Mechanical

Question 1

What is a BTU

Answer 1

British Thermal Unit: the amount of heat to raise the temperature of 1 lbm of water by 1deg F.

Question 2

what is the coefficient of heat transmission?

Answer 2

the overall rate of heat flow through any combination of materials, including air.

Question 3

What is Conductance?

Answer 3

the number of BTU’s per hour that pas through 1 SqFt of homogeneous material of a given thickness when the temp differential is 1deg. (for SI units it = rate in watts at which heat passes through 1SqM)

Question 4

What is Conductivity?

Answer 4

the number of BTU’s per hour that pass through 1SqFt of homogeneous material 1 inch thick when the temp differential is 1deg F.

Question 5

What is the Dew Point?

Answer 5

The Temperature at which water vapor is the air becomes saturated & begins to condense to drops of water,

Question 6

what is the Dry Bulb Temperature?

Answer 6

The Temperature of the air-water mixture as measured with a standard dry-bulb thermometer.

Question 7

What is Isolation (thermal)?

Answer 7

the total solar radiation on a horizontal surface.

Question 8

What is Latent Heat?

Answer 8

heat that causes a change of state of a substance, such as the heat required to change water into steam.

Question 9

What is Resistance (thermal)?

Answer 9

The number of hours needed for 1 BTU to pass through 1 SqFt of material or assembly of a given thickness when the temperature differential is 1degF.

Question 10

What is Sensible Heat?

Answer 10

heat that causes a change in Temperature of a substance but not change of state. example: sensible heat req’d to raise the temperature of 1cubic foot of water from 50deg to 100deg is 50 BTUs.

Question 11

What is Specific Heat?

Answer 11

the number of BTU’s (jules) req’d to raise the temperature of a specific material by 1deg F. Specific Heat is a measure of materials capacity to store heat as compared with the storage capacity of water.

Question 12

what are 4 ways the human body looses heat?

Answer 12

CONVECTION: transfer of heat through the movement of fluid, either gas or liquid. eg when the air temp surrounding a person is less than their skin temp
EVAPORATION: occurs when moisture changes to a vapor as a person perspires or breathes.
RADIATION: is the transfer of heat energy through electromagnetic waves from one surface to a cooler surface.
CONDUCTION: is the transfer of heat through direct contact between two objects of different temps.

Question 13

what is the BTU equivalent of a met?

Answer 13

18.4 BTU/ hr

Question 14

how many Jules are in a BTU?

Answer 14

1.055

Question 15

what direction does heat always flow from?

Answer 15

high to low

Question 16

when surrounding temps are low (vs body temp) how does the body loose heat?

Answer 16

Looses temp via convection

Question 17

when surrounding temps are higher (vs body temp) how does the body loose heat?

Answer 17

looses temp via evaporation (sweat)

Question 18

what is the general (temperature) comfort range for a human?

Answer 18

69deg & 80deg

Question 19

what does the dry ball temp measure?

Answer 19

the air temperature

Question 20

what does the web bulb temp measure?

Answer 20

measuers humidity in the air

Question 21

what is relative humidity?

Answer 21

its the ratio of the percentage of moisture in the air to the maximum amount air can hold at a given temp. without condensing.

Question 22

what does air movement contribute to?

Answer 22

Air movement tends to increase evaporation and heat loss through convection.

Question 23

what is the general tolerability limits for humidity?

Answer 23

20% to 75%

Question 24

what is enthalpy?

Answer 24

the total amount of both sensible and latent heat in the air-moisture mixture. It tells us the total amount of heat that must be removed (cooling) or added (in heating) from conditioned air. Its graphed on the pschometric chart

Question 25

what is convection?

Answer 25

transfer of heat through movement of air (fluid). ie Hot air rising and cool air falling.

Question 26

what is conduction?

Answer 26

transfer of heat via direct contact between molecules.

Question 27

what is radiation?

