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Lenze inverters reduce energy bills for loads that vary

21 June 2012

Up to 30% energy savings without extra cost

A factor that is slowing the take-up of energy saving technology is the reluctance for companies to invest, even though the payback times are usually short. However for some types of machinery, designers can in-corporate drives that reduce running costs by up to 30%, without addi-tional costs. This is possible for conveyors, pumps, fans and other cases where there are substantial variations in the load. Here the Lenze 8400 series of frequency inverters can give these major savings by adapting the motor magnetisation currents to match the varying loads. The feature is called VFC eco and it is standard for the 8400 range at no extra cost.

It is a fact of life with standard AC asynchronous motors that optimum effi-ciency is achieved around full load, and the efficiency falls steeply at partial loads, particularly below 40%. The reason relates to the magnetisation cur-rents. For such cases running directly on-line or even in vector control by fre-quency inverters, the magnetisation current remains constant when the load reduces. Magnetisation currents result in copper and iron losses which are the main factor that decides the motor efficiency. Where the running load falls to 20% of full load, the loss in efficiency is often greater than 30%.

The VFC eco feature is a switchable software option included in the 8400 series of cabinet and decentralised inverters. Effectively it is a loss-optimised algorithm that maintains a constant power factor φ either at fixed or variable frequencies. It is most effective in a range between 5 and 60% of full load. Here there are significant savings, for example a typical motor efficiency at 20% load might be 53% without VFC eco, and 70% with.

The diagrams illustrate the changes in motor currents as the load changes. Normally when a motor goes from full to partial load, the stator current Iq (al-so known as the torque producing current) reduces. However the motor cur-rent Id, which is the magnetisation current, remains unchanged. With inverter control the applied voltage Us will also decrease. Note that at partial load the angle φ increases. As the efficiency of the motor is proportional to the Cos φ (the Power Factor), the efficiency has therefore decreased.

With VFC eco enabled, the magnetisation current Id reduces. Torque is a function of Id x Iq, so for a fixed load there area in the triangle remains con-stant with Iq increasing. However the important factor is that the angle φ is restored virtually to the original full load value. The smaller angle φ means that the Power Factor and efficiency stay high.

Airport baggage conveyors are typical applications with varying loads and low dynamics that suit VFC eco. They run continuously at fixed speed and can be full of suitcases at one minute, then empty at the next. Without VFC eco the motor efficiency will vary with load from typically 85% down to 60%. With VFC eco switched on, the efficiency level will hold up at about 80%.

Actual tests made on a roller conveyor prove the 30% energy savings. The conveyor was driven by an inverter and a 0.75kW motor with IE2 efficiency. Varying light loads up to 20% of maximum gave consistent savings above the 30% level.

Conveyor load            0 kg 500 kg 1000 kg
Power without VFC eco   190W 210W 250W
Power with VFC eco       130W 140W 170W
Savings                         32% 33% 32%

VFC eco does not only suit drives that run at constant speed. It gives an ad-ditional advantage for variable speed machinery by substantially extending the efficient working range of the motor. The effect can be seen in the graph-ic below which charts the efficiency of an IE2 helical geared motor of power 1.1kW. There is a big gain in efficiency particularly in the region 10-35% full speed and 20-40% load.

VFC eco is most effective for motor powers from 0.75 to 3.0kW although it is worth investigating for powers in a range 0.37 to 4.0kW. Lenze DSD (Drive Solution Designer) software can simulate the application and identify the run-ning costs with and without it. DSD takes in all the details of the machine ap-plication and gives graphical displays of drives profiles and energy usage with direct comparison of alternatives. It becomes easy to optimise the drive for purchase cost and running cost. An output of DSD is the Energy Certifi-cate which reveals payback periods and lifetime running costs.

The VFC eco software option available free of charge is the Lenze 8400 se-ries frequency inverters can make major savings of up to 30% in the running costs of machinery such as belt & roller conveyors. Successful applications have highly variable loads, low dynamics and are usually in a power range 0.75 to 3.0 kW. Machine builders can achieve these savings through the standard inverter range with no extra costs. The 8400 series inverters suit cabinet mounting and are also available as IP65 enclosed decentralised drives. Drive packages of inverter with IE2 motor and energy efficient gear-boxes can be supplied.

For further information, please contact Geoff Spear:

Lenze Ltd

Fraser Road, Priory Business Park
Bedford MK44 3WH
Phone: +44 1234 321321
Fax: +44 1234 355299
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