heating boilers?

Answer 71

A type of small capacity, vertical firetube boilers, used for hot water heating systems in residences / small apartments.

Question 72

Describe the construction and gas flow of a steel plate heating boiler.

Answer 72

- divided into two parts: lower (combustion chamber / furnace) and upper (boiler filled with water) - heat passes from the hot combustion gases to the water in the boiler - hot gases travel upwards through the firetubes --> give heat to tube walls - circulating pump in the lower part pushes the water upward around the tubes, collects the heat, and leaves the boiler through the top outlet

Question 73

T/F: Vertical firetube boilers are a single pass boiler.

Answer 73

True. The gases travel through the boiler in one direction only.

Question 74

T/F: Vertical firetube boilers have a disadvantage but horizontal firetube boilers have an advantage when floor space is limited.

Answer 74

False. - Vertical boilers have advantage with limited floor space because they only occupy a small area - horizontal boilers take up more floor space but have an advantage when there's less ceiling height

Question 75

What are vertical tubeless boilers used for?

Answer 75

dry-cleaning and laundry applications

Question 76

What are the advantages of vertical tubeless boilers?

Answer 76

- simple and packaged design - ready for hook-up with automatic controls - occupies little floor space

Question 77

Describe the construction and gas flow in a vertical tubeless boiler.

Answer 77

- vertical cylindrical shell thats closed at the top and bottom - central pipe inside the shell that is used as a furnace - forced air burned at the top of the boiler (usually) - secondary pipe contains the water and is outside (concentric / surrounding) the inner furnace pipe - firing occurs in the furnace (central) pipe in a DOWNWARD direction - hot combustion gases create a swirling motion as the pass down the flame retainer rings - gas returns up for a second pass outside of the outer (water) pipe - gas bases through the fins on the outer water pipe for more heat transfer - gas reaches a steam space at the top and exit from a chimney

Question 78

T/F: Vertical tubeless boilers can come in electric, oil, or gas applications.

Answer 78

True. - gas is most popular in Western Canada

Question 79

What are the steam pressure and power ranges for vertical tubeless boilers?

Answer 79

steam pressure: 101.3 kPa - 1050 kPa Power: 4.5 kW - 75 kW

Question 80

Why are modern firetube boilers marketed as packaged units now?

Answer 80

Previously, the basic boiler was manufactured at the factory and shipped to site..... Required refractory, insulation, boiler fittings, controls, and firing equipment to be installed. - local tradesmen didn't know how to build properly - often used incorrect pieces / not suitable - boiler didn't work up to expectations

Question 81

What is a packaged firetube boiler?

Answer 81

A boiler supplied by the manufacturer and comes as a completely equipped unit that's mounted on it's own base, and ready for operation as soon as it's placed in the boiler room / properly hooked up. - however, operation and control system is most often completed at the buyer's site

Question 82

MC: The maximum pressure for a low-pressure steam boiler... a) 103 kPa (14.7 psi) b) 160 kPa (23.2 psi) c) 250 kPa (36.2 psi) d) 1100 kPa (160 psi)

Answer 82

(a)

Question 83

MC: The main part of a high-pressure firetube boiler is called the.... a) windbox b) furnace c) shell d) drum

Answer 83

(c)

Question 84

MC: The pressure and temperature limiting factors for steam units used for heating and hot water heating boilers are... a) 121 kPa or 103 degrees C for steam units, and 1100 kPa for hot water units b) 1100 kPa for steam units, and 103 kPa or 121 degrees C for hot water units c) 103 kPa for steam units, and 1100 kPa or 121 degrees C for hot water units d) 1100 kPa or 121 degrees C for steam units, and 1100 kPa for hot water units

Answer 84

(c)

Question 85

MC: In a vertical firetube boiler, the steam space is located... a) in a separate chamber b) in a compartment on the side c) at the lower part of the shell d) at the top of the shell

Answer 85

(d)

Question 86

MC: The forerunner of the modern packaged firetube heating boiler was the... a) internally fired horizontal return tubular (HRT) boiler b) internally fired scotch marine boiler c) externally fired scotch marine boiler d) externally fired horizontal return tubular (HRT) boiler

Answer 86

(b)

Question 87

MC: The chief advantage of a packaged boiler is... a) its compactnesss b) mass production ability c) higher pressure rating d) its higher factor of safety

Answer 87

(b)

Question 88

MC: In a vertical firetube boiler... a) the water passes through the inside of the tubes b) the steam accumulates in the lower part of the boiler shell c) the horizontal shell has vertical firetubes at each end d) the upper part of the tubes are cooled by the steam

Answer 88

(d)

Question 89

MC: The 'pipe' is a common term for... a) the combustion chamber of a vertical tubeless boiler b) the drain on an immersion boiler c) the water jacket of a vertical boiler d) the steam outlet of an electrode boiler

Answer 89

(a)

Question 90

MC: In which of these boilers does the firing occur in a downward direction? a) immersion electrode b) vertical electric c) vertical firetube d) vertical tubeless

Answer 90

(d)

Question 91

MC: One feature of a vertical tubeless boiler that would not be found on the vertical firetube boiler is... a) water level control b) burners c) refractory d) water column

Answer 91

(c)

Question 92

What is a main difference between firetube / watertube boilers and electric boilers?

Answer 92

Firetube / watertube boilers: burn fuel in a boiler furnace to heat water or to produce steam Electric boilers: uses energy from an electrode or an element to generate heat

Question 93

Why / where are electric boilers generally used?

Answer 93

used in hospitals, schools, hotels --> provide steam for heating, sterilizing, laundry, and kitchen equipment --> not usually used in hot water heating systems

Question 94

What are the advantages of electric boilers?