Answer 27

transfer of heat energy through electromagnetic waves. Think a fire place.

Question 28

what does ‘R’ measure?

Answer 28

R= Resistance, its the number of hours needed for 1 btu to pass through a material of a given thickness when the temp differential is 1 deg F.

Question 29

what does ASHRAE stand for?

Answer 29

American Society of Heating, Refrigeration and Air Conditioning Engineers.

Question 30

What dies ‘U’ measure?

Answer 30

the measurement that calculates the coefficient of heat transmission,

Question 31

How do you calculate the conversion of ‘R’ to ‘U’?

Answer 31

U= 1/R

Question 32

How do you calculate the conversion of Conductance (‘C’) into ‘R’ (resistance)

Answer 32

R= 1/C

Question 33

what is the average heat gain of an occupant (office) at rest?

Answer 33

400 Btu/Hr

Question 34

what is sensible heat gain?

Answer 34

Sensible heat is heat exchanged by a body or thermodynamic system that changes the temperature. Its assumed to be 225 Btu/Hr per occupant. Its basically the heat gained from occupants of a building.

Question 35

what is latent heat gain?

Answer 35

Latent heat is the energy released or absorbed by a body or a thermodynamic system during a constant-temperature process.

Question 36

what is the heating value of natural gas & propane?

Answer 36

Gas: 1050 Btu/ft3
Propane: 2500 Btu/ft3

Question 37

heating oil is rated how?

Answer 37

grades: 1 threw 6, lower the number the more refined.

Question 38

what is the general heating value of heating oil?

Answer 38

~137,000 Btu/ Gal

Question 39

What is the heating equivalent for electricity?

Answer 39

3413 Btu/kW

Question 40

what is a degree day?

Answer 40

its a measure of the approximate average yearly temperature difference between the outside & inside in a particular location.

Question 41

what is compressive refrigeration?

Answer 41

its based upon the transfer of heat during the liquefaction and evaporation of a refrigerant. As a refrigerant in a gas form is compressed, it liquefies and releases latent heat as it changes state. As the liquid expands and vaporizes back to a gas, it absorbs latent heat from the surroundings into the gas.

Question 42

what are the 3 major components of a compression refrigeration cycle?

Answer 42

COMPRESSOR: takes the refrigerant in a gas form and compresses it to a liquid
CONDENSER: The coil where the latent heat is released.
EVAPORATOR: Where the liquid is expanded (back to a gas) and the latent heat is absorbed.

Question 43

What is refrigeration by absorption?

Answer 43

produces chilled water & is accomplished by the loss of heat when water evaporates. This evaporation is produced in a closed system by a weak salt solution that draws water vapor from the evaporator.

Question 44

what is 1 ton of refrigeration mean?

Answer 44

its the cooling effect obtained when 1 ton of 32deg ice melts to water at 32deg F in 24hr. Its roughly equivalent to 12,000 Btu/hr. In general the required capacity of a refrigeration system can be determined by dividing the total heat gain by 12k.

Question 45

what is a Direct Expansion (DX) system?

Answer 45

passes non ducted air to be cooled over the evaporator and back into the room (think residential units).

Question 46

what is an All-Air System?

Answer 46

it heats or cools spaces by conditioned ir alone. Heat is transported to the space with the supply & return air ducts. The most basic type of this system is the constant
volume single duct.

Question 47

what is a dual duct (high velocity) system?

Answer 47

Basically two ducts go to each room/ zone (one cool air, & one hot air) and there is a mixing box that attaches to a thermostat that merges the two types of air to get precise temp. This system can respond well to dramatic changes in temps throughout the building.

Question 48

what is a reheat (constant volume) system?

Answer 48

the system takes return air & fresh outdoor air & cools & dehumidifies the mix which is then distributed in a constant volume. The re-heat portion takes place at the space.

Question 49

what is the suggested area size that should be set aside for mechanical rooms?

Answer 49

3% to 9% of the gross building area.

