Control of Plant Wide Processes Using Fractional Order Controller: Fractional order PID controllers in controlling Chemical Processes (Paperback)
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Fractional order PID controller is gaining popularity because of the presence of extra degrees of freedom, which have the potential to meet up the extra degrees in terms of uncertainty, robustness, and output controllability. Distillation is the most effective separation process in the chemical and petroleum industries lacking energy sustainability. To reduce the energy consumption, one can use dividing wall distillation column (DWDC), which is proposed to be controlled by the fractional order PID controller (FOPID). We have also presented the control system for the HAD plant by implementing the FOPID controller. Both of the discussed processes are multi-input-multi-output (MIMO) system and are difficult to tune because of the presence of the interaction among the control loops. For the DWC process the traditional simplified decoupler is used, while for the HDA plant process the equivalent transfer function model approach is used to handle the MIMO system. For tuning of the FOPID controllers the optimization techniques have been used. The DWC controllers have been tuned by the ev-MOGA multi objective algorithm and the HDA plant controllers are tuned by the cuckoo search method. Paperback, Label: LAP LAMBERT Academic Publishing, LAP LAMBERT Academic Publishing, Product group: Book, Published: 2016-08-30, Release date: 2016-08-30, Studio: LAP LAMBERT Academic Publishing.

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Von Händler/Antiquariat, Amazon.com.
Fractional order PID controller is gaining popularity because of the presence of extra degrees of freedom, which have the potential to meet up the extra degrees in terms of uncertainty, robustness, and output controllability. Distillation is the most effective separation process in the chemical and petroleum industries lacking energy sustainability. To reduce the energy consumption, one can use dividing wall distillation column (DWDC), which is proposed to be controlled by the fractional order PID controller (FOPID). We have also presented the control system for the HAD plant by implementing the FOPID controller. Both of the discussed processes are multi-input-multi-output (MIMO) system and are difficult to tune because of the presence of the interaction among the control loops. For the DWC process the traditional simplified decoupler is used, while for the HDA plant process the equivalent transfer function model approach is used to handle the MIMO system. For tuning of the FOPID controllers the optimization techniques have been used. The DWC controllers have been tuned by the ev-MOGA multi objective algorithm and the HDA plant controllers are tuned by the cuckoo search method. Paperback, التسمية: LAP LAMBERT Academic Publishing, LAP LAMBERT Academic Publishing, مجموعة المنتجات: Book, ونشرت: 2016-08-30, تاريخ الإصدار: 2016-08-30, ستوديو: LAP LAMBERT Academic Publishing.

Von Händler/Antiquariat, European-Media-Service Mannheim [1048135], Mannheim, Germany.
Publisher/Verlag: LAP Lambert Academic Publishing | Fractional order PID controllers in controlling Chemical Processes | Fractional order PID controller is gaining popularity because of the presence of extra degrees of freedom, which have the potential to meet up the extra degrees in terms of uncertainty, robustness, and output controllability. Distillation is the most effective separation process in the chemical and petroleum industries lacking energy sustainability. To reduce the energy consumption, one can use dividing wall distillation column (DWDC), which is proposed to be controlled by the fractional order PID controller (FOPID). We have also presented the control system for the HAD plant by implementing the FOPID controller. Both of the discussed processes are multi-input-multi-output (MIMO) system and are difficult to tune because of the presence of the interaction among the control loops. For the DWC process the traditional simplified decoupler is used, while for the HDA plant process the equivalent transfer function model approach is used to handle the MIMO system. For tuning of the FOPID controllers the optimization techniques have been used. The DWC controllers have been tuned by the ev-MOGA multi objective algorithm and the HDA plant controllers are tuned by the cuckoo search method. | Format: Paperback | Language/Sprache: english | 128 pp.

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