Nonlinear Frequency Response (NFR) method is a relatively new method which can be used for fast evaluation of possible process improvements through periodic operations. The method is analytical and approximate. Its main task is to give an answer whether periodic modulation of one or more process inputs can result in improved process performance. The method is explained in brief and an overview of the existing applications is given. The review covers simple reactions performed in isothermal and non-isothermal stirred tank reactors exposed to different modulated inputs (inlet concentration, flow-rate, inlet temperature, temperature of the heating/cooling medium). Processes with two simultaneously modulated inputs and different shapes of the p...
The classical design of continuous chemical reactors exploits steady-state operation, which is optim...
Possible improvements of chemical reactor performance through periodic modulation of one or more inp...
Deliberate periodic operations have been recognized as one way of process intensification for severa...
The nonlinear frequency response (NFR) method is used for evaluating the time-average performance of...
In our previous work, a new, fast and easy, nonlinear frequency response method for analysing potent...
Process intensification aims to increase the efficiency of processes in the chemical industry by dev...
The nonlinear frequency response (NFR) method is applied for evaluation of possible improvement thro...
One way to achieve process intensification is to operate the process in a periodic way, by cycling o...
The nonlinear frequency response (NFR) method, which is an analytical, fast, and easy method for eva...
Periodic operations of a non isothermal CSTR with n-Lh order reaction, subject to a single input mod...
The classical design of continuously operated chemical reactors assumes that they are operated in a ...
Forced periodic operation of chemical reactors possess significant potential to improve numerous per...
Theoretical evaluation of possible reactor improvement for periodic operation. Automated experimenta...
Continuous chemical reactors are mostly operated under steady-state conditions. However, theoretical...
Periodic operation of a non isothermal CSTR subject to a single input modulation is analyzed conside...
The classical design of continuous chemical reactors exploits steady-state operation, which is optim...
Possible improvements of chemical reactor performance through periodic modulation of one or more inp...
Deliberate periodic operations have been recognized as one way of process intensification for severa...
The nonlinear frequency response (NFR) method is used for evaluating the time-average performance of...
In our previous work, a new, fast and easy, nonlinear frequency response method for analysing potent...
Process intensification aims to increase the efficiency of processes in the chemical industry by dev...
The nonlinear frequency response (NFR) method is applied for evaluation of possible improvement thro...
One way to achieve process intensification is to operate the process in a periodic way, by cycling o...
The nonlinear frequency response (NFR) method, which is an analytical, fast, and easy method for eva...
Periodic operations of a non isothermal CSTR with n-Lh order reaction, subject to a single input mod...
The classical design of continuously operated chemical reactors assumes that they are operated in a ...
Forced periodic operation of chemical reactors possess significant potential to improve numerous per...
Theoretical evaluation of possible reactor improvement for periodic operation. Automated experimenta...
Continuous chemical reactors are mostly operated under steady-state conditions. However, theoretical...
Periodic operation of a non isothermal CSTR subject to a single input modulation is analyzed conside...
The classical design of continuous chemical reactors exploits steady-state operation, which is optim...
Possible improvements of chemical reactor performance through periodic modulation of one or more inp...
Deliberate periodic operations have been recognized as one way of process intensification for severa...