HOW DOES HZSS COAXIAL HEAT EXCHANGER WORK FOR SWIMMING POOL HEAT PUMP?



A pool heat pump uses electricity to operate and also uses the sun-warmed air which contributes to the efficiency of the unit. Heat Pump Pool Heaters use electricity and do not generate heat.

As the pool pump circulates the swimming pool water, the water drawn from the pool passes through a filter and the heat pump water heater. The heat pump heater has a fan that draws in the outside air and circulates air through an outer evaporator air coil.

Liquid refrigerant within the evaporator coil absorbs the heat from the outside air and transforms it into a gas. The warm gas in the coil then passes through the compressor. The compressor increases the heat, creating a very hot gas that then passes through the coaxial heat exchanger condenser.
As the gas and pool water is pumped through the coaxial heat exchanger, the hot gas transfers its heat to the water.  The water is heated 3-5 degrees as it circulates through and then warmer water flows back into the pool.  The hot gas, as it flows through the condenser coil, returns to liquid form and back to the evaporator, where the whole process begins again.
A unit of electrical energy (you pay for) runs the compressor which sucks evaporating Freon gas from the liquid filled evaporator tube. This causes a strong cooling effect (just like sweat evaporates from your skin and cools you off). The gas picks up four units of heat from the air flowing over the outside of the evaporator tubes.

The compressor squeezes this gas, causing its temperature to climb above 200° F (93° C) Result: Five units of heat added to the gas.

The hot, high pressure gas flows through the inside of the condenser coil. The colder 80° F (26° C) pool water picks up the five units of heat from the Freon which cools it down back to a warm liquid.

The warm liquid is forced through a valve. As it drops in pressure, it rapidly expands and becomes extremely cold liquid .This liquid flows back into the evaporator At 1 where it repeats the cycle.
Pool heat pumps are designed specifically for recreational water heating (in ground, on ground or above ground pools, spas, hot tubs, swim spas, etc.)  If you have an air conditioner, dehumidifier, water cooler or a refrigerator, you already own a heat pump.

All these appliances use the same dependable technology to move heat from on place to another using electric power and a sealed refrigerant compression system.

Just like an air conditioner moves 2 to 3 units of heat from your home for every unit of electricity it consumes, heat pumps can use one unit of electric energy to move four (five or six for scroll models) units of heat from the air which delivers five to seven units of heat to your pool water.


The heat pump operates by taking the heat from the surrounding air and uses it to heat the water in your pool.

During heat pump operation, liquid Freon from inside the unit is pumped through the system (A) and is turned into a heated gas.

This happens when heat is taken from the surrounding air (B) as it is drawn through the evaporator by the fan.
The compressor (C) receives this warmer gas and compresses it to a higher pressure, resulting in the Freon reaching even higher temperatures.

As the unit sends the heated gas through the heat exchanger, the gas gives up its heat to the surrounding water (D).
The Freon is then reverted to its liquid state which completes the cycle (A).
The water (F), which is being forced through the heat exchanger (D) by your pool pump, is heated by three to five degrees as it passes through the heat exchanger. The water, now warmer, then flows back into your pool (G).


Comments

  1. This comment has been removed by the author.

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  2. Thanks for providing such detailed process of heat pump’s working. The illustrations displayed were also very useful. We are in the business of heat pumps for water and space heating, and we surely understand the need of people to understand such important and relevant concepts. Keep up the good work.
    EvoHeat

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  4. Can i use air instead of water, I am looking for some similar product which can reduce my compressed air temperature from 25 Deg to 15 Deg, looking for suggestions.

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  5. Your post contains a lot of useful information for me
    Transport fans

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  6. Heater maintenance must be taken out carefully. As your home indoor quality totally depend on that.


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  7. VERY INFORMATIVE ARTICLE. Thanks
    www.cosmopolitanmechanical.ca

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  8. I can't express enough how helpful this blog post is! Your comprehensive coverage of Pool Heat Pumps Service has saved me a lot of time and confusion. I now have a much clearer picture of what I need for my pool.
    Green Star Solutions specialises in offering Pool Heat Pumps in Melbourne with the help of our Genesis Heat Pump.

    ReplyDelete
  9. Thank you for this informative and well-written post! I really appreciate how clearly you explained how pool heat pumps work and their benefits. The breakdown of energy efficiency and the comparison to other heating methods were particularly helpful. This article is a great resource for anyone looking to maintain a comfortable pool temperature while being mindful of energy consumption. Keep up the great work! Global Talent Pathway

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