Developing a Control System for Emergency Situations in the Automated Manufacturing Line of Wood Briquettes

Nadezhda Kunicina; Anatolijs Zabasta; Julija Soboleva

doi:10.4028/www.scientific.net/SSP.220-221.224

Paper Titles

F-16 Virtual Cockpit: A Project on Computer-Aided Learning and the Application of Integrated Diagnostics: Part II
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Modeling and Evaluation of Loads in Vehicles Subjected to Mine Blast
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Parametric Identification of the Degenerate Model with a Dissipative-Elastic Element Dispersing Impact Energy
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Study on the Thermal Stability of Selected Ionic Liquids
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Developing a Control System for Emergency Situations in the Automated Manufacturing Line of Wood Briquettes
p.224

Modifying Operating Conditions of the Friction Pair with an Additive Added to the Lubricant while Operating
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Distribution of Hydrodynamic Pressure in Slide Bearings Applying Lubricants of Different Viscosity
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Numerical Modeling of the Phenomena of Frictional Coupling between Wheel and Rail to Describe and Verify the Operation of Surface Condition Detector
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HomeSolid State PhenomenaSolid State Phenomena Vols. 220-221Developing a Control System for Emergency...

Developing a Control System for Emergency Situations in the Automated Manufacturing Line of Wood Briquettes

Abstract:

The conducted research describes the design of production lines with pneumatic, partly pneumatic, electrical and other types of control implementation and analyses two control system cases. The first one of emergency breaking and design of an additional control system for emergency regulation of the production line is based on a direct regulation principle. The second case of the factory comprises a number of wood briquette automated production lines and is based on the application of control networks for industrial process control and alarming. The paper discusses advantages and disadvantages of control approaches.

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Periodical:

Solid State Phenomena (Volumes 220-221)

Pages:

224-229

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.220-221.224

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Online since:

January 2015

Authors:

Nadezhda Kunicina*, Anatolijs Zabasta, Julija Soboleva

Keywords:

Automated Manufacturing, Embedded System, Emergency Situations, Industrial Networks, Mechatronic Systems

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