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For variable-speed compressor in heating and air conditioning systems, see Inverter compressor
A variable-speed drive (VSD) air compressor is an air compressor that takes advantage of variable-speed drive technology. This type of compressor uses a special drive to control the speed (RPM) of the unit, which in turn saves energy compared to a fixed speed equivalent.[1] This is done to improve the efficiency of the compressor as varying the displacement or compression ratio of a compressor generally introduces significant inefficiency, or is impractical to implement.
The most common form of VSD technology in the air compressor industry is a variable-frequency drive, which converts the incoming AC power to DC and then back to a quasi-sinusoidal AC power using an inverter switching circuit. The variable-frequency drive article provides additional information on electronic speed controls used with various types of AC motors.
Benefits
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The benefits of this technology included reducing power cost, reducing power surges (from starting AC motors), and delivering a more constant pressure. The down side of this technology is the heavy expense associated with the drive, and the sensitivity of these drives specifically to heat and moisture.
Industry
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Typically a fifth of a factory's electricity bill is attributed to the production of compressed air. The majority of modern factories are heavily involved in cutting costs, and energy awareness should be a key concern. For example, 1012% of all power generated in the UK is dedicated to the production of compressed air and a portion of this power is wasted energy.
Large electrical cost savings can be achieved by installing a variable speed drive compressor in place of an existing rotary screw or piston machine. Because of this, many governments, including the US and UK, are pushing the industries to move towards this technology in hopes of reducing wasted energy. Governments offer various incentives, such as tax rebates or interest free loans, to cover the upgrades.
However, variable speed drive compressors are not necessarily appropriate for all industrial applications. If a variable speed drive compressor operates continuously at full speed, the switching losses [de] of the frequency converter result in a lower energy efficiency than an otherwise identically sized fixed speed compressor. Where demand remains constant within 515% of the total free air delivery flow rate, dual-control compressors configured in a split solution can provide higher efficiency than a VSD.
A professional air audit is the best way to identify if a VSD compressor is most appropriate for any given compressed air application.[2] These audits are available from various companies that specialize in the implementation of compressed air equipment, which can determine the most efficient controls for a compressed air system including variable speed, variable capacity or using storage and flow controllers.[3]
See also
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References
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For more sterile compressed air filtersinformation, please contact us. We will provide professional answers.
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From changes in shift patterns to peaks and troughs in production and workloads, where compressed air demand fluctuates, opting for a compressor with a variable speed drive (VSD) has long since been a popular choice.
By utilising a variable speed drive (also known as a frequency controlled drive), such compressors are able to vary the speed of the airend to directly match the free air delivery (FAD) - or flow - required by the application. And, by efficiently maintaining steady discharge pressure in widely varying loads, they will be more efficient than compressors which idle a lot or use modulation control. The end result - energy savings. And, energy savings of course means reduced operating costs as well as having a positive impact on a companys carbon footprint.
If correctly applied, another benefit of operating a VSD compressor will be an extended motor life thanks to soft motor starts, which prevent an inrush current that can overheat windings. In addition, as VSD compressors dont operate on pressure bands, some can maintain discharge pressure within +/- 0.1 bar(g) of the set pressure. Such consistent discharge pressure also has the benefit of being kinder on air treatment and associated components downstream of the compressor.
But, the crucial point you need to remember is that variable speed drive compressors will only be the most energy efficient option under specific circumstances. It is not a one-size-fits-all option.
Lets explain...
Firstly, VSD compressors are only most efficient when running from typically 40% load up to 80% loading (see diagram 1 below). This is where their performance is most economical. Outside of this the airend is running beyond its optimum efficiency ranges and not being efficient or cost effective. When used for the wrong task, they can quickly make compressed air production more expensive than it needs to be.
And, heres something else to bear in mind when it comes to VSD compressors. They are very sensitive to heat and moisture. Their dependability in extreme ambient conditions should be considered. High moisture and fine dust can cause issues for these devices. This means they are simply not suited to every application.
System splitting may be a better option. In most cases, compressors can be classified by function as baseload, medium load, peak load and standby compressors. Baseload means that the basic amount of compressed air needed by an operation to function is always 100% covered. These are complemented by peak load compressors, which deliver additional volumes needed during peak periods, which vary due to the different consumers. To round-out the station, stand-by systems are integrated to ensure a reliable supply of compressed air in the unlikely event of a failure in the baseload systems.
Whether the best solution is provided by a single VSD compressor or by smaller, fixed-switching peak-load compressors can be determined through an audit of the actual compressed air demand followed by a simulation.
For optimal coverage of the various load functions, the compressors should be equipped with integrated control systems that if in the event of multiple compressors being used on site can easily communicate with a master PC based system controller - such as the Sigma Air Manager 4.0 (SAM 4.0). In the case of the SAM 4.0, this central mastermind controls the entire compressed air supply system. By constantly and in real-time analysing process data, the SAM 4.0 can identify and switch to the most efficient single compressor - or combination of compressors - to precisely meet the air demand at any one time. This not only optimises the overall efficiency of the compressed air system but it ensures that each compressor operates at its best efficiency point.
A key prerequisite for efficient i.e. cost-effective control is to ensure seamless graduation of the compressors. Consequently, the sum of the peak loads should be greater than that of the next baseload system to be activated. When using VSD peak load compressors, it is therefore advisable to select a control range exceeding the output of the next compressor to be activated.
Hopefully what the above has demonstrated, is that there is not a one-size-fits-all approach to deciding whether a VSD compressor is right for your business. Matching the exact compressor to the site demand profile is crucial, as is having the correct control measures in place to ensure that any VSD compressors you have are run only within this range.
Keep in mind that both VSD and fixed speed compressors have pros and cons. It is simply not the case that one technology is better than the other, it's more that they are better in different circumstances.
With Kaeser's Air Demand Analysis (ADA) and the Kaeser Energy Saving System (KESS), our experts can assist you in creating the optimum solution for outstanding compressed air supply efficiency and dependability. Find out how our ADA and KESS can assist you in operating an energy optimised compressed air station. 640 611 or simply fill in the form below and we will get back to you.
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