Answer 94

- very compact and don't require furnace space/chimney - no fuel storage space required - quick and easy to install - efficient heat transfer : high percentage (98%) of the energy delivered by electricity is absorbed as heat in the boiler - produce no pollution (ex. smoke, dust, ash) - silent in operation - safe because no possibility of furnace explosion - metal surfaces never get hotter than the water temperature (any dissolved solids end up as sludge, not scale) - no damage caused by low water level --> because electric current will stop flowing in the event of low water

Question 95

What are the disadvantages of electric boilers?

Answer 95

- high comparative cost of the required electricity - limited in pressure to ~2100 kPa (304 psi) --> due to effect of high temperature on the electrodes/elements

Question 96

What is the general arrangement / construction of an electrode - type boiler?

Answer 96

- electrodes are located in a central generating chamber - power is supplied to the terminals which are connected to the electrode adapters - electrode adapters pass through insulators to the outside of the shell

Question 97

Describe the generating zone in an electrode-type electric boiler.

Answer 97

The generating zone consists of an open bottom compartment welded to the pressure vessel at the top. - has 2 cylindrical chambers: 1) the generating compartment (inner chamber) 2) the regulating compartment (outer chamber) - electrodes hang down into the generating chamber and are supplied with electric power (from terminals at the top of the unit)

Question 98

What is the water in electrode-type electric boilers?

Answer 98

Pure water does not conduct electricity, so a predetermined amount of electrolyte (NaCl) is dissolved in the water and brought into the unit through the salinity feeder.

Question 99

T/F: Water levels in the two chambers of an electrode-type electrical boiler are different before the power is turned on.

Answer 99

False. The water levels would be the SAME or balanced before the power is turned on.

Question 100

Describe the heat flow of an electrode-type electric boiler.

Answer 100

- heat is generated as the electric current passes from one electrode to the other through the water - steam leaves the generating zone through the steam outlet - steam goes to the regulator where it is reduced in pressure and returned to the regulating zone of the unit - any air is exhausted to the atmosphere through the air vent

Question 101

What happens in an electrode-type electric boiler when steam generation exceeds the demand?

Answer 101

- pressure in the generating zone will build up until it reaches pressure in the regulating zone (set by a regulator) - regulator will begin to close and reduce the amount of steam entering the regulating chamber - there will be an imbalance in the system until the higher pressure in the generating zone causes water to flow out the bottom of the chamber into the regulating zone - causes water level to expose more electrode surface, less current to flow, and less steam to be generated

Question 102

What happens in an electrode-type electric boiler when the steam generation demand increases?

Answer 102

- drop in generator zone pressure causes the regulating zone pressure to force water into the generating zone - water will cover more of the electrodes, cause more current to flow, and more steam gets generated

Question 103

What maintains the desired regulation zone pressure in electric boilers?

Answer 103

The regulating valve

Question 104

T/F: The method of water level adjustment in electrode-type electric boilers cause the boiler steam pressure to be self-regulating

Answer 104

True

Question 105

When is the water level the same in both zones in an electric boiler that is powered on?

Answer 105

Only when the demand is at maximum

Question 106

In simple terms, how does an electric boiler function with water & electrodes?

Answer 106

Fully submerged electrodes generate maximum steam and electrodes not submerged generate no steam

Question 107

What is the maximum pressure that immersion-type electric boilers are manufactured to withstand?

Answer 107

up to 2100 kPa (304 psi)

Question 108

How is an immersion-type electric boiler different from an electrode-type electric boiler?

Answer 108

No electric current travels through water in immersion-type boilers. --> instead, the electric current flows through a heating element(s) that is entirely submerged under the boiler water level (ex. like an electric tea kettle)

Question 109

How are immersion heaters controlled?

Answer 109

By turning on and off the power supply to one or two+ elements

Question 110

T/F: The packaged boiler concept is not used for immersion heater types.

Answer 110

False. The packaged boiler concept is used for some immersion heater types, and may include controls, feed pumps, and a condensate tank

Question 111

Are immersion type heaters difficult to access for maintenance?

Answer 111

No, they are easily accessible for maintenance or replacement.

Question 112

T/F: Water treatment is more critical for electrode-type boilers than immersion-type boilers.

Answer 112

False. Water treatment is more critical for immersion-type boilers because the element temperature will exceed the water temperature and scale tends to form on the elements.

Question 113

Can connections to the heating elements in immersion-type boilers be rearranged?

Answer 113

Yes, they can be rearranged to provide full load operation on various voltages.

Question 114

MC: An immersion type electric boiler has: a) electrodes b) no steam space c) elements d) tube bundles

Answer 114

(c)

Question 115

MC: The load on an electric-type boiler is maintained by the... a) amount of steam space in the boiler b) amount of electrode covered by water c) outdoor temperature d) amount of current flowing through the elements

Answer 115

(b)

Question 116

MC: Output of an immersion-type electric boiler is regulated by altering the... a) water level relative to the electrodes b) water level relative to the elements c) amount of current flowing through the water d) amount of current flowing through the elements

Answer 116

(d)

Question 117

MC: A main disadvantage of an electric boiler is the... a) high cost of manufacturing b) high cost of the electricity c) inefficiency of the energy transfer d) space requirement per unit output

Answer 117

(b)

Question 118

MC: Electric boilers... a) require tall stacks for pollution dispersement b) tend not to be very compact c) require soot blowers when the fuel is coal d) have energy conversion efficiencies close to 100%

Answer 118

(d)

Question 119

MC: A salinity feeder is an important component of a/an ____ boiler. a) vertical tubeless b) electrode type electric c) vertical firetube d) immersion electric

Answer 119

(b)