Industrial Utility Efficiency    

Air Compressors

There is usually a deep feeling of pride welling up inside the designers and installers after completing the installation of a new compressed air system, especially if it starts up and works perfectly. But what happens after a few years, are things as perfect as at the start? This is a question with an answer that very few people know for their system. This article describes some interesting experiences with a food products company at two plants where compressed air assessments of optimized systems done a few years after the system upgrades showed problems.
Air compressors can produce a lot of water. Humidity in ambient air, once compressed, results in much of this water falling out, which we know as condensate. On a warm and humid summer day with inlet air temperatures of 80 oF, a 75-horsepower (hp) air compressor running fully loaded can produce over 25 gallons of condensate in just one eight-hour shift, with another five gallons being produced once the compressed air is sent through a dryer. The compression process allows for the air, water vapor, and lubricating fluids to mix. Once the condensate leaves the system, trace amounts of lubricant travel with it. This condensate should be processed through an oil-water separator before being discharged to groundwater or wastewater treatment plants.
Air compressors need to be matched to load effectively and efficiently. If the air compressors’ range of variation can’t be matched to the system variation, instability and/or inefficiency can result. This article discusses the problem when it isn’t matched, which is called “control gap” and what to do to avoid it.
Have you ever wondered how to stay “in control” of an engineering organization with a fixed staff and a varying workload, where the engineers all have a mind of their own? “Herding cats” is what they call it.  Of course, that’s normal, right? Well, controlling multiple centrifugal air compressors is pretty close to that model, which can lead to a condition known as “control gap.”  This article discusses the reasons for control gap with centrifugal air compressors and solutions to help avoid it.
We manufacture and market a full line of low- and medium-pressure piston and screw air compressors, as well as air dryers, air tanks and accessories. Ozen Air Technology is a subsidiary of Ozen Kompresor based in Konya, Turkey. Our company has been manufacturing air compressors and related equipment for more than 50 years. In 2018, we expanded into North and South America with an operation in Charlotte, North Carolina, which is exciting for us given the opportunity we see.  
While many businesses strive to plan, install and maintain a compressed air system that fulfils the company’s specific needs, I’ve found that implementing compressed air best practices not only accomplishes specific goals, but also results in time-tested advantages that aid in the overall business and production goals of the organization.
This story begins in Coburg, Germany in the year 1919. Coburg was first mentioned in a monastic document dated 1056, but to speed forward almost nine centuries, Coburg would join the Upper Franconia Region of Bavaria in 1920 where it remains today. Back here in 1919, the United States passed the 19th Amendment allowing women the right to vote and Pancho Villa was attacking Juarez, Mexico. So it was in 1919 that in Coburg a gentleman named Carl Kaeser Senior would open a small workshop producing parts for the early automotive industry, along with gear wheels and special machines for the glass industry.
It was early summer, the air compressors were above the production floor on a mezzanine, and temperatures were heating up both outdoors and indoors. The compressed air system was comprised of three 500-horsepower centrifugal air compressors, and one 350-horsepower variable speed drive oil-free rotary screw air compressor.
The Best Practices EXPO & Conference held from October 13-16, 2019 in Nashville, Tennessee, saw a significant increase in attendance growing by 15% to 850 attendees from 20 countries. End user (factory personnel) attendance grew by 60%! The EXPO was also truly international showcasing 115 exhibitors from 16 countries and EXPO attendance was free for qualified industry personnel. This SHOW REPORT EXTRA complements our 2019 Best Practices EXPO & Conference Show Report.
The event brought together technology experts, systems assessment professionals, and manufacturing leaders – all of whom shared best practices and ideas manufacturing plants can use to save energy, improve sustainability initiatives and increase the overall reliability and quality of on-site utilities.
The 2019 AEE World Energy Conference and Expo was held September 25-27 at the Walter E. Washington Convention Center in Washington D.C. The event featured 14+ tracks, 56 sessions, over 260 individual speakers, and 62 exhibitors.  Both Chiller & Cooling Best Practices and Compressed Air Best Practices® Magazines were pleased to be in the literature bins at the 2019 AEE World!