Lecture 08_ Air Condition & Ventilation.pdf

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ARC 3522
KEMUDAHAN BANGUNAN LANJUTAN
BACELOR SAINS SENI BINA DENGAN KEPUJIAN

Lecture 08:

AIR CONDITIONING
& VENTILATION
 ARC 3522
KEMUDAHAN BANGUNAN LANJUTAN
BACELOR SAINS SENI BINA DENGAN KEPUJIAN

Topics to cover
Passive and active system
History of air conditioning
Refrigeration principles
Thermal Comfort
Psychrometric chart
Heat transfer
Cooling Load
Solar gain
Internal Gain
U value
Sensible vs Latent load

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PASSIVE AND ACTIVE SYSTEM

Passive Ventilation and cooling: using natural forces – cross
ventilation, thermal mass system, night ventilation etc
Active Ventilation and cooling: use energy – MVAC, radiant
cooling etc

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PASSIVE DESIGN

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PASSIVE DESIGN

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PASSIVE DESIGN

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PASSIVE DESIGN

Building Orientation

Building Form

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PASSIVE DESIGN

Building Envelope Shading Elements

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PASSIVE DESIGN

Building Materials

Insulation

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PASSIVE DESIGN

Window Characteristics

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PASSIVE DESIGN

Vegetation (exterior & interior)

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PASSIVE DESIGN

Daylighting

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PASSIVE DESIGN

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AIR CONDITIONING (Active Cooling)

the process of altering the properties of air (primarily
temperature and humidity) to more favourable conditions.

in ancient Egypt, reeds were hung in windows and were
moistened with trickling water. The evaporation of water
cooled the air blowing through the window.

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ACTIVE COOLING

Ancient China –
C-Rotary fan with 3m dia. manually powered.
Water powered fan wheel.

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ACTIVE COOLING

In 1842, Florida physician John Gorrie used compressor
technology to create ice, which he used to cool air for his
patients in his hospital in Apalachicola, Florida.
Over several years of research, he designed a steam-
powered machine that compressed air in a small chamber,
then released the pressure, allowing the air to rapidly expand
and absorb heat from water surrounding the airtight
chamber.
He hoped eventually to use his ice-making machine to
regulate the temperature of buildings.

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ELECTROMECHANICAL COOLING

In 1902, the first modern electrical air conditioning unit was
invented by Willis Haviland Carrier.
Carrier began experimenting with air conditioning as a way
to solve an application problem for the Sackett-Wilhelms
Lithographing and Publishing Company in Brooklyn, New York,
and the first "air conditioner“.
Instead of sending air through hot coils, Carrier sent it through
cold coils (ones filled with cold water). The air blowing over
the cold coils cooled the air, and one could thereby control
the amount of moisture the colder air could hold. In turn, the
humidity in the room could be controlled. The low heat and
humidity helped maintain consistent paper dimensions and ink
alignment.
Over time, air conditioning came to be used to improve
comfort in homes and automobiles as well. Residential sales
expanded dramatically in the 1950s.
Dr. Willis Carrier
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BOYLES LAW – Volume & Pressure

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REFRIGERATION PRINCIPLES

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REFRIGERATION PRINCIPLES

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AIR CONDITIONING

In common use, an air conditioner is a device that lowers the
air temperature.

Air conditioning (often referred to as A/C or AC) is the process
of altering the properties of air (primary
temperature and humidity) to more comfortable conditions,
typically with the aim of distributing the conditioned air to an
occupied space such as a building or a vehicle to
improve thermal comfort and indoor air quality.

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ENERGY USE FOR COOLING

40-50% of energy use is for cooling.
1hp = 750w
1 hour = 750w x 1 hr = 750wh = 0.75kwH
Scenario:
If TNB charge 33.40 sen per kwh (moderate usage) so
0.75 x 33.4sen = 25 sen per hour
On air-cond, 6 hours a day = RM1.50/day or
RM45/month
If you have 3 no. 1hp AC used = RM135/month
If you use 8 hours/day = RM180/month.
as a building or a vehicle to improve thermal
comfort and indoor air quality.

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ENERGY USE FOR COOLING

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Window Unit

Can be described as self-contained unit.
Primarily designed for cooling one room only and for free air
delivery (without ducts).
Need opening in windows/walls.
Consist of compressor, a condenser, an evaporator, a
metering device, a fan and motor (blower assembly)
Not used much today.

