Theoretical evaluation of possible reactor improvement for periodic operation. Automated experimental setup was built, with a lab-scale CSTR and adjustable flow-rates, in which periodic operations can be conducted. The concept was implemented for the hydrolysis of acetic anhydride as a model reaction.Florence, Italy, 20-23 May 201
In our previous work, a new, fast and easy, nonlinear frequency response method for analysing potent...
The nonlinear frequency response (NFR) method, which is an analytical, fast, and easy method for eva...
Process intensification aims to increase the efficiency of processes in the chemical industry by dev...
Theoretical evaluation of possible reactor improvement for periodic operation. Automated experimenta...
The classical design of continuously operated chemical reactors assumes that they are operated in a ...
Continuous chemical reactors are mostly operated under steady-state conditions. However, theoretical...
The classical design of continuous chemical reactors exploits steady-state operation, which is optim...
The nonlinear frequency response (NFR) method is a relatively new, fast and easy, analytical method ...
Deliberate periodic operations have been recognized as one way of process intensification for severa...
Forced periodic operations of chemical reactors possess significant potential to improve numerous pe...
Possible improvements of chemical reactor performance through periodic modulation of one or more inp...
The method of nonlinear frequency response (NFR) attempts to predict the outcome of perturbation for...
We used the nonlinear frequency response (NFR) method in order to identify forced periodic condition...
It is well known, that forced periodic operation possesses the potential for process improvements. N...
One way to achieve process intensification is to operate the process in a periodic way, by cycling o...
In our previous work, a new, fast and easy, nonlinear frequency response method for analysing potent...
The nonlinear frequency response (NFR) method, which is an analytical, fast, and easy method for eva...
Process intensification aims to increase the efficiency of processes in the chemical industry by dev...
Theoretical evaluation of possible reactor improvement for periodic operation. Automated experimenta...
The classical design of continuously operated chemical reactors assumes that they are operated in a ...
Continuous chemical reactors are mostly operated under steady-state conditions. However, theoretical...
The classical design of continuous chemical reactors exploits steady-state operation, which is optim...
The nonlinear frequency response (NFR) method is a relatively new, fast and easy, analytical method ...
Deliberate periodic operations have been recognized as one way of process intensification for severa...
Forced periodic operations of chemical reactors possess significant potential to improve numerous pe...
Possible improvements of chemical reactor performance through periodic modulation of one or more inp...
The method of nonlinear frequency response (NFR) attempts to predict the outcome of perturbation for...
We used the nonlinear frequency response (NFR) method in order to identify forced periodic condition...
It is well known, that forced periodic operation possesses the potential for process improvements. N...
One way to achieve process intensification is to operate the process in a periodic way, by cycling o...
In our previous work, a new, fast and easy, nonlinear frequency response method for analysing potent...
The nonlinear frequency response (NFR) method, which is an analytical, fast, and easy method for eva...
Process intensification aims to increase the efficiency of processes in the chemical industry by dev...