Question 50

what is a displacement ventilation system?

Answer 50

supply air is fed from the floor below (raised access floor) and the return is in the ceiling.

Question 51

what is heat flow?

Answer 51

heat the tends to flow from a hot area to a cool area.

Question 52

what is evaporation?

Answer 52

as a liquid vaporizes it takes heat from the surface along with it

Question 53

what is absolute humidity?

Answer 53

The amount of water vapor present in a unit volume of air, usually expressed in grams per cubic meter

Question 54

what is mean radiant temp?

Answer 54

add up the temp of the 4 walls in the room an divide by 4 for the average.

Question 55

how do you measure the heat that a light fixture puts off into a space?

Answer 55

measured in BTU/hr = 3.41 x Watts.

eg a 100 watt light bulb puts off 341 BTU/hr.

Question 56

how do you measure the heat that a motor puts off into a space?

Answer 56

2145 x horsepower of the equipment

Question 57

what is the shading coefficient of glass mean?

Answer 57

s a value that determines one type of thermal performance of a glass unit (panel or window) in a building. It is basically the ratio of solar gain (due to direct sunlight) passing through a glass unit to the solar energy which passes through 1/8” Clear Float Glass

Question 58

what does the expansion valve do in a DX system.

Answer 58

is a component in refrigeration and air conditioning systems that controls the amount of refrigerant flow into the evaporator thereby controlling the superheating at the outlet of the evaporator.

Question 59

what are the 3 things needed to determine the hourly flow though a building’s envelope?

Answer 59

• The rate @ which heat flows threw various assemblies (Resistance)
• the are of those assemblies
• the temp difference between the inside & outside.

Question 60

what is a ‘U’ factor?

Answer 60

measures thermal transmittance.

Question 61

what is the SHGC (Solar Heat Gain Coefficient)?

Answer 61

) is used in the United States and most commonly refers to the solar energy transmittance of a window or door as a whole, factoring in the glass, frame material (wood, aluminum, etc.), sash (if present), divided lite bars (if present) and screens (if present). SHGC may also refer to the solar energy transmittance of the glass alone (sometimes more specifically termed center-of-glass SHGC), in which case it is analogous to g-value.

Question 62

what is stack effect?

Answer 62

Stack effect is the movement of air into and out of buildings, chimneys, flue gas stacks, or other containers, resulting from air buoyancy. Buoyancy occurs due to a difference in indoor-to-outdoor air density resulting from temperature and moisture differences.

Question 63

what does a make-up air unit do?

Answer 63

these prevent a negative indoor air pressures by forcing air for the air thats exhausted from the process.

Question 64

what types of environments are air to air heat exchangers useful in?

Answer 64

cold weather.

Question 65

What is Dessicant Cooling?

Answer 65

They lower humidity w/ out having to resort to overcooling air. A sillica is heated to drive out moisture.

Question 66

what on average is the air exchange rate

Answer 66

6 to 10 times per hour

Question 67

what is a degree day?

Answer 67

Heating Degree Days (HDD) for a particular climate is obtained by subtracting each day’s mean outdoor dry bulb temperature from the balance point temperature; this result is the number of HDDs for that day. For example, if the maximum and minimum outdoor dry bulb temperatures of a place were 80°F and 20°F respectively, and the balance point temperature were 65°F, then HDD of the place for that particular day would have been 65-[(80+20)/2] = 15. If the mean outdoor dry bulb temperature is equal to or higher than the balance point temperature, then the HDD would be equal
to 0.

Question 68

what is the emissivity of an object?

Answer 68

it measures its ability to absorb & then radiate heat.

Question 69

what are degree days?

Answer 69

Degree Days are used to determine the heating requirements of a building. It’s the
amount by which the average outdoor temp is below 65ºF for one day. The more
days it’s below that, the larger number of degree days it has

Question 70

what is low-e glazing?

