Proportioning the Compressed Air Dryer
Trying to figure out which air dryer capacity is best for you? Here are some factors to consider. Read More…
Compressed air is one of the most widely used forms of energy throughout many industries, with approximately 70% of manufacturers using a compressed air system.
Compressed air can be one of the most expensive forms of energy for manufacturing plants, often using more energy than other equipment. One horsepower of compressed air requires eight horsepower of electricity. With many air compressors running at efficiencies as low as 10%, thereβs often plenty of room for improvement. Fortunately, 50% of compressed air systems at small- to medium-sized industrial facilities have opportunities for low-cost energy conservation.
What influences air compressor energy efficiency? Such factors include type, model, size, motor power rating, system design, control mechanisms, uses and maintenance schedule. The chief reason for inefficient air compression is the loss of heat generated from the increased temperature of pressurized air and from friction caused by the systemβs many moving parts.
When it comes to air compressor efficiency, itβs important to examine the entire system, which includes not only the air compressor itself
but supply lines, air storage tanks, air dryers, receivers and after-coolers. By making the right adjustments to your compressed air system,
you can save significant amounts of energy and money.
Many factors can contribute to an air compressorβs inefficiency. Air compressor performance may grow less efficient with time when any of the following factors are at work:
Maximizing air compressor efficiency usually starts with determining what factors are wearing the system down. Energy-efficient compressors depend on both the controls and the design to provide maximum efficiency.
The most efficient air compressor system will require properly tuned controls that run closer to the minimum pressure and a well-maintained system design that matches the application.
Improve your systemβs efficiency with the following approaches:
By maximizing compressor efficiency using these approaches, you can also boost air compressor performance and increase its lifespan.
There are three components of the air compression system that influence performance:
Air compressor controls match the compressor output with the demands of the compressor system, which may consist of a single compressor or multiple compressors. Such controls are essential for air compressor system efficiency and well as high performance.
Compressed air systems are designed to maintain a certain range of pressure and to deliver a volume of air that varies with end-user demands. The control system decreases compressor output when the pressure reaches a certain level. If pressure drops, on the other hand, compressor output is increased.
The most precise control systems can maintain low average pressure without falling below system requirements. Falling below system requirements may cause equipment to malfunction. This is why itβs so important to match system controls with storage capacity.
The following controls can help increase the efficiency of single compressors:
A well-designed system should use the following:
The primary goal of such a system is to deliver compressed air at the lowest stable pressure while supporting fluctuation with stored higher pressure compressed air.
For multiple compressors, sequencing controls can meet demand by running compressors to meet system loads while taking them offline when not needed. Network controls also help manage loads for the entire system.
There are six ways to improve the design of your air compressor system.
Pressure drops occur as compressed air travels through the distribution system. Excessive pressure drops may cause poor performance and elevated energy consumption. Pressure drops upstream from the compressor signal result in lower operating pressure for the end-user. This requires higher pressures to meet the compressor control settings. Before adding capacity or increasing system pressure, be sure to reduce pressure drops in the system. Compressed air equipment should be operated at the lowest efficient operating pressure for best results.
The following are ways to reduce pressure drops:
Many tools can operate effectively with air supply of 80 pounds per square inch gauge (psig) or less. By reducing the air compressor discharge pressure, you can reduce leakage rates, improve capacity and save money. However, reductions in operating pressure may require modifications to pressure regulators, filters and storage size. Keep in mind that if system pressure falls below minimum requirements, equipment may no longer function properly.
Reducing pressure drops allows a system to operate more efficiently at lower pressures. For machinery that uses large amounts of compressed air, operating the equipment at lower pressure levels can provide significant energy savings. Components like larger air cylinders may be necessary to maintain proper functionality at lower pressure levels, but the energy savings should exceed the cost of additional equipment.
Poorly maintained air compression systems can cause wasted energy and money. This makes it important to constantly check your systems for leaks, premature wear and tear and the accumulation of contaminants.
Wasted air is the leading cause of energy loss in air compression systems, wasting as much as 20 to 30% of a compressorβs output. Even small leaks can be very costly, leaking large amounts of air over time if left uncorrected. Keep in mind, the loss of air is proportional to the size of the leak and the amount of supply pressure in the system.
Leaks not only waste energy but also cause drops in system pressure that make air tools less efficient. This lack of pressure means that equipment will run longer to achieve the same results. Increased running time also means additional maintenance and even downtime.
Detecting and fixing leaks can reduce energy loss to less than 10% of the compressor output. Leaks can be found anywhere in the compressed air system, but most leaks occur in pressure regulators, open condensate traps and shut-off valves, disconnects, pipe joints, thread sealants, couplings, hoses, tubes and fittings.
To estimate the leakage in your compressed air system, take measurements that will determine the time it takes for the compressor to load and unload. Air leaks will make the compressor cycle on and off because of pressure drops caused by leaks. Calculate the percentage of total leakage by using the following form: Leakage (%) = [(on-load time in minutes x 100) / (on-load time in minutes + off-load time in minutes)]. In a well-maintained system, the percentage should be less than 10%. A poorly-maintained system will reveal leakage of 20% or more.
If you donβt have an ultrasonic leak detector, you can apply soapy water with paint brushes to likely trouble spots.
Until you can repair a leak, you can reduce leaks by lowering the pressure in the compressed air system. Stabilize the system header pressure at the lowest range to minimize leakage rate.