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Split Unit A/C

Each indoor unit has outdoor unit.
Multi split, one outdoor unit with several indoor units.
No humidity control, no ventilation of fresh air.
Water is wrung out of the air and collected by tubes and
drained to the exterior.

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Split Unit A/C

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Central AC / HVAC

Where air is cooled centrally, and distributed
throughout building through ducting system.
Fresh air can be mixed and introduced into the
building

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Central AC / HVAC

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Central AC / HVAC

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Central AC / HVAC

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Central AC / HVAC

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Central AC / HVAC

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Central AC / HVAC

Compressor

Cooling Tower

Ducting

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Central AC / HVAC

Compressor
The compressor is the heart of your HVAC system. It
transfers heat from the refrigerant (the liquid that cools the
air) to the condenser (the device that takes heat away
from the air).

The compressor compresses (squeezes) refrigerant into
a smaller volume, which raises its pressure and
temperature—and subsequently increases its energy
efficiency. This process also happens in reverse when it
brings down the temperature again after cooling has
occurred.

In addition to moving heat around, compressors can also
provide cooling by carrying out evaporation: taking
moisture from the inside air and turning it into water vapor
outside your home where it can be easily dispersed into Lecture 08:
dryer areas such as bathrooms or kitchen cabinets AIR CONDITIONING & VENTILATION
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Central AC / HVAC

Cooling Tower
A cooling tower gets rid of unwanted heat from chillers.
Specifically, how do cooling towers work – as a heat removal
device that utilizes water as a heat transfer medium. Heat is
removed from the water supply through evaporation.

To do this, it pumps water to the top of the tower and moves
down flow plates to the basin. Air goes through the plates
and over the water, which releases heat via evaporation as it
cycles through the cooling tower. Latent heat from
vaporization is released when warm water and cool air
mixes.

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Central AC / HVAC

Ducting
Ducts are conduits or passages used in heating,
ventilation, and air conditioning (HVAC) to deliver and
remove air. The needed airflows include, for example,
supply air, return air, and exhaust air. Ducts commonly also
deliver ventilation air as part of the supply air.

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Central AC / HVAC

Ducting
Ducts are conduits or passages used in heating,
ventilation, and air conditioning (HVAC) to deliver and
remove air. The needed airflows include, for example,
supply air, return air, and exhaust air. Ducts commonly also
deliver ventilation air as part of the supply air.

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OTHER SYSTEMS (UPDATED)
VAV SYSTEM
Variable air volume systems or VAV boxes vary the air flow rates in different
sections of a building, but keep all the air at the same temperature. A VAV box
works by varying the airflow and sending it through the HVAC system and
ductwork to different zones in the building. It maintains a constant
temperature for the entire facility while changing the feel of each zone by
sending different air flows to each one.

VRF SYSTEM
A variable refrigerant flow (VRF) system is a newer type of HVAC technology
than a VAV box. VRF systems are ductless HVAC systems that use variable
motor speeds to send different amounts of refrigeration to multiple
evaporators in the system. The main VRF components are located in an
outdoor unit, while the evaporators are located in an indoor unit. This way, a
building’s various zones receive different temperatures while the rest of the
HVAC system all flows at the same rates, making the system energy efficient.

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Thermal comfort is a
condition of mind that
expresses satisfaction
with the thermal
environment. The
optimum situation is
when thermal
neutrality is achieved
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Passive cooling strategies in tropical climate

Minimizing heat gain

Maximizing
heat loss Lecture 08:
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Thermal Comfort

Thermal comfort is the condition of mind that
expresses satisfaction with the thermal
environment and is assessed by subjective
evaluation (ANSI/ASHRAE Standard 55).
Factors affecting thermal comfort
Air temperature
Humidity
Mean Radiant Temperature
Air movement
Metabolic rate
Clo value

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Thermal Comfort
Empirical studies done by Houghten and
Yagloglou (Szokolay, 1985) in 1927 outlines
three recognized environmental parameters that
contribute to thermal comfort:

1. Air temperature or dry bulb temperature

(DBT)

2. Relative humidity or wet bulb temperature

(WBT)

3. Air movement or air velocity (m/s)

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Dry Bulb Temperature

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Wet Bulb Temperature

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Relative Humidity

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Identifying Conditioning
Strategy

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Identifying Conditioning
Strategy

https://www.youtube.com/watch?v=abt_ydjgK28

https://www.flycarpet.net/en/PsyOnline

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Analytical Comfort Zone
Method

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1. A scale of perception: from cold to hot
with a central point of indifference that
corresponds to the absence of hot and
cold.

