Compressed Air Best Practices
5 Tips on Optimizing VFD Air Compressors
July 19, 2018 | 2:00 PM EDT
Join Keynote Speaker, Loran Circle, Senior Consultant for Compressed Air System Training & Consulting, to learn 5 tips on optimizing VFD air compressors. He will explain how these air compressors work and how to properly integrate them within a compressed air system. This presentation will also examine how pressure setpoints, site conditions, storage and flow controllers impact VFD air compressors and system optimization.
Werner Rauer, Rotary Screw Compressors Product Manager for Kaeser Compressors, will present "Proper Application of Variable Frequency Drive Compressors.” He will discuss key points to consider when designing compressed air systems with variable frequency drive technology.
Using predictive technologies with compressed air
August 28, 2018 | 2:00 PM ET
Compressed air has a major impact on production, with downtime a chief concern for industrial plants. The move towards IoT connectivity offers opportunities to better monitor and manage mission critical equipment, such as compressed air systems. Incorporating predictive technologies into day-to-day operations has the potential to improve reliability, increase up-time, and reduce maintenance costs.
Join compressed air experts Neil Mehltretter and Timothy Hitzges as they discuss ways to proactively improve compressed air system performance such as:
- Lubricant analysis
- Ultrasonic leak detection
- Data collection
Water & Wastes Digest
How to build a better blower station
Designing a blower aeration system for a wastewater treatment plant has many moving pieces. Each contributes to the overall health and efficiency of the system and the impact of poorly addressing one area can have far-reaching implications for many years to come. In order to achieve reliable and energy efficient operation, it's vital to consider technology, station sizing, the installation room, communications, and more. This culminates in writing a clear specification that can help streamline the bidding process.
How to Achieve Clean, Dry, Compressed Air for Food Processing Applications without Sacrificing Energy Efficiency
Compressed air quality has a major impact on production in food processing applications and is one of many considerations for food safety. Without clean, dry air, maintenance requirements increase and pneumatic tool life decreases. On the other hand, over-treating compressed air results in unnecessary pressure drop and higher energy costs. Strategies for properly selecting and correctly sizing compressed air dryers, piping, and filters are essential for reducing scrap and optimizing product costs.
Join compressed air experts Werner Rauer and Neil Mehltretter as they cover best practices for air treatment, including:
- Determining air quality needed for an application
- Understanding how component selection impacts energy efficiency
- Building an effective and efficient compressed air system
Body Shop Business
Compressed Air for Body Shops
A reliable supply of clean, dry compressed air is vital for body shops. Taking the time to understand air quantity and quality requirements can keep energy costs in line and prevent the costly re-work caused by contaminants in the compressed air supply.
Join compressed air experts Michael Camber and Neil Mehltretter as they discuss best practices for compressed air systems in body shops.
Components in a compressed air system necessary for bodywork and spraying finishes
Types of dryers and tips on selecting the right one
Air treatment components to ensure clean, dry air that won’t ruin paint jobs
Common types of contaminants and how to remove them
Key design factors for evaluating a compressed air system
How piping material selection impacts air quality
Blower & Vacuum Best Practices
Blower Controls for Aeration Efficiency
Learn how to optimize blower power consumption while meeting variable aeration demands.
There are many types of blowers used for supplying aeration systems and many methods for modulating blower flow rates. The flow rate and discharge pressure for aeration blowers are determined by fluctuating process demands. This webinar will discuss the methods appropriate for each blower type. The trade-offs of each method in efficiency, reliability, and energy consumption will be covered. Techniques for analyzing and comparing wire-to-air power consumption will be explained with illustrative examples provided.
Stephen Horne, Blower Product Manager for Kaeser Compressors, presents: “Blower Master Controllers – How the IIoT can Optimize Blower Station Performance.” This presentation will cover how proper communications between blower packages and a master controller can truly optimize performance, predict future requirements, and increase reliability.
Compressed Air Best Practices
IoT and Compressed Air Management Systems
Join Keynote Speaker, Tim Dugan, President and Principal Engineer of Compression Engineering Corporation to learn how IoT is driving compressed air monitoring and control to become easier than ever before within a plant. His presentation will review compressed air master controls, compressed air room monitoring and demand-side monitoring. He will also discuss how IoT has made it easier and less expensive for end users to implement air compressor room and demand-side monitoring.
Jarno Manzke, Technical Director for Kaeser Compressors presents: “How the IIoT Will Change the Face of Compressed Air in Industrial Environments.” The Industrial Internet of Things (IIoT) has proven to have far-reaching consequences both in terms of technology and in challenging the way we think. This presentation will put the IIoT in the context of compressed air, describing the current situation and what compressed air suppliers, service providers, and end-users may expect to see in the future.