Add to ORKGA. Cinar et al. (1987) have shown that vibrational control of an exothermic continuous stirred tank reactor (CSTR) by vibrating the total flow rate modifies its behavior and leads to stabilized operation in its unstable steady-state region. Here, the effect of multiple vibrating inputs and the contribution of their phase shift are investigated. Theoretical and experimental results indicate productivity improvement and amplitude reduction in reactor temperature swings by vibrating both input flow rate and input concentrations.Endnote format citatio
The continuous stirred tank reactor (CSTR) is representative of a typical class of chemical equipmen...
The effect of temperature on a network of chemical reactions is not obvious, especially when compare...
To create quality outputs and hjgh productivity of CSTR (Continuous stirred tank reactor), we must c...
Vibrational control is a method for modification of dynamic properties of linear and nonlinear syste...
Vibrational control is an open-loop control strategy implemented by fast zero-average oscillations i...
Interaction among various oscillating inputs may result in significant modifications in the behavior...
Vibrational control is a method for modification of dynamic properties of linear and nonlinear syste...
AbstractVibrational control is a method of modification of dynamic properties obtained by introducin...
One of the most thoroughly studied systems in chemical engineering is the classic problem of a first...
The dynamic behaviour of two coupled continuous stirred tank reactors in sequence is studied when th...
The dynamic behaviour of two coupled continuous stirred tank reactors in sequence is studied when th...
A simple model was written to simulate a first-order exothermic reaction taking place in a diabatic ...
The exothermic continuous stirred tank reactor (CSTR) is a classical yet complex case study of nonli...
This paper presents an adaptive control scheme to face the challenge of rejecting input and output d...
The nonlinear frequency response (NFR) method is applied for evaluation of possible improvement thro...
The continuous stirred tank reactor (CSTR) is representative of a typical class of chemical equipmen...
The effect of temperature on a network of chemical reactions is not obvious, especially when compare...
To create quality outputs and hjgh productivity of CSTR (Continuous stirred tank reactor), we must c...
Vibrational control is a method for modification of dynamic properties of linear and nonlinear syste...
Vibrational control is an open-loop control strategy implemented by fast zero-average oscillations i...
Interaction among various oscillating inputs may result in significant modifications in the behavior...
Vibrational control is a method for modification of dynamic properties of linear and nonlinear syste...
AbstractVibrational control is a method of modification of dynamic properties obtained by introducin...
One of the most thoroughly studied systems in chemical engineering is the classic problem of a first...
The dynamic behaviour of two coupled continuous stirred tank reactors in sequence is studied when th...
The dynamic behaviour of two coupled continuous stirred tank reactors in sequence is studied when th...
A simple model was written to simulate a first-order exothermic reaction taking place in a diabatic ...
The exothermic continuous stirred tank reactor (CSTR) is a classical yet complex case study of nonli...
This paper presents an adaptive control scheme to face the challenge of rejecting input and output d...
The nonlinear frequency response (NFR) method is applied for evaluation of possible improvement thro...
The continuous stirred tank reactor (CSTR) is representative of a typical class of chemical equipmen...
The effect of temperature on a network of chemical reactions is not obvious, especially when compare...
To create quality outputs and hjgh productivity of CSTR (Continuous stirred tank reactor), we must c...