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MASTNÝ, P. MORÁVEK, J.
Original Title
Mathematical models for simulation of extreme operating conditions of polyvalent energy sources
Type
summary research report - contract. research
Language
English
Original Abstract
Efficient energy use in buildings is one of the primary aims of the current situation in the use of alternative energy sources. One possible way to achieve this set target is to increase the share of renewable energy sources (RES) in buildings. Sustainable systems using renewable power sources can have a positive effect on increasing the reliability of energy supplies and reducing greenhouse gas emissions. Using combined systems consisting of renewable power sources and efficient implementation of related measures in the construction and technology projects, there can be reduced operating and capital costs. Unfortunately, such complex system causes difficulties within the proper control logic of the energy flows between the individual elements of the system. For the purposes of the model creation is used the Matlab Simulink software which contains the SimPowerSystems library together with modelling individual elements. Assembled models of individual energy systems will provide more complex view on their behavior and helps to optimize the control systems and their logic.
Keywords
Matlab Simulink; photovoltaics; heat pump; solar system; accumulation; simulation
Authors
MASTNÝ, P.; MORÁVEK, J.
Released
21. 12. 2017
Publisher
Department of Electrical Power Engineering FEEC BUT
Location
BUT
Pages from
1
Pages to
30
Pages count
BibTex
@misc{BUT142902, author="Petr {Mastný} and Jan {Morávek}", title="Mathematical models for simulation of extreme operating conditions of polyvalent energy sources", year="2017", pages="1--30", publisher="Department of Electrical Power Engineering FEEC BUT", address="BUT", note="summary research report - contract. research" }