2. An evaluative scale: present affective
assessment from comfort to discomfort

3. A future thermal preference; from
‘cooler’ to ‘warmer’ with a central point of
indecision that corresponds to the absence of
change.

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Use of Psychrometric Chart

Engineer chart the local climate.

Look at enthalpy changes.

Determine the size and power of equipment.

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Heat Transfer

Radiation

Conduction

Convection

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RADIATION

Heat transfer due to emission of electromagnetic waves is
known as thermal radiation.

Heat transfer through radiation takes place in form of
electromagnetic waves mainly in the infrared region

Doesn’t need contact between particles, can happen
through vacuum

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CONDUCTION

Thermal conduction is the transfer of heat (internal
energy) by microscopic collisions of particles and
movement of electrons within a body.

Particles must be in contact for physical collision can
happen.

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CONVECTION

Convection is heat transfer by mass motion of a fluid such
as air or water when the heated fluid is caused to move
away from the source of heat, carrying energy with it.

Warm gas and fluid are less dense and float upwards.
Replaced by colder denser fluid.

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COOLING LOAD

The cooling load is the amount of heat energy that would
need to be removed from a space (cooling) to maintain
the temperature in an acceptable range.

The term ‘heat gain’ may be used.

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SENSIBLE COOLING LOAD (to maintain 24⁰C)

sensible cooling load is a measurement of the amount
of energy that must be removed from, for example, the
air inside a building, in order to maintain a certain
temperature, regardless of the temperature outside. 27ºC to 24ºC
30ºC to 24ºC = 3ºC reduction
= 6ºC reduction

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LATENT COOLING LOAD
Latent cooling load is a measure of the amount of energy that is
necessary to dehumidify the air in a building, for example,
regardless of the outdoor humidity. Cooling load needs to be
considered when a cooling system is being dimensioned. Latent
cooling load refers to the wet bulb temperature.
Reducing 5ºC but from
60% humidity to 55%
Reducing 5ºC but
from 80% humidity to 55%

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COOLING LOAD COMPONENTS

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SOLAR GAIN

Solar gain (also known as solar heat gain or passive solar
gain) refers to the increase in temperature in a space, object
or structure that results from solar radiation.
Indirect gain through walls and roofs.
Direct gain though glazing.
the higher the R value the better it insulate.

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HEAT CONDUCTION THROUGH THE ROOF

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U VALUE

U-values measure how effective a material is as an insulator.
The lower the U-value is, the better the material is as a heat
insulator.
Also can be termed R-value : R =1/U
The lower the U value, the better it insulate.
Inversely the higher the R value the better it insulate.

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HEAT CONDUCTION THROUGH WALLS

In preventing the transfer of heat, the lower the value the
better.

In cold climate = prevent heat escape the building.

In hot climate = preventing heat from entering the building.
But the problem is it also prevent heat from escaping to the
outside if outside is colder.
the higher the R value the better it insulate.

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SOLAR RADIATION THROUGH GLASS

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SOLAR RADIATION THROUGH GLASS

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BUILDING MATERIAL AND THEIR U-Value

Component Material U-Value W/(m2K)

Floor (ground) 150mm thick RC slab with 15mm thick broken marble finish 0.20

Floor (1st) 150mm thick RC slab with 6mm thick hardwood
Reducingparquet
5ºC but 0.20
finish from 80% humidity to 55%

Wall 114mm thick brick wall with 18mm thick cement plaster 2.15
and paint finish on both sides
Ceiling 4mm thick cement board 1.40
Window Aluminum frame clear glass casement window 5.7
Door Plywood 0.64
Vent Blocks Reinforced Concrete block 0.70
*Note: U-value based on common
Shading Device 100mm thick concrete slab 0.70
building materials in Malaysia.

