Abstract: . . .  CONCLUSIONS AND FUTURE WORK The next step of software system development is considering a wind-turbine generator and conventional energy supply (public supply network) in the energy analysis of a PV-hybrid system in case of alternative energy shortages. A software module for statistical analysis and simulation of electrical consumption in a studied poultry farm is needed. REFERENCES [1] King D., Photovoltaic Module and Array Performance Characterization Methods for All System Operating Conditions. Sandia . . .
. . .  Photovoltaik-Engineering. Die Methode der Effektiven SolarzellenKennlinie. Springer-Verlag, Berlin Heidelberg, 1999. [3] Канту М., Mastering Delphi 5. СофтПрес, София, 2000. ABOUT THE AUTHORS eng. Katerina Georgieva Gabrovska, department of Computer Systems and Technologies, University of Rousse ‘Angel Kantchev’, e-mail: kgabrovska@ecs.ru.acad.bg Prof. Dr.-Ing. Andreas Wagner, FB Elektrische Energietechnik, Fachhochschule Dortmund, e-mail: a.wagner@pv-engineering.de Assoc. Prof. PhD Nikolay Mihailov, . . .
. . .  case of alternative energy shortages. A software module for statistical analysis and simulation of electrical consumption in a studied poultry farm is needed. REFERENCES [1] King D., Photovoltaic Module and Array Performance Characterization Methods for All System Operating Conditions. Sandia National Laboratories, Photovoltaic Systems Department, Albuquerque. [2] Wagner A., Photovoltaik-Engineering. Die Methode der Effektiven SolarzellenKennlinie. Springer-Verlag, Berlin Heidelberg, 1999. [3] Канту . . .
. . .  software system development is considering a wind-turbine generator and conventional energy supply (public supply network) in the energy analysis of a PV-hybrid system in case of alternative energy shortages. A software module for statistical analysis and simulation of electrical consumption in a studied poultry farm is needed. REFERENCES [1] King D., Photovoltaic Module and Array Performance Characterization Methods for All System Operating Conditions. Sandia National Laboratories, Photovoltaic Systems . . .
. . .  Systems and Technologies, University of Rousse ‘Angel Kantchev’, e-mail: kgabrovska@ecs.ru.acad.bg Prof. Dr.-Ing. Andreas Wagner, FB Elektrische Energietechnik, Fachhochschule Dortmund, e-mail: a.wagner@pv-engineering.de Assoc. Prof. PhD Nikolay Mihailov, Electrical Department, University of Rousse ‘Angel Kantchev’, e-mail: mihailov@ru.acad.bg - IIIB.15-7 -  . . .
. . .  system: one mono-Si photovoltaic module ‘Ansaldo’ with a nominal power 50 W, two series connected batteries ‘Oerlikon’ with total voltage 12 V and capacity 100 Ah, one charge regulator Isoler for charge control of 12 V battery and inverter with nominal power 150 W, offered by a manufacturer ‘Rosendahl Energietechnik’. On the base of specifications of the selected - IIIB.15-6 - International Conference on Computer Systems and Technologies - CompSysTech’2004 components a program provides hourly simulation . . .
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