Answer 70

double glazing with a thin film in the glazing cavity that allows
visible and near infrared to be transmitted
• In cold climates: apply to the inside pane of glass
• In warm climates: apply to the outside pane of glass
• As objects in the room are heated and emit long wave radiation, the film
prevents the loss of this heat by reflecting it back into the room
• When used with argon gas the system is very efficient

Question 71

what is thermal bridging?

Answer 71

• A fundamental of heat transfer where a penetration of the insulation layer by a
highly conductive or non-insulting material takes place in the Spartan between the
interior and eater environments of the building enclosure

Question 72

what direction does heat always flow?

Answer 72

heat always flows from hot to cold. A heated
gas, such as air, flows upward by convection; however heat will conduct and radiate in
any direction, but always from hot to cold.

Question 73

what are factors involved in sensible heat load?

Answer 73

air via ventilation, infiltration, Solar heat gain via glass, lights & appliances, Body heat

Question 74

What approach should be used to most effectively limit low-frequency sounds in an HVAC system?

Answer 74

Duct Linings

Question 75

what is an air cushion or expansion tank?

Answer 75

its a closed tank containing air , usually located above the boiler. When water in the system is heated, it expands, compressing the air in this tank. This tank facilitates not needed to constantly open & close a relief valve.

Question 76

what is the Energy Efficiency Ratio (EER) ?

Answer 76

the ratio of the net equipment cooling capacity in BTU/hr to the total rate of electricity input in watts

Question 77

what is the Coefficient of Performance? (COP)

Answer 77

its defined for cooling as the ratio of the rate of heat removal to the rate of energy input in constant units

Question 78

what is SEER?

Answer 78

Seasonal Energy Efficiency Ratio: it measures the number of BTU/hr removed for each watt of energy input, averaged over the cooling season.

Question 79

what is a direct refrigerant system?

Answer 79

not ducting as the refrigeration cycle is contained within the space it serves. small systems..think hotel rooms

Question 80

curved baffles in ducts are called what?

Answer 80

turning vanes

Question 81

what is the comfort zone for humans?

Answer 81

65d to 78d 25% to 75%

Question 82

what is the max pitch for an escalator?

Answer 82

30deg

Question 83

what is the max pitch for an escalator?

Answer 83

30deg

Question 84

what is adiabatic wet-bulb temperature?

Answer 84

(ENTHALPY STAYS THE SAME) is the temperature a volume of air would have if cooled adiabatically to saturation and then compressed adiabatically to the original pressure in a moist-adiabatic

Question 85

how do you calculate degree days (DD) for a specific day?

Answer 85

its the difference between an indoor temp of 65deg and the average outside temp for a 24 hr period. eg:
65-(24hr average in deg) = x

Question 86

what does refrigeration by absorption produce?

Answer 86

chilled water

Question 87

for larger building what are the 4 types of all-air systems?

Answer 87

VAV: one duct and dampers in each zone/ room
DUAL DUCT (high velocity): two parallel ducts w/ mixing box
REHEAT (Constant Volume): one (cool) duct per zone and a re-heat box at the zone ready for when demanded. more efficient than a Dual Duct. All air in a building in a constant velocity and temp, the heat is added as needed.
MULTIZONE: supplies air to a central mixing unit where separate heating and cooling coils produce hot & cold air streams.

Question 88

what is a displacement ventilation system?

Answer 88

supply air originates at the floor level & rises to return at the ceiling.

Question 89

what is an Energy Recovery Ventilator Or a heat exchanger?

Answer 89

reclaims waste energy from the exhaust air stream & uses it to condition incoming fresh air.

Question 90

why do we insulate air ducts?

Answer 90

Reduces heat loss/heat gain of air during delivery
• Isolates air nosies in duct from spaces
• Prevents condensation on outside for cool-air ducts

Question 91

What happens to latent heat when you change a liquid to a gas?

Answer 91

its absorbed

Question 92

What happens to latent heat when you change a gas to a liquid?

Answer 92

its released