Roof Concrete roof tile 0.70 Lecture 08:
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GREENHOUSE EFFECT
The greenhouse effect is a process that occurs when gases in Earth's
atmosphere trap the Sun's heat. This process makes Earth much warmer than
it would be without an atmosphere. The greenhouse effect is one of the things
that makes Earth a comfortable place to livethe higher the R value the
better it insulate.

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GREENHOUSE EFFECT
HUMAN ENHANCED

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GREENHOUSE EFFECT

higher the R value the better it insulate.

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INTERNAL BLINDS DOES LITTLE TO HELP

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SUN-SHADING DEVICES (brise soleil)

Help reduce direct gain.
Heat is prevented from entering the space.
Reduce view and daylight.
Help cut-off glare.
Help lower shading co-efficient.

Lecture 08:
AIR CONDITIONING & VENTILATION
 ARC 3522
KEMUDAHAN BANGUNAN LANJUTAN
BACELOR SAINS SENI BINA DENGAN KEPUJIAN

SHADING COEFFICIENT
The Shading Coefficient (SC) is a measure used to quantify the solar heat
gain of glass in comparison to a standard piece of 1/8 inch (3mm) thick
clear glass, which has an SC of 1.0

Lecture 08:
AIR CONDITIONING & VENTILATION
 ARC 3522
KEMUDAHAN BANGUNAN LANJUTAN
BACELOR SAINS SENI BINA DENGAN KEPUJIAN

Lecture 08:
AIR CONDITIONING & VENTILATION
 ARC 3522
KEMUDAHAN BANGUNAN LANJUTAN
BACELOR SAINS SENI BINA DENGAN KEPUJIAN

Lecture 08:
AIR CONDITIONING & VENTILATION
 ARC 3522
KEMUDAHAN BANGUNAN LANJUTAN
BACELOR SAINS SENI BINA DENGAN KEPUJIAN

Lecture 08:
AIR CONDITIONING & VENTILATION
 ARC 3522
KEMUDAHAN BANGUNAN LANJUTAN
BACELOR SAINS SENI BINA DENGAN KEPUJIAN

HEAT GAIN FROM PEOPLE

QS = No: of people x Sensible heat gain per person x
CLF
Qsensible = 18 × 250 × 1.0 = 4500 Btu/hrt

QL = No: of people × Latent heat gain per person
Qlatent = 18 × 200 = 3600 Btu/hr

[ Qsensible = 18 × 75 × 1.0 = 1350 W ]

[ Qlatent = 18 × 55 = 990 W ]

Lecture 08:
AIR CONDITIONING & VENTILATION
 ARC 3522
KEMUDAHAN BANGUNAN LANJUTAN
BACELOR SAINS SENI BINA DENGAN KEPUJIAN

HEAT GAIN FROM LIGHTING

Q = Btu/hr × Ballast factor × CLF

[ Q = watts × Ballast factor × CLF ]

Ballast factor = 1.2 for fluorescent lights
Ballast factor = 1.0 for incandescent lights

Lecture 08:
AIR CONDITIONING & VENTILATION
 ARC 3522
KEMUDAHAN BANGUNAN LANJUTAN
BACELOR SAINS SENI BINA DENGAN KEPUJIAN

REDUCING COOLING LOADS

Reducing Conductive Gain – Insulate Wall, Insulate
roof. Low U value
Reducing Direct gain – Lower SC glazing, Low U value
Reducing Internal gain
Use energy efficient appliances
Use less appliances
Reducing infiltration gain – seal leak
Reduce humidity.

Lecture 08:
AIR CONDITIONING & VENTILATION
 ARC 3522
KEMUDAHAN BANGUNAN LANJUTAN
BACELOR SAINS SENI BINA DENGAN KEPUJIAN

Central AC / HVAC

THANK YOU
Lecture 08:
AIR CONDITIONING & VENTILATION
 ARC 3522
KEMUDAHAN BANGUNAN LANJUTAN
BACELOR SAINS SENI BINA DENGAN KEPUJIAN

AIR CONDITIONING

https://www.youtube.com/watch?v=wD7vSnISp3g

https://www.youtube.com/watch?v=SfuSzBja8QA

https://www.carrier.com/commercial/en/asia-
pacific/about/history/

https://www.trane.com/residential/en/resources/glossary/what-
is-hvac/

https://www.architecturaldigest.com/reviews/hvac/what-is-hvac

Lecture 08:
AIR CONDITIONING & VENTILATION