Viscosity Model Uncertainties in an Ash Stabilization Batch Mixing Process

T. Svantesson, A. Lauber, Gustaf Olsson

Forskningsoutput: Kapitel i bok/rapport/Conference proceedingKonferenspaper i proceedingPeer review

Sammanfattning

Recycling wood ash from burnt wood (back to the forest grounds) is of great ecological importance. However, the ash cannot be recycled directly after combustion. There are several reasons for this, one being the volatility of wood ashes. Mixing ash/dolomite/water in order to obtain granular material is one method to stabilize wood ashes. The main problem is predicting the quantity of water to be added, since the necessary amount varies with the wood ash quality. One possible solution is to measure the mixture viscosity and study whether this parameter can be used to control the amount of added water. In this paper, the viscosity is estimated in the batch mixing process by measuring the normalized effective power Pe(t), that represents the rate of useful work being performed by the three-phase asynchronous machine used for the stirrer drive. The coherence function is used in order to detect any nonlinear relationship between the input-output data-the variable water flow and the normalized effective power Pe(t). It is shown that measuring Pe(t) is extraordinary well suited for future control of the amount of added water. First and second stage experiments are carried through in order to obtain a model of the viscosity dynamics
Originalspråkengelska
Titel på värdpublikationInstrumentation and Measurement Technology Conference, 2000. IMTC 2000. Proceedings of the 17th IEEE
Sidor909-914
Volym2
DOI
StatusPublished - 2000
EvenemangIEEE Instrumentation and Measurement Technology Conference IMTC/2000 - Baltimore, Maryland, USA
Varaktighet: 2000 maj 1 → …

Publikationsserier

Namn
Volym2

Konferens

KonferensIEEE Instrumentation and Measurement Technology Conference IMTC/2000
Land/TerritoriumUSA
OrtBaltimore, Maryland
Period2000/05/01 → …

Ämnesklassifikation (UKÄ)

  • Annan elektroteknik och elektronik

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