For heating and providing hot water to private houses, it is advisable to use a water-water heat pump that works from natural sources - groundwater, rivers, ponds, etc. The system is characterized by absolute environmental safety, does not require regular expenditures on consumables, therefore it is becoming more and more popular.
We will talk about the options for a heat pump device that uses the eco-energy of water to transmit it to domestic heating systems. For curious home masters, we described the principles of operation of popular device options and construction technology. Here you will find out what equipment is needed to operate the system.
The principle of operation of the heat pump water-water
The heat pump embodied the principle of the Carnot cycle. It consists in the fact that a moving substance in a closed system and changes its aggregate state from liquid to gaseous under the influence of chemical, physical or thermal factors releases and absorbs a huge amount of thermal energy.
The role of the working substance is a thermal carrier - water from a well or reservoir.
Even in winter, natural temperatures at a certain depth maintain a positive temperature, so thermal energy can be extracted from them all year round. The only drawback of the installation is the high power consumption and the need to purchase additional equipment.
The diagram shows the trajectory of the circulation of water and refrigerant. The system allows you to receive thermal energy, regardless of the season
The main elements of a water-to-water heat pump are:
- compressor;
- evaporator;
- capacitor;
- expansion induction valve;
- automatic system for monitoring indicators;
- multiple highways from copper pipes;
- working substance (refrigerant).
Using a special pump, water flows through the pipes from the source to the heating plant, after which it interacts with gas (freon), which boils at a temperature of + 2-3 degrees. Freon absorbs part of the heat of water and is absorbed by the compressor, where its temperature rises during compression.
The heat pump equipment takes up a lot of space, but provides an opportunity to get rid of communal dependence
Then the refrigerant enters the condenser, after which the hot substance heats the water to a predetermined temperature (from +40 to +80 degrees), which is transported through the pipes of the heating system.
Chilled water enters the evaporator, then discharges into the receiving well. After the passage of the condenser, the refrigerant becomes liquid and collects at the bottom of the element, then through the throttle returns to its original place. Next, the cycle repeats.
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The essence of the heat pump water-water
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Compact heat pump for a private house
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What to look at when arranging such heating?
There are a large number of different modifications of heat pumps designed for rooms of any purpose and size, as well as working in different conditions. The equipment is intended for heating houses with a total area of 50 to 150 square meters.
Landmark number 1 - water hardness
The water quality of a well or reservoir plays an important role in the selection of equipment. Not all models are capable of running on hard water containing large amounts of manganese and iron.
A high concentration of these elements harms the system - corrosion forms on the pipes faster, which leads to a decrease in the efficiency of the equipment and its service life.
Therefore, before buying a heat pump, they take a water sample and analyze it for the presence of these and other trace elements - hydrogen sulfide, ammonia, chlorine, etc. Usually, if the temperature in the pond exceeds +13 degrees, then with a greater degree of probability there are a lot of iron and manganese ions in the water.
Thus, the water-water heat pump is selected taking into account the hardness of the water. There are systems whose elements are most protected from corrosion, but they cost more.
Landmark number 2 - mode of operation
The heat pump can be used as the sole source of heat or interact with other systems. Therefore, before choosing a model, it is important to determine in what mode the device will work.
There are two types of system functioning:
- Monovalent. Devices have great power, suitable for heating the house.
- Bivalent. Less productive devices complement the main heating equipment.
To build an autonomous system with a main water-water heating unit, a monovalent type is needed.
Reference point 3 - pump power
Power is an important indicator when choosing a heat pump, since system performance depends on it. The higher the power, the higher the efficiency of the equipment, but also the greater the energy consumption.
The performance of the heat pump water-water is selected based on real needs
When choosing a device with insufficient power, the efficiency of the system will drop if the heat loss at home exceeds the amount of energy supplied by the system. The heat pump can work around the clock, but there will be no effect from it due to lowering the water temperature.
When the heat loss of the building is lower than the heat transfer of the system, the pump usually starts automatically for several minutes, heats the water to the set temperature, and transfers it through the system. Then it turns off until the temperature drops by several degrees. Then the cycle repeats.
