Diāna Žalostība scite author profile

Renewable energy sources, in particular those based on solar radiation, are growing rapidly and are planned to play an instrumental role in building power systems to reach the 2030 and 2050 energy and climate mitigation objectives. However, new actors have been introduced into the energy field, highlighting the importance of the role of citizens and communities in building such energy systems. To outline the significance of citizens in the development of solar energy communities and to describe the benefits of and barriers to their implementation so far, a comprehensive literature review has been carried out based on 64 thoroughly selected, reliable scientific publications (published within 2015–2021), revealing the latest trends, technologies and research in this field. The research focuses on four consumer interest areas: policy, economic, technical and social, covering the following subsections: policy, trading model, economic assessment, business model, energy management, demand response, modelling tools and consumer adoption. Within each subsection the conducted review seeks to answer the questions related to the further development and implementation of PV energy communities, considering consumer needs and revealing the possible solutions.

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Blackout of a power system: How to avert it without staff participation?

Žalostība

Barkāns

2011

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Modeling the Baltic countries’ Green Transition and Desynchronization from the Russian Electricity Grid

Putkonen

Lindroos

Neniškis

et al. 2022

IJSEPM

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In the next ten years, the Baltic countries ― Estonia, Latvia, and Lithuania ― are planning large investments in renewable power generation and transfer capacity, substantial phase-out of fossil-based power generation, and desynchronization from the Russian electricity grid. In this article, the operational impacts of these changes on the Baltic energy system from 2017 to 2030 are studied with an open-source Backbone energy system model. The operation of Estonian, Latvian and Lithuanian power and heat, transport, and building sectors are optimized simultaneously on an hourly level, and results are analysed with operational, environmental, economic, and security indicators. Results suggest that the planned transition would support Baltic targets in renewable generation (from 45% to 92%) and self-reliance (2.3 TWh increase in domestic power generation and 5.5 TWh decrease in natural gas imports) with a moderate impact on system costs. However, an increase in transport CO2 emissions could risk national non-ETS targets. The hourly operation of the system, with a high share of wind and solar, is based on active use of storages and interconnectors. Model results raise concerns about the amount of Estonian dispatchable capacity, the commercial feasibility of Latvian natural gas CHP’s, and the high ramping rates of Lithuanian interconnectors.

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View of Climate Changes Based on the Wavelet Analysis of Solar Intensity

Barkāns¹,

Žalostība²

2008

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The view of existing tendencies in climate changes proposed by the authors is based on the available facts. Earlier, cyclic behaviour of the world's river flows was discovered, which was found to correlate with the cycles of solar intensity. Similar correlation was revealed by the authors for global temperature anomalies. Based on the wavelet analysis it became possible to notice a phase inversion in these processes, which, in the authors' opinion, could be associated with re-magnetisation of the Sun. This, for example, explains the hitherto inexplicable interruption in the temperature rise during the 1950-70-ies. The authors stress that the processes of global climate changes are of ambiguous character, being consisted of the natural and the anthropogenic components.

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Power system blackout prevention by dangerous overload elimination and fast self-restoration

Žalostība¹

2013

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