What are the main types of chillers discussed?

The main types of chillers discussed are the air-cooled chiller and the water-cooled chiller.

What components are common in all chillers?

All chillers have a compressor, condenser, evaporator, and expansion valve.

What role does the compressor play in a chiller?

The compressor circulates the refrigerant throughout the chiller system.

How does the condenser in a chiller work?

The condenser reduces the temperature of the refrigerant, using water or air as a cooling medium.

What is the function of the expansion valve in a chiller?

The expansion valve reduces the pressure and temperature of the refrigerant by expanding it.

How does the evaporator in a chiller function?

The evaporator uses refrigerant to lower the temperature of water returning from the AHU, which is then sent back to the AHU.

What thermodynamic principle is applied in chillers?

Thermodynamics principles guide the heat transfer, where high temperature moves to low temperature areas.

What happens to the refrigerant as it moves through a chiller?

The refrigerant changes phases from vapor to liquid as it circulates through the system.

Why are specific temperatures important in the chiller process?

Specific temperatures ensure efficient heat transfer and cooling within the chiller system.

Is the chiller process continuous or intermittent?

The chiller process is continuous, involving ongoing refrigeration and phase changes.

Chiller working principle | English | Animation | HVAC

00:05:54

https://www.youtube.com/watch?v=HAxv0T3NVe4

Summary

TLDRThe video explains the working principle of chillers, focusing on their use in large buildings. It highlights two main types of chillers: air-cooled and water-cooled, and explains that, despite their differences, all chillers share four key components: the compressor, condenser, evaporator, and expansion valve. The compressor ensures the flow of refrigerant; the condenser cools the refrigerant using either air or water; the expansion valve decreases refrigerant pressure and temperature; and the evaporator cools water, enabling it to recirculate efficiently. The system operates based on thermodynamic principles, involving continuous heat transfer and refrigerant phase changes, from vapor to liquid and back, to achieve effective cooling.

Takeaways

🏢 Chillers are commonly found in large buildings and come in two main types: air-cooled and water-cooled.
⚙️ Despite the variety of chillers, they all contain a compressor, condenser, evaporator, and expansion valve.
🔄 The compressor plays a key role in circulating the refrigerant throughout the system.
💧 The condenser reduces the refrigerant's temperature using either air or water.
🔻 The expansion valve decreases the refrigerant pressure and temperature by expanding it.
🌡️ The evaporator lowers the temperature of the water returning from the AHU using refrigerant.
🔄 Thermodynamics principles guide the heat transfer between water and refrigerant in chillers.
🔃 The refrigerant changes phases from vapor to liquid and back as it circulates through the system.
💧 The water temperature is carefully managed as it circulates through the chiller, entering and exiting at specific temperatures.
♻️ The cycle involves continuous refrigeration and phase change of the refrigerant.

Timeline

00:00:00 - 00:05:54
The video introduces the working principle of chillers, specifically focusing on two main types: air-cooled and water-cooled chillers. Despite the variety, all chillers share the same components and working principle: compressor, condenser, evaporator, and expansion valve. The compressor facilitates refrigerant circulation within the chiller. The condenser, using air or water, reduces the refrigerant's temperature. The expansion valve lowers refrigerant pressure and temperature, and the evaporator reduces AHU water temperature using the refrigerant.

Mind Map

Video Q&A

What are the main types of chillers discussed?
The main types of chillers discussed are the air-cooled chiller and the water-cooled chiller.
What components are common in all chillers?
All chillers have a compressor, condenser, evaporator, and expansion valve.
What role does the compressor play in a chiller?
The compressor circulates the refrigerant throughout the chiller system.
How does the condenser in a chiller work?
The condenser reduces the temperature of the refrigerant, using water or air as a cooling medium.
What is the function of the expansion valve in a chiller?
The expansion valve reduces the pressure and temperature of the refrigerant by expanding it.
How does the evaporator in a chiller function?
The evaporator uses refrigerant to lower the temperature of water returning from the AHU, which is then sent back to the AHU.
What thermodynamic principle is applied in chillers?
Thermodynamics principles guide the heat transfer, where high temperature moves to low temperature areas.
What happens to the refrigerant as it moves through a chiller?
The refrigerant changes phases from vapor to liquid as it circulates through the system.
Why are specific temperatures important in the chiller process?
Specific temperatures ensure efficient heat transfer and cooling within the chiller system.
Is the chiller process continuous or intermittent?
The chiller process is continuous, involving ongoing refrigeration and phase changes.