Landmark No. 4 - the functional of a specific model
Heat pumps may have additional functions, these are:
- An automatic control system that allows you to adjust the microclimate of the room to taste. Management is usually done using a remote control.
- Function of heating water for hot water supply.
- Soundproof housing.
- The ability to connect to other heating systems, solar collectors, which will make the heating equipment completely autonomous.
The duration of operation of heat pumps water-water usually exceeds 30 years.
No less important when choosing equipment consider the cost of installation and installation.
Calculation of the required heat pump capacity
Before buying a system, it is important to first draft and calculate the necessary equipment capacity. Performance is calculated taking into account the actual needs for thermal energy. The costs of heat, heat loss at home and the presence or absence of a DHW circuit are taken into account.
Calculation Algorithm:
- We calculate the total area of the heated rooms.
- We determine the necessary amount of energy for heating. The optimal indicator per 1 square meter is 0.07 kW.
- To melt a house on N square meters, you need N * 0.07 kW.
- For DHW, an additional 15-20% is added to the resulting number, that is, N * 0.07 * 0.85 or N * 0.07 * 0.80.
This calculation will be optimal for rooms with ceilings not exceeding a height of 2.7 m. More accurate calculations will be made by specialists during the preparation of the project.
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The inside of the water-to-water heat pump
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Preparatory work before operation
Preparation for the assembly, connection and commissioning of a heat pump from the water-water series includes a number of standard steps, which we will familiarize with further.
Choosing the optimal water source
It should be noted that not every open source or water well is suitable for the smooth operation of a heat pump. Water quality plays an important role, but filters can help solve the problem of pollution.
It is permissible to use a body of water or a pond located within a radius of 100 meters from the building. If there is no such source, then there is a need for drilling wells.
The choice of source for the heat pump should focus on simplicity and cost of use. In the case of a nearby open water reservoir, it is more reasonable to use it
Open source behavior is more predictable than groundwater, so if possible, preference should be given to water bodies.
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Inexpensive heat pump evaporator
Connecting the evaporator pipes to the heat exchanger
Evaporator tubes prepared for inspection
Installation of a thermal system using a well
To install the system using a heat pump, two wells are needed. One of the wells is called debit. It is in it that a special pump is immersed, with the help of which water is taken for subsequent processing in the system. The second well is the receiving well. Chilled water is drained into it.
Drain and supply wells must be at least 15 meters apart
The depth of the debit well should not exceed 50 meters. The deeper the water source is located, the more powerful the pump will be needed to supply it, which will increase the amount of energy consumed.
Debit Well Device
Before starting the operation of a debit well, it is important to find out how much water it can produce and how much fluid is needed to provide heat to the entire room. The higher the water temperature, the less it will be needed for heating.
It is important to pre-calculate the volume V, which must be pumped out of the well for an hour to heat the room. Suppose there is a pump whose heat output is equal to a certain number Q kW, and power consumption - the number P kW You will also need to find out the temperature of the groundwater (t1) and their temperature after heat exchange (t2).
Then the formula for calculating the volume of the required amount of water per hour looks like this:
V = (Q-P) / (t1-t2).
It is analytically impossible to determine the ability of a debit well to deliver the required amount of water, therefore, it is tested. Within 3 days, the pump uninterruptedly pumps water from the well. Thus, the check of the receiving well for the ability to receive the required amount of water at high load is carried out.
It is important to understand that groundwater behaves unpredictably, so water from a debit well may become smaller over time. For example, tides are observed in spring, and in winter, on the contrary, water decreases. If there is not enough water in the well, the system automatically shuts off, heating does not occur.
Features of the receiving well
The receiving tubular well is located downstream of groundwater. It is analytically impossible to determine in which direction water is moving. Therefore, in practice, an arbitrary well is selected as a debit well and a submersible pump is launched into it.
