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Comparison Svityaz 4SKM100 vs Sprut 4SKm 100

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Svityaz 4SKM100
Sprut 4SKm 100
Svityaz 4SKM100Sprut 4SKm 100
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Max. performance
3600 L/h /maximum/
3600 L/h /maximum/
Max. head
70 m /maximum/
70 m /maximum/
Specs
Max. working pressure5 bar
Operating principleaugervortex
Max. particle size0.05 mm
Mechanical impurities20 g/m³
pH value6.5 – 9.5
Suction systemsingle stagesingle stage
Oulet size1"1"
Max. liquid T40 °С35 °С
Motor
Power consumption1000 W1000 W
Mains voltage230 V230 V
Power cable length12 m20 m
General specs
Overheat protection
Overload protection
Country of originUkraine
Impeller materialstainless steelbrass
Dimensions97х485 mm
Weight14 kg15.5 kg
Added to E-Catalogdecember 2018september 2014

Max. working pressure

The highest pressure that can occur in the line when the pump is running. Note that usually we are not talking about normal working pressure (it is described by max. head, see above), but about short-term jumps that can significantly exceed standard values. The water supply system to which the pump is connected must normally tolerate not only standard values but also the mentioned jumps — otherwise, an accident may occur. Accordingly, the maximum working pressure is useful for assessing how the safety factor of pipes, fittings and other elements of the system corresponds to the characteristics of the pump.

Operating principle

The basic principle or principles by which the suction action of the pump is carried out.

Centrifugal. As the name suggests, this type of pump uses centrifugal force. Their main element is the impeller installed in a round casing; the inlet is located on the axis of rotation of this wheel. During operation, due to the centrifugal force that occurs during the rotation of the wheel, the liquid is thrown from the centre to its edges and then enters the outlet pipe directed tangentially to the circle of rotation of the wheel. Centrifugal pumps are quite simple in design and inexpensive, while they are reliable and economical (due to high efficiency), and the fluid flow is continuous. At the same time, the performance of such units can drop significantly with high resistance in the water supply system, and the resistance to pollution, although higher than that of vortex units, is still noticeably inferior to auger ones(see below).

Vortex. Vortex pumps are somewhat similar to centrifugal pumps: they also have a round casing and an impeller with blades. However, in such units, both the inlet and outlet pipes are directed tangentially to the impeller, and the blades differ in design. The method of operation is also fundamentally different — by the name, of it uses the vortices formed on the wheel blades. Vortex units are significantly superior to centrifug...al units in terms of pressure but they are more sensitive to contamination — even small particles entering the impeller can cause damage, significantly reducing efficiency. In addition, the efficiency of such pumps is low — 2-3 times lower than that of centrifugal ones.

— Auger. The main part of such pumps is a rotor in the form of an auger (or several such rotors). The main advantage of pumps of this type is high reliability — they can easily cope even with very sandy water; in addition, the level of noise and vibration during operation is minimal. On the other hand, auger pumps are inferior to the options described above in terms of performance, and their cost is quite high due to the requirements for production quality.

Max. particle size

The largest size of solids in the pumped water that the pump can handle without failure. It is one of the parameters characterizing the unit's ability to work with dirty water (along with the content of mechanical impurities, see below): the larger the particles, the more reliable the pump and the lower the likelihood of it breaking down due to pollution. This point is especially relevant for recently drilled wells, where the water has not yet had time to clear.

Mechanical impurities

The largest amount of mechanical impurities in the pumped water, which the pump can handle normally. When used with dirty water, this parameter should be taken into account along with the maximum particle size (see above): if the impurity content is too high, the pump may fail even if the individual particle size does not exceed the norm.

pH value

The pH value of the pumped liquid for which the pump is designed. This indicator describes the level of acidity of the medium, roughly speaking, how reactive it is to the “acidic” or “alkaline” side: low pH values correspond to an acidic environment, and high pH values are alkaline. Acid and alkaline have different effects on the materials used in the design of various equipment, including pumps. Therefore, when designing parts in direct contact with water, the pH level must be taken into account, and using the pump with unsuitable water is not recommended — this can lead to corrosion, poor water quality and a quick failure of the unit. At the same time, it is worth noting that drinking water wells typically have a pH of 6.5 to 8, and overlapping this range (and even wider) is not a problem. Therefore, this parameter can be called secondary, and in many models, it is not indicated at all.

Max. liquid T

The highest suction water temperature at which the pump can operate normally. For deep well pumps, the water temperature is also important because the pump is constantly immersed in water during operation, and the liquid provides cooling. Therefore, in modern models, performance indicators are usually low — less than 30-35 °C. However, the temperature in artesian wells, usually, is much lower (the only exceptions are regions with thermal waters, but specific equipment is used there).

Power cable length

The length of the standard power cable provided in the design of the pump.

Ideally, the length of this cable should not be less than the maximum immersion depth — this will ensure maximum ease of connection: the connection point of the cable to the mains will be above the water (in the best case, even outside the well), and you will not have to worry about insulation. At the same time, for several reasons, many pumps are equipped with rather short cords — about 1.5-2 m, and not long cables; in such cases, it is necessary to use special waterproof equipment.

Overheat protection

To avoid overheating of the engine, deep well pumps are equipped with a special thermal relay. When it detects a heating temperature above the norm, it automatically turns off the motor, preventing it from failing.

Overload protection

A safety system in case of an overload of a deep well pump when its engine is running beyond its capacity. It can lead to engine failure or even fire. Overloading is usually prevented by thermal current relays introduced into the circuit of pumping equipment.
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