An autonomous water supply system, independently supplying water to the points of analysis as in a city apartment, has long ceased to be a curiosity. This is the norm of suburban life, which just needs to be properly designed, assembled and equipped with equipment that can start and stop the system as you use the cranes.
The stable operation of an independent network will be ensured by an expansion tank for water supply. It protects against water shocks, significantly prolongs the working life of pumping equipment, guarantees regular filling of the system with water, eliminates the need to carry it in buckets.
We are pleased to introduce you to the features of the device and the principle of operation of the accumulator. We carefully described the rules for choosing a membrane tank, the specifics of installation and connection. We supplemented the information proposed for consideration with useful illustrations, diagrams, and video tutorials.
Characteristics of closed expansion tanks
A hydraulic tank (or a hydraulic accumulator, an expansion tank) is a metal hermetic container, which serves to maintain a stable pressure in the water supply system and create water reserves of different volumes.
At first glance, the selection and installation of this device should not cause difficulties - in any online store you can see many models that only slightly differ in shape and volume, but do not significantly differ in their functionality.
It's not like that at all. There are many nuances in the design of the expansion tank and the principle of its operation.
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Accumulator in the water supply system
Water reserve tank
Water hammer protection
Pumping automation device
Hydraulic accumulator in the pumping station
Hydraulic tank paired with submersible pump
As optional equipment
Accumulator and automation unit
Features of the device and design
Different models of expansion tanks may have restrictions on the method of use - some are designed only for working with industrial water, others can be used for drinking water.
By design, hydraulic accumulators are distinguished:
- removable pear tanks;
- tanks with a fixed membrane;
- hydraulic tanks without a membrane.
On one side of the tank with a removable membrane (the tank with the lower connection is at the bottom) has a special flange with a thread, to which the bulb is attached. On the reverse side there is a nipple for pumping or bleeding air, gas. It is designed to connect to a conventional car pump.
In a tank with a replaceable bulb, water is pumped into the membrane without touching a metal surface. The membrane is replaced by unscrewing the flange that the bolts hold. In large containers, to stabilize the filling, the rear wall of the membrane is additionally attached to the nipple.
The service life of the removable bulb depends on the air pressure settings in the gas compartment of the accumulator. Sometimes, to create a larger supply of water, the user reduces the amount of air and increases the amount of water in the pear. This causes the membrane to touch the wall of the tank, and causes rapid abrasion.
The internal space of the tank with a fixed membrane is divided into two compartments. In one is gas (air), in the other comes water. The inner surface of such a tank is coated with moisture resistant paint.
Most often, fixed-membrane tanks are used for heating systems. Since the membrane is an element that fails much faster, the service life of such a tank is shorter than devices with a removable bulb
There are also hydraulic tanks without a membrane. In them, the compartments for water and air are not separated by anything. The principle of their action is also based on the mutual pressure of water and air, but with such an open interaction, two substances are mixed.
The advantage of such devices is the absence of a membrane or pear, which is a weak link in conventional accumulators.
Externally, expansion tanks can only be divided into horizontal and vertical models, but their operating parameters can be very different
The diffusion of water and air makes servicing the tanks quite often. About once a season you have to pump air, which gradually mixes with water. A significant reduction in air volume, even at normal pressure in the tank, causes the pump to turn on frequently.
Hydraulic accumulators in water supply systems reduce the likelihood of water shocks, protect the pumps from unnecessarily frequent starts, form a supply of water and maintain pressure in the circuit
The principle of operation of the accumulator
Closed hydraulic tanks for water supply work according to this scheme: the pump delivers water to the pear, gradually filling it, the membrane increases and air is compressed between the pear and the metal casing.
The more water enters the pear, the more it presses on the air, and that, in turn, tends to push it out of the tank. As a result, the pressure in the tank rises, this leads to a shutdown of the pump.
For some time, when the system consumes water, compressed air maintains the pressure. He pushes water into the plumbing. When its quantity in the membrane decreases so that the pressure drops to the lower limit, the relay is activated, again turning on the pump.
In the hydraulic tank there is a constant interaction of water and gas, separated from each other by a rubber membrane. The volume of liquid inside the device is regulated by the amount of gas (its pressure) (+)
Classification by application
You should not confuse the tanks for water supply and for the heating system, so when choosing you need to find out their purpose. For a clear identification, manufacturers paint accumulators for heating in red, for water supply - in blue.
