Wireless Condition Monitoring and Control of Air Compressor Fleet System Based on the Internet of Things

Ye Ming Zhang; Zhi Guo Li; Mao Li Cai

doi:10.4028/www.scientific.net/AMR.1027.294

Paper Titles

The Study of the Processing Method of Room Temperature Vulcanized Silicone Rubber (RTV) on the Surface of the Locomotive Bearing Seal Rings
p.278

The Dynamic Model of the Hoisting Monitoring Robot Using in Underground Coal Mine
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Analysis and Research of Soft-Start Mode Applied to Large Capacity and Long-Distance Belt Conveyor
p.286

An Intrinsically Safe Study on Accuracy Wireless Vibration Sensor
p.290

Wireless Condition Monitoring and Control of Air Compressor Fleet System Based on the Internet of Things
p.294

Friction and Wear Properties of S136/WC-Co Friction Pair in Cold Atmospheric Pressure Plasma Jet
p.298

Drill Rod Lateral Vibration Mechanics during Mining Horizontal Drilling for Gas Drainage
p.302

Experimental Study on the Wireless Transmission System in the Ultrasonic Milling
p.306

Geometrical Parameters Calculation of Flexible-Rod Whetstone-Seat Vibration Subsystem of the Ultrasonic Honing Device
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1027Wireless Condition Monitoring and Control of Air...

Wireless Condition Monitoring and Control of Air Compressor Fleet System Based on the Internet of Things

Abstract:

The whole optimization control and health maintenance of air compressor fleet system in coal mine is the current key problems urgently to be solved in pneumatic system application. The test system of wireless condition monitoring and control for air Compressor fleet is setup and the hardware structure of test system is put forward. Overall energy efficiency and piecewise energy efficiency concept of air compressor fleet system is proposed in this paper. The overall efficiency and the energy-saving potential of compressed gas supplying system are quantified by the method of Capacity on Demand. Network optimization control algorithm for the air compressor fleet system is proposed for the better management of the compressed air system.

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Periodical:

Advanced Materials Research (Volume 1027)

Pages:

294-297

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1027.294

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Online since:

October 2014

Authors:

Ye Ming Zhang*, Zhi Guo Li, Mao Li Cai

Keywords:

Air Compressor Fleet System, Control, Internet of Things (IOT), Wireless Condition Monitoring

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* - Corresponding Author

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