Filters are used to ensure that clean air reaches end-users. Dust, dirt and grease can clog filters, causing a drop in system air pressure. If filters arenβt cleaned, pressure drops can require more energy to maintain the same pressure. Also, be sure to use low-pressure drop, long-life filters and also size these filters based on the maximum rate of flow.
Be sure that procedures are in place for maintaining the compressed air system and that employees are properly trained in these procedures. This should keep the system running efficiently for years to come.
Fortunately, there are many approaches to improving the efficiency of your compressed air system. With proper maintenance, thereβs no reason your system canβt provide cost savings along with high performance.
Ash Air can ensure high performance and minimal energy use with power-saving options on its line. Energy efficiency translates to cost savings for your business.
Ash Air has been around in New Zealand since 1979, and weβve grown into a nationwide company with international support and a
reputation for quality and reliability.We look after all things compressed air for your business!
Ash Air's range of Chicago Pneumatic, Alup, Pneumatech, and Quincy compressors are used extensively around the world in industries
ranging from oil and gas to food, automotive and farming, and we bring you these world class compressors here in the land of the long white
cloud.Our technicians are compressed air equipment experts and are dedicated to addressing customer needs. Supported by a 13 locations
nationwide, Ash Air offers one of the widest selections of compressed air equipment and parts available today in New Zealand.
With Ash Air compressors, you can count on reliability and high performance for even the most demanding applications. We focus our
efforts on the following:
Talk to the team today:
Proportioning the Compressed Air Dryer
Trying to figure out which air dryer capacity is best for you? Here are some factors to consider.
Read More…
Maintenance budget: 8 factors to consider
Just like any other equipment, a compressed air installation also requires the necessary maintenance work during its entire
lifespan. Even though maintenance costs are only about 5 to 10% of a machine's annual operating costs, failure to budget for
maintenance can have potentially disastrous consequences.
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The air dyer is one of the most ignored cooler in the system. A dirty condenser will cause water in the lines, or worse it will cause
complete dryer failure.
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Why Replace CO2 with Nitrogen in your Brewery
Using nitrogen is not about fully replacing CO2, but it can reduce their consumption of CO2 by close to 70%. Using nitrogen is about
sustainability. Creating your own nitrogen is easy and will reduce the use of a greenhouse gas, which is better for the environment. It will
also save you money as early as month one adding that savings to your bottom line.
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What do I need to know about ICONS?
ICONS: Intelligent Connectivity System: The insight into your compressed air system, wherever you are. Learn More about ICONS in this article here!
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A question that is occasionally asked by our customers to Ash Air is 'what is the cost of compressed air?'Β This article looks at the
product costs involved with compressed air, as well as minimising the energy cost of compressors and cost allocation. When looking at these
factors, we need to realise what causes dropped efficiency of your compressor, leading to increased costs of compressed air.
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How to avoid falling objects when working at heights
You may have great fall protection measures in place to keep employees safe when working at height, but what about their co-workers below?
Dropped tools and other falling objects are a major hazard β and one that isnβt always fully addressed.Β
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Providing a safe working environment for operators is essential, especially when using pneumatic tools and compressed air. If there is a
failure in the air network and the hose is not adequately clamped, the resulting whiplash could be devastating. Failure to follow best
practice can result in injuries, associated production downtime and decreased productivity.
Read More…
Why do I need a dryer for my compressor?
A common questions asked is why do I need an air dryer for my compressor? Typically, air compressors produce water, and although the
water can be drained, there can still be aerosol and vapour droplets that are present. This is because water cannoet be compressed. Water
can damage your compressor by corroding the valves, pipes and machinery controls, which will cost you time and money to resolve. In
the long run, the cost of a new compressor is a small price to pay compared to the loss of production that could potentially arise due
to water damage in your compressor.
What are some preventable causes of air compressor failure?
Air compressors can fail for an assortment of different reasons: Normal wear and tear, lifespan and age of the unit, poor maintenance, power surge, install issues are just a few the come to mind. Check out this blog to find out our top 7 tips to ensure your compressor is looked
after!
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Simple Ways to Reduce Your Compressed Air Costs?
Air compressors use considerable volumes of energy during a typical work cycle. When you add up all the expenses of operating a facility,
any savings can help you boost your bottom line.
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What Should You Know When Buying a Compressor for the First Time?
If you have never bought a rotary screw air compressor before; do the following. Add up the air consumption of all the equipment at your
shop. That will be the amount of air your desired compressor should provide.
Read More…
How to Know When Your Industrial Air Compressor Needs Servicing
Knowing the telltale signs of wear and tear, understanding your productβs specifications and usability guidelines, and knowing when itβs
prudent to call in repairs are skills that could save you a lot of time, effort, and money in the long term.
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One-stage vs Multi-stage Compressor
Find out the difference between a one-stage compressor and a multi-stage compressor.
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How do I winterise my air compressor?
That cold, rainy, and in some places icey New Zealand winter is upon us, and with the following air compressor tips, your air system will be
prepared with the preferred temperatures, despite the weather outside. Regardless of whether or not it actually snows or freezes up where
you live, most winterisation service recommendations are also basic, solid maintenance procedures that will help extend the life and
operational efficiencies of air compressors regardless of whether you live in Queenstown or Northland.
Read More…
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us know!
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