However, some do not adhere to this marking, so the following data can serve as a distinguishing feature of devices:
- for water supply, the maximum temperature for using the accumulator will be up to 70 ° C, the permissible pressure can reach 10 bar;
- devices designed for the heating system can withstand temperatures up to +120 ° C, the working pressure of the expansion tank often does not exceed 1.5 bar.
All the most important parameters are indicated on the decorative cap (nameplate), which closes the nipple.
The device designed for the heating system serves as an additional tank, allowing the coolant to expand freely when heated. Without it, the system is doomed to destruction
The list of functions that a hydraulic tank performs in an HV (cold water supply) system is much wider:
- Maintaining an even and constant pressure in the water supply. Due to air pressure, the pressure is maintained for some time even with the pump turned off, until it drops to the set minimum and the pump switches back on. Thus, the pressure in the system is maintained even with the simultaneous use of several plumbing fixtures.
- Pump equipment wear protection. The water reserves contained in the tank allow for some time to use the water supply, not including the pump. This reduces the number of pump operations per unit time and prolongs its operation.
- Water hammer protection. A sharp jump in pressure in the water supply when the pump is turned on can reach 10 or more atmospheres, which negatively affects all elements of the system. The membrane tank takes the blow, equalizing the pressure.
- Creating water reserves. If there is a power outage, the water supply system will at least not for long, but, nevertheless, will give water for some more time.
To tie the water heater use expansion tanks that can withstand high temperatures.
Materials for hydropneumatic equipment
The membrane of the expansion tank is made of different materials that withstand a different temperature range during operation.
In accumulators used:
- Natural rubber rubber - NATURAL. The material can come into contact with drinking water; it is used to accumulate cold water. Over time, it may begin to leak water. Withstands temperatures from -10 and up to 50 ° C above zero.
- Synthetic butyl rubber - BUTYL. The most versatile, waterproof, used for water supply stations, suitable for drinking water. Operating temperatures can range from -10 to 100 ° C.
- Synthetic ethylene propylene rubber - EPDM. More permeable than the previous one, may come into contact with drinking water. The temperature range is from -10 to 100 ° C.
- SBR rubber is used only for industrial water. The temperature of use is the same as that of previous brands.
To organize cold water supply, it is necessary to choose tanks with a pear made of food rubber with improved elastic properties, which will better absorb hydraulic shocks and maintain a stable water pressure in the system.
The tank body is most often made of alloy steel, resistant to corrosion, coated on the outside with a paintwork. On sale you can also find stainless steel tanks, very durable, but at the same time expensive.
Calculation of tank volume before selection
Tanks with a capacity of 24 to 1000 liters are on sale. Which one to choose, prompt calculations, the result of which should be rounded up. When choosing a tank with a removable membrane, it should be remembered that the volume of water occupies 30% of the total capacity, that is, in a 100-liter tank, the water supply will be approximately 30 liters.
The table shows the relationship of the air pressure in the gas compartment of the accumulator with the settings of the relay and tank size (+)
The peculiarity of small tanks is that they often do not have a valve to bleed air from a rubber bulb. This may create inconvenience during operation. Large tanks have such a valve, and in addition to creating a larger supply of water, they are better at maintaining a stable pressure in the system.
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Small volume tank
Surface pump tank
Hydraulic accumulators with borehole pumps
Volume of hydraulic tanks for submersible pumps
The calculation of the total volume of the tank for closed water supply is calculated by the following formula:
Vt = K * Amax * ((1 + Pmax) * (1 + Pmin)) / (Pmax-Pmin) * (1 + Pmax),
Where:
- Vt is the total volume of the hydraulic tank;
- Amax - the maximum possible water consumption per minute, liter;
- K is the coefficient (see table), depending on the power of the pump;
- Pmax - relay settings during equipment shutdown, bar;
- Pmin - relay settings when starting up the equipment, bar;
- Pair. - pressure in the hydraulic tank (in its gas cavity), bar.
The coefficient K can be determined from the following table:
Table of coefficient K, depending on the power of the pump, for calculating the total volume of a closed type hydraulic tank for water supply
Some manufacturers also consider the tank volume differently:
The company Gileks, engaged in the production of an extensive line of equipment for water supply and heating systems, offers another formula for express determination of the volume of a hydraulic tank
Horizontal and vertical orientation
The choice between a vertical and horizontal tank is in the features of the room. If the room is small or the volume of the tank is impressive, then in order not to take up much space, install a vertical tank.
The horizontal tank has less capacity, can be suspended on the wall, and also serve as a support for the installation of a surface pump. For its installation, special mounts are provided. Large tanks are made only in vertical design and are mounted on legs.
