Pump Selection

It is highly recommended to always select the smaller pump if the specified system duty point is between two possible pump curves. The resulting capacity reduction has, in heating systems, no appreciable effect on the effective heating performance. The positive effects are lower noise levels, lower investment costs and improved economy. For heating installations it is customary to undersize pump capacities up to 10% below the specified duty.To avoid Cavitation (vapour formation within the pump) it is necessary to maintain at the pump suction port an adequately high positive pressure (static head) in relation to the vapour pressure of the fluid being handled. The minimum required inlet heads for Glandless pumps are generally listed in pressure charts. Glanded pumps require calculations in accordance with the NPSH information.

Glanded Pump

DesignThe uniform feature of glanded pumps is the separation between the pumped fluid and theirst drive motor. The connection between the impeller in the pump body and the motor is made by either a common shaft or by coupled shaft parts. The rotating motor component remains dry (thus the term Dry-Motor Pump). The rotor support by means of roller bearings requires separate lubrication. The pumps are normally driven by IEC-standards electric motors but also by special design motors up to explosion-protected versions.Pump types / function Glanded pumps are of two distinctly different designs:
  • Monobloc Glanded Centrifugal Pumps
  • DIN-Standards Centrifugal End-Suction Pumps
Glanded pumps are louder than glandless pumps. The noise is caused by the roller bearing (ball bearing or needle bearing) and the fan wheel of the surface-cooled electric motor. The noise of the pump itself – flow noise, bearing noise – is completely negligible, unless unusual operating situations occur (cavitation, etc.).

Canned rotor pump

This eliminates the need for shaft sealing by means of a stuffing box or mechanical seal, which is required for other pump types.The pumped medium serves both to lubricate the motor bearings (plain bearings) and to cool the interior of the rotor. This so-called wet space is sealed off from the atmosphere or the motor winding by a can. This can has an average wall thickness of only 0.1 to 0.3 mm and is made of non-magnetic high-alloy steel. The canister is statically sealed using O-ring seals. Function / feature The advantage of this construction is clearly that it is completely maintenance-free. No exchange or messages, no exchange of sealing elements, but perfect function during the entire operating time.The smoothness of this design is remarkable. Apart from the damping properties of the water, in which the rotating parts move, the reason for this smoothness is the sliding bearing of the rotor. This eliminates all rolling or rolling noises that occur in rolling bearings z. B. can occur by means of ball bearings.Not only the smooth running, but also the service life and the degree of susceptibility to failure are decisively influenced by this component.The design of the bearing is one of the most important design features of wet rotor pumps. In addition to the structural design of the bearings, the material pairing of the bearing is of decisive importance for the operational safety of the pump. The following combinations have become established in practice:
  • Ceramic shaft / ceramic bearing
  • Hardened chrome steel shaft / carbon bearing.
The ceramic bearing, shaft and bearing made of the same material, a pairing that contradicts traditional bearing theory, has very little bearing wear on the basis of the extremely hard and brittle material aluminum oxide ceramic with optimal bearing lubrication. However, if there is no requirement for proper lubrication, e.g. B. Dry running due to air accumulation or steam formation in the event of overheating, there is a risk of blockage after a short time. In addition, the ceramic shaft is relatively susceptible to breakage when subjected to mechanical stress, e.g. due to transport vibrations or when attempting to unblock it due to tilting with a screwdriver.In contrast, the two-material bearing – hardened chrome steel shaft / carbon bearing – shows the very good dry-running or emergency running properties of metal-impregnated carbon bearings. In addition, there is the proverbial break resistance of the hardened steel shaft against impacts and vibrations. Operational behavior On the basis of decades of practice with millions of pumps, a statistical mean under normal operating conditions and depending on the pump design has resulted in a service life of approx. 40,000 to 70,000 operating hours. This corresponds to an average of 8-12 years with normal heating operation. The optimal functionality of this construction is also underlined by the fact that quite a few wet-running pumps run for more than 15 to 20 years (over 100,000 operating hours) without malfunction and maintenance.Glandless pumps in building technology consistently have the speed control of the drive motors as a special feature. In the meantime, manually switchable controls are no longer permitted for new installations in many countries and have largely been replaced by automatic controls.

Glandless Pump

There are two distinctive designs of glandless pumps, one with dry stator windings (Canned Rotor Motor) and one with wet-stator windings (Wet Stator Motor).With this design, there is no shaft seal between the pump and the motor. The pumped medium is used for cooling and lubricating the motor at the same time. Glandless pumps are considered to be particularly low-noise, which makes them ideal for use in living spaces. The omission of the shaft seal makes the system particularly low-maintenance and leakage-free. This also makes canned motor pumps interesting in process technology for applications where leakage-free pumping is important.A disadvantage is the lower efficiency compared to pumps with shaft seals (glanded pumps), especially at higher outputs.Typical applications for canned rotor pumps are as heating circulating pumps, process pumps for the chemical industry and process engineering and as nuclear reactor pumps. Wet stator pumps are mainly used as submersible pumps in wells and for circulating duties in conventional power plants.

Pump Designs in Building Services

In building services, especially for pumps for heating and air-conditioning technology, the classification of the pump design according to the sealing (wetting of the motor) is widespread:
DesignDescription
Glandless PumpGlandless pump with canned rotor motor
Glanded PumpCentrifugal pump with shaft seal
In addition, the subdivision according to the type of installation or the arrangement of the drive is common:
  • Monobloc with flange-mounted motor
  • DIN-standards with motor and coupling on common baseplate