Embracing motor efficiency regulations can bring cost savings

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Introduction of IE3 regulations and the anticipated arrival of IE4 presents an opportunity for businesses to embrace the latest in electric motor technology and also appreciate the cost savings that can be made. Philip Crowe, Marketing Manager of Bauer Gear Motor, says that manufacturers have developed new designs that will go beyond the required efficiency levels and enable operators to achieve significant savings in running costs

Embracing motor efficiency regulations can bring cost savingsWhile the main aim of the legislation is to reduce overall energy consumption, and in turn the amount of carbon released into the atmosphere, the technology that has been developed will also benefit individual customers.

By carefully specifying a new electric motor to a particular application, businesses can realise greatly improved lifetime operating costs whilst also benefitting from a shorter period of repayment for the initial purchase.

Electric motor manufacturers, such as Bauer Gear Motor, part of Altra Industrial Motion, have been given sufficient time to develop the required technologies and prove them in real life applications. While the legislation for IE3 came into force in January 2015 for motors above 7.5kW, some manufacturers already offer an IE4 Super Premium Efficiency product, even for applications in hygienic or potentially explosive atmospheres.

Price differential

However, anecdotal evidence would seem to show that some customers, who could benefit from the latest technology, are cautious about investing in higher levels of efficiency because of the price differential between a traditional design and that of a permanent magnet synchronous motor (PMSM). These concerns can be addressed by examining the scale of the cost savings, looking at the return on investment (ROI) and ensuring that any new motor is properly specified for the application.

Motors that meet the proposed IE4 energy efficiency standards, such as BAUER’s PMSM range, are usually permanent magnet arrangements, where the permanent magnets maintain their own persistent magnetic fields. These are more expensive to manufacture, but significantly more powerful than standard magnets. When used in a motor application, an inverter drive is usually required to power the motor, but the efficiency can be very high; of the order of 96 per cent.

It is well known that electrical motors use 65 per cent of the energy used in industry, but a lesser known fact is that 96 per cent of the lifetime costs of an electric motor is associated with the energy consumption. This shows the importance of the overall efficiency compared to the initial purchase cost in the terms of importance of the total cost of ownership (TCO). In today’s market energy efficiency has to be one of the key determining factors when specifying new motor solutions. Energy prices are expected to continue to rise so it is important that the lifelong running costs are considered; rather than simply the cost of procurement.

Proving the point

So far we have seen that improved technology and efficiency translates into a higher initial purchase cost, which is later recovered during the operation life of the PMSM. In order to provide supporting evidence of this, Bauer Gear Motor agreed to participate in a direct comparison where an inverter driven asynchronous motor (ASM) and a PMSM were set up to perform identical tasks. The comparison was conducted on an operational waste water treatment plant in Germany with both motors powering a disc thickener for seven hours every day.

Many of the processes in the water treatment industry require continuous operation, where the load may vary in response to changing conditions. Many of the applications for electric motors in this industry could benefit from new motor technology that would deliver significant energy savings across each site. In this case the trial set out to discover if the initial purchase cost of an IE4 motor can be recuperated by a significant reduction in running costs.

The trial used the same frequency inverter and gearbox so as to ensure that any differences in efficiency could only be attributed to the motors. The results demonstrated that the PMSM delivered a 40 per cent saving in energy consumption against the ASM, which, when projected over a four-year period, would have saved 1022kWh. As the price of energy looks set to rise, so the value of this saving will increase also.

Reducing losses

The PMSM series from Bauer is an environmentally friendly range of motors, employing a highly efficient design of rotor that integrates embedded permanent magnets made from the rare-earth group of materials, instead of the squirrel-cage rotor found in conventional induction motors. This design offers a number of key benefits — it reduces heat losses from the rotor by 100 per cent, total losses by approximately 25 per cent, and increases total efficiency by ten per cent or more. For the PMSM user, this improved performance translates into lower total cost of ownership, a reduction in CO2 emissions, and ongoing savings that buffer against future increases in energy costs.

Of these advantages, the most notable is the considerable improvement in efficiency when compared to induction motors, even under partial load conditions, and the extremely high efficiency under rated operating conditions.

PMSMs also have considerably higher power density, which, for geared motors, yields higher system efficiency with minimal installation volume — and also reduced weight. This is because, with an induction machine, part of the stator current is required to 'induce' rotor current in order to produce rotor flux. These additional currents generate heat within the motor. Whereas, in a PMSM, the rotor flux is already established by the permanent magnets on the rotor.

This higher power density has allowed the development of a PMSM with low rotor inertia, which is capable of providing a faster response. Furthermore, PMSM drives can produce higher torques for the same installation volume as conventional induction motors, a factor that often allows further cost saving through the ability to specify a smaller motor size.

Widening the scope

However, this is not the end of the story. New standards have also been developed to take account of the starter systems as well as the equipment that is attached to the electric motor. The objective is to simplify the task of specifying the components within a drive system by enabling comparisons to be made between similar pieces of equipment.

A specifier or an end user is currently unable to compare the different competitive components of the drive system and finally choose the most efficient motor and inverter components. A similar situation arises when the motor is integrated into a product, such as a fan or a pump, where the motor's performance cannot be measured independently from the product. In order to address these situations and to improve the potential energy savings in these areas, a new standard, EN50598, is being developed which benchmarks the efficiency ratings of power drive systems (PDS).

This new standard will also help end users to gauge payback periods more accurately. Previously, the overall efficiency of speed controlled motors was estimated using rough energy consumption figures. Now, with verified efficiency curves, the payback period for a motor/drive combination can be calculated more realistically.

Specialist applications

Development of IE4 technology is not constrained to conventional applications alone — it can also be applied to the special hygiene demands of industries such as pharmaceuticals and food and beverage, where specialist components typically have to be specified that can withstand the regular cleaning regimes and guarantee clean operation without risk of contamination.

Engineers at Bauer are committed to developing solutions for specialist industries where energy efficiency is a high priority. One example is the industry leading, IE4 Asepticdrive, a stainless steel modular geared motor whose construction significantly reduces the risk of the hygiene rating becoming compromised in the event of an impact or over prolonged periods of use in heavy washdown environments.

The improvements in energy efficiency that can be gained through careful product selection will benefit not only end users but also OEMs. For many applications a smaller PMSM can be used in place of a larger ASM, allowing smaller components to be selected through the complete energy chain. Coupled with the proven reduction in running costs, the latest motor technology certainly has a major role to play in the future.

 

 

 
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