The Optimization of the Gasifier Recovery Zone Height When Working on Straw Pellets
Golub, G., Голуб, Г. А., Kukharet, S., Кухарець, С. М., Кухарец, С. Н., Skydan, O., Cкидан, О. В., Yarosh, Y., Ярош, Я. Д., Chuba, V., Чуба, В. В., Golub, V., Голуб, В. А.
Abstract
The evolution of technologybrings many innovative \nsolutionsdue to higher visibility and controllability in systems. \nSmart grid technologies have many advantages, while bringing integration and use case formulation challenges in themeanwhile. In this paper the effects of renewable generation, energy storage, controllable inverters and demand side management (and combinations of previous solutions) were analyzed to form operation and control based on real network information and conditions. Several scenarios are examined (week days vs.weekend profiles), different penetrations of distributed generation were considered for a detailed analysis of network losses and voltage conditions on a low voltage network. \nA stochastic approach was used to handle the uncertainties of \nthe elements. The contri bution of this research is a \nsmart grid technology comparison from a distribution system opera \ntor point of view to enhance the integration of renewable \nenergy sources. Effective voltage control is feasible with inverter control from the distributed generation However reactive power strategies do not suit the network with a high R/X ratio. Different scenarios showed that the storage and demand side management strategies must consider locality for efficient operation.