If during operation of the system the water level does not drop, then the choice is made correctly. If the level has dropped, and the water temperature has dropped, then you need to swap the wells in places - transfer the submersible pump to another hole.
The drain pipe into the receiving well must be immersed several centimeters in water, not reaching the bottom.If you discharge the waste liquid from above, this will lead to waterlogging. The tubular well may stop taking water and clog.
The result threatens overflow, and in winter, possible icing. The best option for a receiving source is a river or pond. If these objects are not nearby, then there is a need to drill one or more receiving wells in order to insure against overflow.
The figure shows an example of using one well as a receiving and debit well
It is impossible to find out whether a well will receive water, either analytically or by a test method. Practice shows that a drain well can continuously absorb water for many years, and may even fail in one season.
There are technologies that allow using one well as a debit and receiving well, but this method is not effective - operation will be accompanied by difficulties, possibly lowering the water temperature, waterlogging and a number of other problems.
Device system using a pond
The selected pond should be deep enough so that the lower layers of water do not freeze during severe frosts. In the Southern regions, the optimal depth is about 1 meter, in the Northern regions a source with a depth of 3 meters or more is required. Also, the pond must be stable - fluctuations in the water level and its reduction are unacceptable.
There are two pipelines to the reservoir - debit and receiving. A submersible pump is installed in the receiving
As pipes, it is recommended to use models from HDPE, characterized by durability and reliability. It is important to protect the pipes from freezing, by additionally insulating them, and from breakthroughs.
Preparing a home for a heat pump
To interact with a water-water heat pump, a water-based heating system must be equipped in the house, presented in the form of pipes, radiator batteries. For better insulation in the floor and walls, it is also permissible to install heating pipes.
If the equipment will be used to supply hot water, then the house must have a collection system. For the pump to work, you need to connect to an electrical network with unlimited power.
Without additional measures for thermal insulation of the house (insulation from the outside, installation of double-chamber windows, etc.), the operation of a heat pump does not make sense.
Experts recommend additionally installing a ventilation type ventilation system with an air heating mechanism. The freon used in the equipment is harmful to humans. If micro-fractures occur in the system circuit, the gas will be released and thereby displace air from the room. The refrigerant can cause an exacerbation of lung diseases in a person, asthma attacks.
The heat pump is heavy equipment, its weight can reach tons (depending on power and size), therefore, in order to install it, in some cases it is necessary to build your own foundation, not connected to the foundation of the cottage.
Before installing the equipment, you must take into account the permissible dimensions of the room, maintain the distance to the walls indicated in the product passport.
Optional equipment
The choice of additional equipment for the heat pump is a responsible task, the solution of which largely determines the long-term service of the heating system as a whole and the absence of problems in operation.
Submersible pump for wells and ponds
If the heat pump in the system is used to supply hot water, a device with a small capacity can lower the pressure in the taps. A powerful pump will solve this problem, but it consumes more energy. The minimum allowable power during the operation of the FGP is 1 kW.
There are many different modifications of submersible pumps. The choice is made taking into account three criteria, these are:
- Fluid amountused for pumping (the more water you have to transport, the higher the pump power should be).
- Well depth (the deeper the well, the greater the capacity of the equipment should be);
- Well diameter (they traditionally prefer 4-inch shafts, since the largest number of pumps was created for them, in contrast to 3-inch shafts).
To determine the depth of the well, it is necessary to secure the load on the rope and lower it into the shaft. The wet part of the rope will indicate the full depth of the well, while the dry part will determine the distance from the beginning of the water to the surface.
The pump is immersed in the wellbore to a depth specified by the device manufacturer. Typically, the data sheet indicates how many meters should be between the water mirror and the pump, the bottom of the output and the pump
Both universal pumps and equipment specially designed for wells can be suitable for mines. If the mine was developed by professionals, then it is less clogged with sand, so you can safely use a universal pump.
Pumps designed specifically for boreholes are more expensive, but they do a great job with sand and mud, less clogging. Universal are sensitive to a high content of organic matter, they must be regularly cleaned of dirt, as a result of which their life is reduced.
