Motors and Drives
they have been created. Filtering can be achieved with either a passive or an active filter. A simple line reactor can reduce the harmonic levels; a passive filter will remove some or part of the spectrum; while a more effective way to get rid of harmonics is the active filter, which can target specific harmonic frequencies. The alternative approach is to use a low harmonic drive.
This has an active rectifier and a built-in LCL (inductor- capacitor-inductor) filter. The active rectifier is controlled to eliminate low
order harmonics, while the LCL filter suppresses the switching frequency components caused by the rectifiers’ semiconductors. The type of filtering needed depends on the network
and on the drive installation. On a 400 V network with just a single drive of no more than 37 kW, meeting the product standard EN 61000-3-12, no additional filtering is needed. A large number of independent small drives are best
filtered by an active filter, while a few larger drives will, in most cases, be best suited for solutions involving low harmonic drives.
Site survey needed
However, it is not just the drives that need to be taken into account. The network also has a great influence and there is no substitute for a skilled pre-installation evaluation, which can save enormous costs. When M/S Torishima Pump Mfg Co. needed 40 low
voltage AC drives for use in a variety of water pumping stations and refurbishment projects in Qatar, the company contacted ABB, working in close cooperation with the end user to identify and provide the best technical solutions. ABB supplied cabinet-built versions of its low harmonic
drive in sizes from 160 to 2700 kW. These drives produce exceptionally low harmonic content in the drive input based on the use of an active rectifier, along with the motor control method, direct torque control (DTC) and the use of an LCL filter, giving a total current distortion of less than five percent. This is combined with a unity power factor. The electrical system is now more reliable due to avoiding external harmonic filters. Expensive multi-winding transformers were also unnecessary and the cabling was optimised. ABB low harmonic drives also helped a UK wastewater
pumping station to increase its pumping capacity without causing disturbances on the electrical supply network. Countess Wear wastewater treatment works, operated by South West Water, is located south of Exeter, Devon, in the UK.
The site, which is supplied at 11 kV, already had a number
of variable-speed drives in operation including a 55 kW ABB AC drive powering the existing treatment works inlet pumps. Because of the existing drives, the treatment works already
had a high harmonic loading on site. The installation of additional drives for the new storm flow pumps threatened to increase this load to unacceptable levels. To solve this potential problem, ABB recommended the installation of a low harmonic drive.
Harmonic distortion
Following installation of the drive and pumps, ABB tested the harmonic distortion, both at the incoming live connection and the cable between the fuses and contactor. Distortion readings were found to be much lower than a normal six-pulse rectifier – around two to three percent compared with the usual level of 40 per cent. Kevin Atkin, Tendering Manager with contract panel
builders Blackburn Starling, says: “We asked ABB to help and they calculated what equipment would give us the best possible solution to the problem and meet the regulations. The drive ABB recommended provided the most cost-effective solution to the problem of keeping the harmonics at the lowest possible level.” There is no need to miss out on the benefits of variable-
speed drives just for fear of harmonics. Variable-speed drives can vastly improve the pumping performance in many applications and offer enormous energy savings throughout the water industry. Harmonics can normally be dealt with, as these examples
show. However, it is important that the harmonics are actually identified as such. Otherwise, the user risks facing a long, expensive and ultimately unsuccessful battle against an invisible enemy. l
Enter 57 or ✔ at
www.engineerlive.com/ede
Sanna-Kaisa Ehanto is Market Manager/Water and Wastewater, ABB Oy, Low voltage AC drives, Finland.
www.abb.com/drives
Fig. 3. Network-side current of low harmonic drives.
Fig. 4. Network-side current of conventional drives.
www.engineerlive.com 57
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