Mouda M, Djebabra M.
A dynamic model proposal for the analysis of work procedures. Journal of Failure Analysis and PreventionJournal of Failure Analysis and Prevention. 2015;15 :152-160.
Mouda M, Djebabra M.
A dynamic model proposal for the analysis of work procedures. Journal of Failure Analysis and PreventionJournal of Failure Analysis and Prevention. 2015;15 :152-160.
Bezih K, Chateauneuf A, KALLA M, Bacconnet C.
Effect of soil–structure interaction on the reliability of reinforced concrete bridges. Ain Shams Engineering JournalAin Shams Engineering Journal. 2015;6 :755-766.
Bezih K, Chateauneuf A, KALLA M, Bacconnet C.
Effect of soil–structure interaction on the reliability of reinforced concrete bridges. Ain Shams Engineering JournalAin Shams Engineering Journal. 2015;6 :755-766.
Bezih K, Chateauneuf A, KALLA M, Bacconnet C.
Effect of soil–structure interaction on the reliability of reinforced concrete bridges. Ain Shams Engineering JournalAin Shams Engineering Journal. 2015;6 :755-766.
Bezih K, Chateauneuf A, KALLA M, Bacconnet C.
Effect of soil–structure interaction on the reliability of reinforced concrete bridges. Ain Shams Engineering JournalAin Shams Engineering Journal. 2015;6 :755-766.
Zellagui M, Hassan HA, Chaghi A.
Effect of TCVR Controlled Voltage on Short-Circuit Calculations in Case of Ground Fault in the Algerian Network. International Journal of Control and Automation (IJCA)International Journal of Control and Automation (IJCA). 2015;8, No. 1 :125-138.
Zellagui M, Hassan HA, Chaghi A.
Effect of TCVR Controlled Voltage on Short-Circuit Calculations in Case of Ground Fault in the Algerian Network. International Journal of Control and Automation (IJCA)International Journal of Control and Automation (IJCA). 2015;8, No. 1 :125-138.
Zellagui M, Hassan HA, Chaghi A.
Effect of TCVR Controlled Voltage on Short-Circuit Calculations in Case of Ground Fault in the Algerian Network. International Journal of Control and Automation (IJCA)International Journal of Control and Automation (IJCA). 2015;8, No. 1 :125-138.
Bahloul M, Alaoui LC, Souissi M, Chaabane M, Drid S.
Effective Fuzzy Logic Control of a Stand-alone Photovoltaic Pumping System. the Journal of Renewable Energy Researchthe Journal of Renewable Energy Research. 2015;5, No.3.
AbstractThis paper presents an effective control of a stand-alone batteryless photovoltaic (PV) pumping system. The whole design (configuration and control) is oriented in order to minimize the cost and maximize the effectiveness, the efficiency and the reliability of the whole system. Beyond the withdrawal of the battery and the rotor speed sensor, the system is composed only of a DC-DC boost converter, a DC-AC inverter, an Induction Motor (IM) and a centrifugal pump. In order to control the dc-link voltage and maximize the efficiency of the IM, a Fuzzy Logic Controller (FLC) is introduced. The validity and the effectiveness of the proposed FLC is tested and confirmed by a simulation under various climate changes.
Bahloul M, Alaoui LC, Souissi M, Chaabane M, Drid S.
Effective Fuzzy Logic Control of a Stand-alone Photovoltaic Pumping System. the Journal of Renewable Energy Researchthe Journal of Renewable Energy Research. 2015;5, No.3.
AbstractThis paper presents an effective control of a stand-alone batteryless photovoltaic (PV) pumping system. The whole design (configuration and control) is oriented in order to minimize the cost and maximize the effectiveness, the efficiency and the reliability of the whole system. Beyond the withdrawal of the battery and the rotor speed sensor, the system is composed only of a DC-DC boost converter, a DC-AC inverter, an Induction Motor (IM) and a centrifugal pump. In order to control the dc-link voltage and maximize the efficiency of the IM, a Fuzzy Logic Controller (FLC) is introduced. The validity and the effectiveness of the proposed FLC is tested and confirmed by a simulation under various climate changes.