Summing up all of the above, it can be noted that the choice of a hydraulic accumulator has to be made between such distinctive properties:
- operating pressure;
- manufacturer country;
- more or less volume;
- replaceable or not rubber membrane;
- membrane for industrial or drinking water;
- case material - stainless or enameled steel.
So that in the future there are no difficulties with the replacement of components, it is better to choose the most popular models of devices. Rubber pears for them are always on sale, if you need an urgent replacement, you do not have to wait long for delivery.
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Vertical hydraulic tank without supports
Medium Accumulators
Membrane tanks with legs
Features of vertical models
Connection diagrams for hydraulic tanks
For a hot water supply system, an expansion tank is installed in the section of the circulation line, the suction line of the pump, closer to the water heater.
The tank is equipped with:
- pressure gauge, safety valve, air vent - safety group;
- shut-off valve with a device that prevents accidental blocking.
In a plumbing system where water-heating equipment is present, the device assumes the functions of an expansion tank.
Installation diagram in the hot water system: 1 - hydraulic tank; 2 - safety valve; 3 - pumping equipment; 4 - filtering element; 5 - check valve; 6 - stopcock
In the HV system, the main rule when installing the accumulator is installation at the beginning of the piping, closer to the pump.
The connection diagram must include:
- check and shutoff valve;
- security group.
Connection schemes can be very different. The connected hydraulic tank normalizes the operation of the equipment, reducing the number of pump starts per unit time and thereby extending its service life.
Installation diagram in the HV system with a well: 1 - tank; 2 - check valve; 3 - stopcock; 4 - pressure switch; 5 - control device for pumping equipment; 6 - security group
In a circuit with a booster pump station, one of the pumps operates continuously. Such a system is installed for homes or buildings with high water consumption. The hydraulic tank here serves to neutralize pressure surges, and to store water, a capacity of as large a volume as possible is installed.
Installing the expansion tank
Before starting work, check the accumulator for damage. Installation of the device is carried out in a soundproofed room, at a plus temperature. In order to have access to a drain tap, shutoff valves, etc., the distance from the tank to the ceiling and walls is left at least 0.6 m.
In the room it is also necessary to provide for the possibility of filling the tank and draining the water. Fasteners and mounting space must withstand 100% full capacity.
For expansion tanks with a volume of up to 30 liters, wall mounting is used, large containers are mounted on legs
The accumulator should not be subjected to mechanical and statistical stress, it is undesirable to allow the impact of pipes and assemblies on it. The tank is screwed to the floor using rubber gaskets. At the entrance to the hydraulic tank, a check valve is installed, a drain valve.
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To connect the accumulator to the water supply system, you will need a pressure switch, polymer pipes, American 1 ", adapter and collet coupling, fum tape
To ensure tightness in the assembly and the ability to disassemble the equipment without damage, we seal the threads with fum tape
To simplify assembly / disassembly and the ability to easily dismantle for repair, we put an American in front of a pressure switch
We connect the pressure switch, trying to position it at an angle convenient for further operation and monitoring parameters
Despite the fact that there is a sealing gasket in the connection unit of the pressure gauge with the relay, the threaded connection in this place is additionally passed with sealing tape
We weld a knee from PVC pipes for convenience and simplification of connecting the line transporting water to consumers
To the pipe located at the outlet of the pressure switch we connect a knee welded from PVC pipes
Using a sleeve for polyethylene pipes equipped with a collet clamp, we connect the water line from the pump to the hydraulic tank
Step 1: Selection of components for connecting the tank
Step 2: Seal the threads on the tank flange
Step 3: Installing an American in front of a pressure switch
Step 4: Connection to the pressure switch circuit
Step 5: Connecting the Pressure Gauge
Step 6: Welding the pipes for the elbow
Step 7: Fixing the elbow for the plumbing
Step 8: Fastening the pipe from the pump to the relay
These steps were required for the device accumulator harness, which was produced on the day surface. For further action, you need to move to the caisson.
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Step 9: Immersion of the system section in the caisson
Step 10: Assembly of the water pipe section in the caisson
Step 11: Removing the cover to connect the electrics
Step 12: Securing the Pump Power Cable
After the final assembly of the system, it remains to conduct control tests and start the water supply circuit.
Features of the accumulator adjustment
Expansion tanks for water supply go on sale with the standard settings of the manufacturer - often the pressure in the air compartment is already set at 1.5 bar. The permissible pressure is always indicated on the label and the manufacturer does not recommend deviating from the set parameters, especially in the direction of its increase.
