Determination of PID Control Parameters of Plasmatron Plasma Reactor

• Autorzy: Szałatkiewicz J. , Szewczyk R. , Budny E. , Missala T. , Winiarski W.
• Języki publikacji: EN

Abstrakty

EN

The paper presents determination of PID controller parameters for application of plasmatron powered plasma reactor designed and build in Industrial Research Institute for Automation and Measurements. Plasma reactor is the key element of the test setup, designed to research, processing and recovery of metals from waste of electric and electronic equipment, focusing on electronic printed circuit boards. Experiment was carried out with power of 36 kW. In experiment two temperatures were measured in two points of the reactor chamber, allowing verification of thermal response. Basing on identification of thermal parameters of the plasma reactor carried out in previous paper [7], the PID controller was chosen, as suitable to control second order inertia object. Parameters of used PID controlled were determined using MATLAB-Simulink toolbox. Calculated PID model was utilized for plasma reactor parameters control, allowing examination of energy saving by reducing of plasmatrons power, and stabilization of process parameters.

Słowa kluczowe

EN

PID; recycling; electronic waste utilization; plasma technology

• Wydawca: Społeczna Akademia Nauk w Łodzi
• Czasopismo: Journal of Applied Computer Science Methods
• Rocznik: 2012
• Tom: Vol. 4 No. 2
• Strony: 31--39
• Opis fizyczny: Bibliogr. 7 poz., rys., tab.

Twórcy

autor

Szałatkiewicz J.

• Industrial Research Institute for Automation and Measurements

autor

Szewczyk R.

• Industrial Research Institute for Automation and Measurements

autor

Budny E.

• Industrial Research Institute for Automation and Measurements

autor

Missala T.

• Industrial Research Institute for Automation and Measurements

autor

Winiarski W.

• Industrial Research Institute for Automation and Measurements

Bibliografia

• 1. Huisman, J., 2007, 2008 Review of Directive 2002/96 on WEEE, Final Report, United Nations University.
• 2. Cobbing, M., 2008,Toxic Tech: Not In Our Backyard, Greenpeace.org.
• 3. Lee, J. Song, H. Yoo, J., 2007, Present status of the recycling of waste electrical and electronic equipment in Korea, Resources Conservation & Recycling No. 50, p. 380-397.
• 4. Kang, H. Schoenung, J., 2005, Electronic waste recycling: A review of U.S. infrastructure and technology options, Resources Conservation & Recycling No. 45, p 368-400.
• 5. Wawrzonek R., 2009, Praktyczne aspekty funkcjonowania systemu gospodarowania zużytym sprzętem elektrycznym i elektronicznym, Elektro Eco
• 6. Environment Commission proposes revised laws on recycling and use of hazardous substances in electrical and electronic equipment, http://europa.eu/rapid/pressReleasesAction.do?reference=IP/08/1878&format=HTML&aged=1&language=EN&guiLanguage=en
• 7. Szałatkiewicz J., Szewczyk R., 2012, Intelligent Utilization of Waste of Electrical and Electronic Equipment (Weee) with Robotized Tool, Journal of Automation, Mobile Robotics & Intelligent Systems Vol. 6, No 4