Kari Mäki scite author profile

This paper describes various smart grid concepts, architectures, and details of associated technological demonstrations implemented worldwide. The survey is based on initiatives taken by EU and IEA (e.g. ETP, EEGI, EERA and IEA DSM) and description of projects conducted in Europe and US (e.g. FENIX, ADDRESS, EU-DEEP, ADINE, GridWise and SEESGEN-ICT). The report presents drivers, visions and roadmaps to develop smart grids worldwide including China and India. The survey encompasses various smart grid concepts, i.e. development of virtual power plant, active demand in consumer networks, DER aggregation business, active distribution network, and ICT applications to develop intelligent future grids.The comparison is carried out on the basis of commercial, technological, and regulatory aspects. In addition, the existing features of smart grid technology and challenges faced to implement it in Finnish environment are addressed. As a matter of fact, the implementation of smart grid is consisting of more than any one technology, therefore, this transition will not be so easy. In the end, a fully realized smart grid will be beneficial to all the stakeholders. Smart grid will be an outcome of an evolutionary development of the existing electricity networks towards an optimized and sustainable energy system.

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Effect of wind power based distributed generation on protection of distribution network

Mäki

Repo

Järventausta

2004

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Problems related to Islanding Protection of Distributed Generation in Distribution Network

Mäki

Kulmala

Repo

et al. 2007

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An integrated pan-European research infrastructure for validating smart grid systems

Strasser

Andrén

Widl

et al. 2018

Elektrotech. Inftech.

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A driving force for the realization of a sustainable energy supply in Europe is the integration of distributed, renewable energy resources. Due to their dynamic and stochastic generation behaviour, utilities and network operators are confronted with a more complex operation of the underlying distribution grids. Additionally, due to the higher flexibility on the consumer side through partly controllable loads, ongoing changes of regulatory rules, technology developments, and the liberalization of energy markets, the system's operation needs adaptation. Sophisticated design approaches together with proper operational concepts and intelligent automation provide the basis to turn the existing power system into an intelligent entity, a so-called smart grid. While reaping the benefits that come along with those intelligent behaviours, it is expected that the system-level testing will play a significantly larger role in the development of future solutions and technologies. Proper validation approaches, concepts, and corresponding tools are partly missing until now. This paper addresses these issues by discussing the progress in the integrated Pan-European research infrastructure project ERIGrid where proper validation methods and tools are currently being developed for validating smart grid systems and solutions.

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Methods for assessing the protection impacts of distributed generation in network planning activities

Mäki

Repo

Järventausta

2008

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Kari Mäki

Survey of smart grid concepts, architectures, and technological demonstrations worldwide

Effect of wind power based distributed generation on protection of distribution network

Problems related to Islanding Protection of Distributed Generation in Distribution Network

An integrated pan-European research infrastructure for validating smart grid systems

Methods for assessing the protection impacts of distributed generation in network planning activities

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