Detail publikace

Simple mathematical absorption model with system analysis technique.

KALIVODA, J. SVĚRÁK, T. KRIŠTOF, O. MAYEROVÁ, K.

Originální název

Simple mathematical absorption model with system analysis technique.

Anglický název

Simple mathematical absorption model with system analysis technique.

Jazyk

en

Originální abstrakt

Accurate mathematical models allow for calculation of crucial process development parameters for defined experimental conditions. The model is fundamental for to the effective design of absorption processes. The system analysis techniques was applied on the model which was designed for the experimental data obtained with pilot plant gas scrubber. For model evaluations were used statistical tests based on residual function, F-criterion test and confidence intervals of model parameters. The work proved the designed advanced system analysis technique is suitable for the simplified mahtematical model of non steady state absorption.

Anglický abstrakt

Accurate mathematical models allow for calculation of crucial process development parameters for defined experimental conditions. The model is fundamental for to the effective design of absorption processes. The system analysis techniques was applied on the model which was designed for the experimental data obtained with pilot plant gas scrubber. For model evaluations were used statistical tests based on residual function, F-criterion test and confidence intervals of model parameters. The work proved the designed advanced system analysis technique is suitable for the simplified mahtematical model of non steady state absorption.

Dokumenty

BibTex


@misc{BUT145494,
  author="Josef {Kalivoda} and Tomáš {Svěrák} and Ondřej {Krištof} and Kateřina {Mayerová}",
  title="Simple mathematical absorption model with system analysis technique.",
  annote="Accurate mathematical models allow for calculation of crucial process development parameters for defined experimental conditions. The model is fundamental for to the effective design of absorption processes. The system analysis techniques was applied on the model which was designed for the experimental data obtained with pilot plant gas scrubber. For model evaluations were used statistical tests based on residual function, F-criterion test and confidence intervals of model parameters. The work proved the designed advanced system analysis technique is suitable for the simplified mahtematical model of non steady state absorption.",
  address="ČSCHI",
  chapter="145494",
  howpublished="print",
  institution="ČSCHI",
  year="2016",
  month="august",
  publisher="ČSCHI",
  type="abstract"
}