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00:00:00
In this video
00:00:01
we are going to discuss about the
00:00:03
working principle of Chiller
00:00:05
We can see chillers in the large buildings
00:00:08
and there are many types of chillers
00:00:11
But there are commonly two types of chillers.
00:00:14
One is Air cooled chiller
00:00:15
and another one is water cooled chiller
00:00:18
Although there are many types of chillers
00:00:20
they all have the same components
00:00:23
and same working principle.
00:00:25
Now, Let’s see the main components of the chiller
00:00:28
Compressor
00:00:30
Condenser
00:00:33
Evaporator
00:00:35
and expansion valve
00:00:37
Compressor
00:00:38
Compressor is an important component in chiller
00:00:42
This is used to make the refrigerant flow throughout the chiller
00:00:47
commonly there are four types of compressors
00:00:50
They are, Centrifugal compressor
00:00:53
Screw Compressor
00:00:54
Scroll Compressor
00:00:55
and Reciprocation Compressor
00:00:58
Next Condenser
00:00:59
The important job of the condenser is
00:01:02
to reduce the temperature of the refrigerant entering it.
00:01:06
In water cooled chiller
00:01:08
we use water to reduce the temperature of the refrigerant
00:01:12
In air cooled chiller
00:01:13
we use air to reduce the temperature of the refrigerant
00:01:17
Next Expansion Valve
00:01:19
It’s function is simple one
00:01:21
It reduces the pressure and
00:01:23
temperature of the refrigerant
00:01:25
by expanding the refrigerant
00:01:27
coming from the condenser at high pressure
00:01:31
There are four types of expansion valve
00:01:33
Thermal Expansion valve
00:01:35
Pilot operated thermal expansion valve
00:01:38
The electronic expansion valve
00:01:39
and Fixed orifice expansion valve
00:01:42
Last Evaporator
00:01:44
The Evaporator reduces the temperature of the water
00:01:48
coming from the AHU
00:01:49
with the help of refrigerant and
00:01:51
sends back to the AHU
00:01:58
Now, let’s see it’s working principle.
00:02:01
The compressor sends the refrigerant
00:02:03
to the condenser from evaporator
00:02:05
which is in the vapor phase
00:02:12
The water coming from cooling tower
00:02:14
enters the condenser
00:02:15
at 32 °C at 32 °C through the copper tubes
00:02:21
This water travels throughout the tube.
00:02:24
In the condenser refrigerant travels around the copper coils.
00:02:31
As per the thermodynamics law
00:02:33
the high temperature travels to the low temperature
00:02:36
So, as per the law the heat of the refrigerant
00:02:39
which flows around the copper coil
00:02:41
will transfer to the water
00:02:43
which flows inside the copper coils
00:02:46
because the refrigerant temperature is higher than the water temperature.
00:02:51
So, the water temperature will increase.
00:02:53
The water comes out from the condenser at 40 °C.
00:03:01
As the temperature of refrigerant decreases
00:03:03
it changes from vapor phase to liquid phase
00:03:08
Next the refrigerant travels to the expansion valve.
00:03:20
The expansion valve reduces the pressure and temperature
00:03:24
of the refrigerant which is comes at
00:03:26
high pressure and high temperature.
00:03:29
The second role of the expansion valve is
00:03:31
to send the required amount of the refrigerant
00:03:33
to the evaporator.
00:03:35
A thermal bulb from the expansion valve is
00:03:38
connected to the outlet of the evaporator
00:03:41
with the help of this thermal bulb
00:03:43
the expansion valve
00:03:44
sends the required amount of refrigerant
00:03:46
to the evaporator depending on the
00:03:49
temperature of the evaporator outlet
00:03:51
Next, the refrigerant will enter into the evaporator
00:03:55
The evaporator is also
00:03:57
similar to the condenser
00:03:58
In the condenser
00:03:59
the water from the cooling tower enters through the coil
00:04:03
But, in the evaporator
00:04:04
the water from the AHU enters through the coil
00:04:08
the water from the AHU will enter into the evaporator
00:04:11
at 12 °C
00:04:13
and it will travel throughout the coil
00:04:16
The refrigerant that comes in cold
00:04:18
from the expansion valve
00:04:19
surrounds the coil inside the evaporator
00:04:23
According to the law of thermodynamics
00:04:25
the heat of the water will transfer to the refrigerant
00:04:28
because the water temperature is higher than the refrigerant.
00:04:32
as the heat of the water goes to the refrigerant
00:04:34
the water cools down and comes out of the evaporator
00:04:38
at 6 °C and goes to the AHU
00:04:42
As the temperature of the refrigerant increases
00:04:44
the refrigerant evaporates
00:04:46
and goes to the condenser through the compressor
00:04:49
This process is continuous