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'Substrate Inhibition' in keywords
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1978 (1)
1976 (2)
1Author    Masayasu Mimura, J. D. MurrayRequires cookie*
 Title    Spatial Structures in a Model Substrate-Inhibition Reaction Diffusion System  
 Abstract    An important new model universal oscillator proposed by Seelig which depends on substrate inhibition is considered. In a finite spatial domain with zero flux boundary conditions and in which the substrates can diffuse it is shown that diffusion-driven instability is possible and can result in finite amplitude spatial structures. Illustrative numerical results are presented which exhibit this behaviour. 
  Reference    Z. Naturforsch. 33c, 580 (1978); received M ay 18 1978 
  Published    1978 
  Keywords    Reaction-Diffusion, Spatial Pattern, Substrate Inhibition 
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 TEI-XML for    default:Reihe_C/33/ZNC-1978-33c-0580.pdf 
 Identifier    ZNC-1978-33c-0580 
 Volume    33 
2Author    FriedrichFranz SeeligRequires cookie*
 Title    Chemical Oscillations by Substrate Inhibition A Parametrically Universal Oscillator Type in Homogeneous Catalysis by Metal Complex Formation  
 Abstract    The general reaction X+Y-^-P + Q, catalyzed by a metal M via M-fX^MX and MX+Y 
  Reference    (Z. Naturforsch. 31a, 731—738 [1976]; received May 12 1976) 
  Published    1976 
  Keywords    Chemical Oscillation, Substrate Inhibition, Homogeneous Catalysis, (Transition) Metal Complexes 
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 TEI-XML for    default:Reihe_A/31/ZNA-1976-31a-0731.pdf 
 Identifier    ZNA-1976-31a-0731 
 Volume    31 
3Author    FriedrichFranz SeeligRequires cookie*
 Title    System-theoretical Investigation of Possible Oscillatory States in the Hydroformylation Process in an Open Isothermal System Hydroformylation  
 Abstract    The kinetic model for the hydroformylation process as given in a previous paper (SEELIG 1) is extended in as far as the concentrations of all three substrates (olefin, H2, CO) are allowed to move freely, whilst in the first investigation this was the case only for CO, the concentrations of olefin and H2 being kept constant. So the derived hysteresis loop of [CO] vs influx of CO is shifted back and forth by the varying [olefin] and [H2], causing oscillations for particular combinations of the parameters. These oscillations are due to the substrate inhibition by CO and are not the result of instabilities of some external control circuit; so they would occur even in a perfectly isothermal open system. 
  Reference    (Z. Naturforsch. 31b, 929—934 [1976]; received March 5 1976) 
  Published    1976 
  Keywords    Oxo-synthesis, System Theory, Stability Analysis, Oscillation, Substrate Inhibition 
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 TEI-XML for    default:Reihe_B/31/ZNB-1976-31b-0929.pdf 
 Identifier    ZNB-1976-31b-0929 
 Volume    31