Before starting the adjustment, the system is disconnected from the mains and the shut-off valves are closed. The membrane tank is completely emptied by draining the water - an accurate indicator of pressure can be measured only with an empty water compartment.
Then take pressure readings using an accurate pressure gauge. To do this, remove the decorative cap from the spool and bring the device. If the pressure differs from the required one, then it is brought into compliance by pumping or bleeding excess air.
Given that the manufacturer is against deviations from the recommended pressure indicators, it is necessary at the design stage to choose the right equipment, the parameters of which will not conflict with each other
When adjusting the pressure in the gas compartment of the tank, the manufacturer fills it with an inert gas, for example, dried nitrogen. This prevents corrosion of the inner surface. Therefore, users are also advised to use technical nitrogen to increase pressure.
Setting the tank pressure in the water supply system
The pressure in the closed tank is always set slightly lower (by 10%) than the pressure level when starting the pump. By adjusting the pressure in the device, you can adjust the water pressure. The lower the gas pressure in the hydraulic tank (but not less than 1 bar), the more water it will contain.
The pressure in this case will become uneven - strong when the tank is full and weaker when it is empty. To ensure a strong and even flow of water, set the pressure in the chamber with air or gas within 1.5 bar.
The water pressure in the water supply is set using a relay. When setting the pressure in the expansion chamber, these values must be taken into account.
Adjusting the hydraulic tank in the tank
The expansion tank, which is used for hot water supply, should not initially contain water. The pressure in the device is set at an indicator that is 0.2 greater than the upper threshold for shutting down the pump.
For example, if the relay is configured to turn off the equipment at a pressure of 4 bar, then the pressure in the gas compartment of the expansion tank should be set to 4.2 bar.
Installed in the piping of the heater, the tank does not serve to maintain pressure. It is designed to compensate for expansion when water is heated. If you set the pressure in it to a lower value, then water will constantly be in the tank.
Service Tank Rules
A routine inspection of the expansion tank is to check the pressure in the gas compartment. It is also necessary to inspect the valves, valves, air vent, check the operation of the pressure gauge and water pressure switch. To verify the integrity of the tank conduct an external inspection.
During preventative maintenance, the pressure in the hydraulic tank should be measured and adjusted if necessary.
Despite the simplicity of the device, expansion tanks for water supply are still not eternal and can break. Typical causes are rupture of the membrane or loss of air through the nipple. Signs of breakdowns can be determined by the frequent operation of the pump, the appearance of noise in the water supply system. Understanding the operating principle of the accumulator is the first step towards proper maintenance and troubleshooting.
Installation of an open tank
An open type device is used less and less, since it requires constant user intervention in its work. An open expansion tank is an unpressurized container that serves to generate pressure in the water supply system, accumulate water, and also serves as an expansion chamber.
The tank is connected to: a drain valve, nozzles for a recirculation and supply pipe, a control and overflow pipe
The tank is installed above the highest sanitary point, for example, in the attic, water flows into the system by gravity. Each meter that the device rises increases the pressure in the water supply by 0.1 atmospheres.
To automate the process of providing water, the tank is equipped with a float switch and an automatic relay is installed, which will turn the pump on and off.
The container is mounted in an frost-free room, covered with a lid from dust and debris, wrap the walls with mineral wool or other insulation
This way of organizing water supply requires regular user monitoring, otherwise the water at freezing temperatures may freeze (if the room is not heated). The liquid will evaporate, so you have to constantly add it.
In addition, such a container is bulky and not aesthetically pleasing, for it you definitely need to have an attic in the house. But the main drawback of the device is that the tank is not adapted to work in conditions of high water pressure in the system.
Clip # 1. All about expansion tanks - classification, purpose, adjustment and symptoms of malfunctions:
Clip # 2. Improper operation of the pumping station is often associated with accumulator malfunctions:
Clip # 3. Nuances of choosing hydraulic tanks for water supply:
Even at the planning and development stage of the water supply system, it is necessary to think over all fundamentally important points and calculate all the parameters. If you are not sure of the infallibility of your calculations and the correct choice of a hydraulic tank for water supply, it is better to contact specialists.
Most companies selling professional equipment provide advice or even carry out calculations for free. This will help to avoid mistakes and waste.
We are waiting for your comments with stories about our own experience in using the expansion tank, with questions that arose during the familiarization with the information provided. We are interested in your comments and possible suggestions. You can comment on the material in the block below.