Research Outputs

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Now showing 1 - 5 of 5
  • Publication
    Carbon monoxide emission models for small-scale biomass combustion of wooden pellets
    (Elsevier, 2019-08)
    Böhler, Lukas 
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    ; ;
    Kozek, Martin 
    Tighter legal emission limits require means to prevent releasing harmful substances into the atmosphere during the combustion of biomass. Economic considerations suggest to meet these restrictions by improving the ability to predict and therefore prevent emissions, which can be done by improved control algorithms. This work presents different methods to obtain models for the prediction of carbon monoxide emissions in a small-scale biomass combustion furnace for wooden pellets. The presented models are intended for an application in model based control, either as part of the underlying model or for carbon monoxide soft sensing and fault detection. The main focus is on simple structures which can be handled by the already existing hardware of the furnaces. Different black-box models and a kinetic process model are introduced and compared. The black-box models are based on the measured flue gas oxygen concentration and the combustion temperature, since these measurements are typically available even for smaller plants. The obtained models are validated with measured data in order to find the most suitable structures, of which combined fuzzy black-box models show the most promising results. The presented methodology can be readily applied to the investigated furnace. However, the model parameters have to be adapted for other plants.
      468  1Scopus© Citations 17
  • Publication
    Emission limited model predictive control of a small-scale biomass furnace
    (Elsevier, 2021-03-01)
    Böhler, Lukas 
    ;
    Fallmann, Markus 
    ;
    ; ; ;
    Kozek, Martin 
    This paper presents the application of an emission limiting model-based predictive controller for a small-scale biomass grate furnace. The furnace has a nominal power of 100 kW with wood pellets as fuel, but it can be operated with different fuels as well. The model predictive approach extends the existing static feedforward controller of the investigated furnace with a dynamic feedback controller that is able to improve the combustion performance. Simultaneously, the formation of carbon monoxide emissions is minimized within the prediction horizon based on an available emission estimation model for pellets. The results obtained from closed-loop measurements show that the control concept is able to reduce carbon monoxide emissions in partial load operation up to four times while the control error of the supply water temperature for heating is nearly halved during transient operation. This is achieved by incorporating the emission estimation model into the constrained optimization of the predictive controller. Additional results obtained from closed-loop experiments for different fuel types with varying water contents demonstrate the advantages of the proposed model-based approach and its robustness with respect to typical uncertainties of the combustion process.
      207  36570Scopus© Citations 8
  • Publication
    Smart home management system with extensive disturbance predictions
    (Leykam, 2018-11)
    Zauner, Michael 
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    Killian, M. 
    ;
    Böhler, Lukas 
    ;
    Kozek, Martin 
    ;
    Leitner, A. 
    ;
    Goldgruber, R. 
    ;
      106  563
  • Publication
      117  1Scopus© Citations 23