Articolul precedent |
Articolul urmator |
853 2 |
Ultima descărcare din IBN: 2018-08-02 13:08 |
Căutarea după subiecte similare conform CZU |
620.9+621.3 (47) |
Economics of energy in general (546) |
Electrical engineering (1146) |
SM ISO690:2012 БОШНЯГА, Валерий, СУСЛОВ, Виктор. Асинхронная гибкая связь двух энергосистем переменного тока на основе управляемых L и C элементов. In: Energetica Moldovei. Aspecte regionale de dezvoltare, Ed. Ediția III, 2016, 29 septembrie - 1 octombrie 2016, Chișinău. Chișinău, Republica Moldova: Institutul de Energetică al Academiei de Științe a Moldovei, 2016, Ediția III, pp. 435-448. ISBN 978-9975-4123-5-3. |
EXPORT metadate: Google Scholar Crossref CERIF DataCite Dublin Core |
Energetica Moldovei. Aspecte regionale de dezvoltare Ediția III, 2016 |
|||||
Conferința "Energetica Moldovei" Ediția III, 2016, Chișinău, Moldova, 29 septembrie - 1 octombrie 2016 | |||||
|
|||||
CZU: 620.9+621.3 | |||||
Pag. 435-448 | |||||
|
|||||
Descarcă PDF | |||||
Rezumat | |||||
A well known technical solutions for the accomplishment of controlled “flexible” interconnection of two asynchronous operating energy systems of alternating current AC has been reviewed in the paper. Were studied basic characteristics of the reactor-condenser device, developing the idea of creating of reactor control connection devices and assuring, unlike the prototype, the reactive power balance in the device and continuous module of the output voltage. The analytical expressions for determining the parameters of the device elements necessary for the implementation of the circular phase rotation at a given load and the conductivity value of the coefficient conversion mod voltage have been achieved. The mathematical models in Matlab package for research-driven active power transfer processes through the reactor-condenser unit have been elaborated. The received results using the model allow assessing the required range of conductivities change, needed to be assured by means of semiconductor switching devices for implementing transmission power control. The results of research can serve the basis for further development of AC energy systems flexible connection devices and their control systems, providing power systems to work together with the same nominal frequency of the alternating current. |
|||||
Cuvinte-cheie модель, реакторно-конденсаторное устройство, управляемая «гибкая» связь на переменном токе, передаваемая активная и реактивная мощность |
|||||
|