Pumps with automatic equipment should be preferred, since when the motor overheats, excess clogging or lack of water in the well, they turn off independently, as a result of which the engine does not overheat and does not fail.
According to the principle of action, 2 types of submersible pumps are distinguished:
- Centrifugal.
- Vibrating.
For work in wells that produce water in limestone, centrifugal deep models are preferable. They are sensitive to water with grains of sand and clay suspension.
If the heat pump will be connected to an open reservoir, it is better to use surface pumping equipment designed for pumping dirty water, or an inexpensive vibrating device.
Heat pump intermediate heat exchanger
In heat pumps, during the circulation, the freon may not cool well enough, which leads to overheating of the compressor as a result of an excessive discharge temperature. Therefore, it is important to improve the cooling of the substance, thereby lowering the pressure in the circuits.
There is another problem common to all heat pumps - the refrigerant can mix with water vapor. If liquid enters the compressor, water hammer may occur. In this case, you need to repair or replace the part. Also, water can get into the oil, and it is difficult to extract it from there.
All the above problems are solved by installing an intermediate heat exchanger. Heat exchangers come in three types - open type, shell-and-tube and coil.
Modification of the open type neutralizes the liquid trapped in the freon during circulation, which minimizes the likelihood of compressor shock. The device is characterized by high performance with minimal power consumption.
When installing an open-type heat exchanger, it is important to correctly select the size of the liquid pipe to ensure minimum pressure compression
Properly selected pipes will neutralize the possibility of boiling liquid. At the same time, the valve must have sufficient capacity so that the liquid at a low pressure difference can penetrate the device.
The shell-and-tube heat exchanger is presented in the form of a closed design. Heat exchange occurs through the walls of the pipes, and the liquid and refrigerant in it do not mix, unlike open, which provides high pressure for the circulation of steam and air.
The coil heat exchanger is characterized by the presence of a flow controller that controls the flow of liquid freon. The size of the device depends on the power of the heat pump.It is necessary to choose a product, taking into account the functionality and available amount. It is advisable to give preference to collapsible models.
Heat pump filters
Water from wells or ponds does not come in pure form. It may contain sand, dirt, various trace elements - iron, hydrogen sulfide, manganese, chlorine, ammonia, etc. Before entering the heat pump, the water must be filtered.
First of all, it is necessary to eliminate large substances - stones, sand, dirt, silt. To remove them from the water, it is necessary to install a hydrocyclone.
Hydrocyclone - a device required for rough water treatment. It must be selected taking into account the power of the pump
Next, it is important to install filters that eliminate iron, hydrogen sulfide, manganese, ammonia. These trace elements shorten the life of the equipment and corrode it.
You can use reverse osmosis filters, softeners, iron removers and their modifications. To ensure drinking hot water, carbon filters and a UV sterilizer that destroys bacteria and viruses should also be equipped.
Power generator for backup power
Heat pumps operate from the mains, therefore, if a power outage occurs, the house will remain without heating. It is advisable to additionally purchase an electric generator operating on combustible substances.
It is important that the generator can generate the necessary power to operate the pump compressor
Features of the operation of such a heat pump
Once a year, it is necessary to conduct an independent visual inspection of the pump components, follow the maintenance recommendations - timely lubricate the parts, monitor the correct operation of the device when pumping water.
Some types of equipment require regular inspection (usually 1-2 times a year) by service center specialists. During the inspection, identify:
- engine oil leakage through cracks in the circuit;
- quality of fixtures and fittings;
- pressure level in tanks and circuits;
- malfunctions in the power wiring.
The installation of a water-to-water heat pump should be entrusted to trained specialists. System inefficiency is most often associated with its improper installation. Thermal equipment is suitable for operation by both residents of the Southern regions and the Northern.
The video introduces the principle of operation and features of the device:
As a result, we can conclude that the water-water heat pump is considered to be an efficient environmentally friendly equipment designed to heat homes up to 150 square meters. For the arrangement of premises of a larger area, quite complicated engineering surveys may already be needed.
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