Refrigeration Cycle | Vapor Compression Cycle | Animation |
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- čas přidán 4. 06. 2023
- The refrigeration cycle is a thermodynamic process that is used in refrigeration and air conditioning systems to transfer heat from a low-temperature region (typically the conditioned space) to a high-temperature region (typically the surroundings). The purpose of the refrigeration cycle is to maintain a lower temperature in a controlled environment by removing heat from that space.
The refrigeration cycle consists of four main components: the compressor, condenser, expansion valve (or throttle valve), and evaporator. These components work together to circulate a refrigerant, which is a fluid with desirable thermodynamic properties for heat transfer.
Here is a brief overview of the four stages of the refrigeration cycle:
Compression: The refrigerant enters the compressor as a low-pressure vapor and is compressed, increasing its temperature and pressure.
Condensation: The high-pressure, high-temperature refrigerant then flows into the condenser, where it releases heat to the surroundings. As a result, the refrigerant condenses into a high-pressure liquid.
Expansion: The high-pressure liquid refrigerant passes through the expansion valve, which reduces its pressure and temperature. This causes the refrigerant to partially vaporize, entering the next stage as a low-pressure mixture of liquid and vapor.
Evaporation: The low-pressure refrigerant mixture enters the evaporator, where it absorbs heat from the conditioned space, causing the remaining liquid to vaporize. The vaporized refrigerant is then drawn back into the compressor, and the cycle repeats.
By continuously circulating the refrigerant through these stages, the refrigeration cycle removes heat from the conditioned space, keeping it cool, while releasing the absorbed heat to the surroundings.
It's important to note that the refrigeration cycle can be modified and optimized for various applications, such as domestic refrigerators, air conditioners, industrial cooling systems, and more. Different refrigerants and system configurations can be utilized based on specific requirements and environmental considerations.
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Good explanation
Thanks for your kind efforts. And your simplicity in your explanation
My Brazilian teacher shared this video with his students.
It's nice to hear. Thank you for sharing it here.
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Great explain
Excellent explanation! Thanks!
You're welcome!
Excellent to explain the system 🎉😊
Glad you liked it 😊
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Very Nice explanation
Thank you 😊
Excellent...if u give values and temperature values also it would have been better..
thanks for your explanation
Thank you 😊
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thank you it is very useful.
You are welcome 😊
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Very good video ji
Thank you so much 😊
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Nice explanation. Do you have a video on how the heat pump works on heating mode? Thanks
Very good 👍
Thank you 👍
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Excelente
Gracias!!!
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At 1:44, you say low pressure/temp vapor enters compressor. At 3:25, output of evaporator is low pressure/high temp. But next step is input into compressor. Not matching. Or a step is missing.
Actually both are correct. For example, in the evaporator we give temperature like 25°C. This 25°C is low temperature for us. But the refrigerant will boil at very low temperature. If we give 25°C the refrigerant will boil and evaporate. So, for the refrigerant 25°C is high temperature.
If we feel 25°C is low temperature, we can say it is low.
If we feel 25°C is high temperature, then we can say it is high.
Very good
Thank You 😊
Please keep support the channel.
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Nice
Thanks
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Beautiful animation at 4:00
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Thank you ❤️
I want to build an ac for a small grow tent, 3x3x6 ft. I have a mini fridge compressor and a pc cooling radiator and a few pc fans laying around. Do you think it will be enough? I need to bring down the temp from 30ºC to about 22ºC
Very good explained now I'm perfect 😀
That's good 👍 👌 👏 😊
Thank you
You're welcome 😊
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Syukron.
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While explaing about evaporator it is explained that high temp low pr vapour is coming out from the evaporator then it is going to compressor, but initiallu you started explaining compreasor inlet is low temp low pressure vapour, how high temp vapour from evaporator becomes low temperature vapour at compressor inlet? Please clarify this
Actually both are correct. For example, in the evaporator we give temperature like 25°C. This 25°C is low temperature for us. But the refrigerant will boil at very low temperature. If we give 25°C the refrigerant will boil and evaporate. So, for the refrigerant 25°C is high temperature.
If we feel 25°C is low temperature, we can say it is low.
If we feel 25°C is high temperature, then we can say it is high.
Hai sir,
I have doubt,
At starting you said low pressure low temperature vapor is going inside the compressor.,
After the one cycle you saying low pressure medium or high temperature vapor??
How it’s possible??
Please explain i connfused
Actually both are correct. For example, in the evaporator we give temperature like 25°C. This 25°C is low temperature for us. But the refrigerant will boil at very low temperature. If we give 25°C the refrigerant will boil and evaporate. So, for the refrigerant 25°C is high temperature.
If we feel 25°C is low temperature, we can say it is low.
If we feel 25°C is high temperature, then we can say it is high.
At where the fan is blowing air on the evaporator side, is it blowing it into the evaporator coils or blowing them away to get cool air ?
The fan blows air into the evaporator coils. This air passes over the cold coils, absorbing heat and cooling down.
The fan blows through the evaporator
Professor, can you send a link to a simulation program for cooling and heating systems for mechanical and electrical parts and control circuits? Thank you.
I tried to find out, but I couldn't get the proper one. I will try to get the good one.
What is the saftey of refrigeration cycle.
Wary youz fulll. Gad blas-U
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Thank you 😊
In compressor Mora liquid stage in Problem
Incase liquid goes through the compressor what happen
The liquid is a incompressible thing, so the compressor can't compress the liquid and it will damage the compressor by giving more load.
Compressor inside gas liquid stage